diff options
author | mano-wii <germano.costa@ig.com.br> | 2019-12-12 18:01:37 +0300 |
---|---|---|
committer | mano-wii <germano.costa@ig.com.br> | 2019-12-12 18:01:37 +0300 |
commit | 302d692b0b398a6224871ccbc49efdf1580726a5 (patch) | |
tree | bd621357a07663aaee9c787f58e525e80cf72611 /source/blender/modifiers/intern | |
parent | afcdea3961c2cc9a63c2e8613f8bbfa0ba49f583 (diff) |
Cleanup: Rename variables (_tot -> _len)
Diffstat (limited to 'source/blender/modifiers/intern')
-rw-r--r-- | source/blender/modifiers/intern/MOD_weld.c | 252 |
1 files changed, 126 insertions, 126 deletions
diff --git a/source/blender/modifiers/intern/MOD_weld.c b/source/blender/modifiers/intern/MOD_weld.c index ae081942a39..7c2754a5fce 100644 --- a/source/blender/modifiers/intern/MOD_weld.c +++ b/source/blender/modifiers/intern/MOD_weld.c @@ -146,10 +146,10 @@ typedef struct WeldMesh { uint *loop_map; uint *poly_map; - uint vert_kill_tot; - uint edge_kill_tot; - uint loop_kill_tot; - uint poly_kill_tot; /* Including the new polygons. */ + uint vert_kill_len; + uint edge_kill_len; + uint loop_kill_len; + uint poly_kill_len; /* Including the new polygons. */ /* Size of the affected polygon with more sides. */ uint max_poly_len; @@ -189,11 +189,11 @@ static bool weld_iter_loop_of_poly_begin(WeldLoopOfPolyIter *iter, static bool weld_iter_loop_of_poly_next(WeldLoopOfPolyIter *iter); static void weld_assert_vert_dest_map_setup(const BVHTreeOverlap *overlap, - const uint overlap_tot, + const uint overlap_len, const uint *vert_dest_map) { const BVHTreeOverlap *overlap_iter = &overlap[0]; - for (uint i = overlap_tot; i--; overlap_iter++) { + for (uint i = overlap_len; i--; overlap_iter++) { uint indexA = overlap_iter->indexA; uint indexB = overlap_iter->indexB; uint va_dst = vert_dest_map[indexA]; @@ -205,7 +205,7 @@ static void weld_assert_vert_dest_map_setup(const BVHTreeOverlap *overlap, static void weld_assert_edge_kill_len(const WeldEdge *wedge, const uint wedge_len, - const uint supposed_kill_tot) + const uint supposed_kill_len) { uint kills = 0; const WeldEdge *we = &wedge[0]; @@ -216,7 +216,7 @@ static void weld_assert_edge_kill_len(const WeldEdge *wedge, kills++; } } - BLI_assert(kills == supposed_kill_tot); + BLI_assert(kills == supposed_kill_len); } static void weld_assert_poly_and_loop_kill_len(const WeldPoly *wpoly, @@ -229,8 +229,8 @@ static void weld_assert_poly_and_loop_kill_len(const WeldPoly *wpoly, const MPoly *mpoly, const uint mpoly_len, const uint mloop_len, - const uint supposed_poly_kill_tot, - const uint supposed_loop_kill_tot) + const uint supposed_poly_kill_len, + const uint supposed_loop_kill_len) { uint poly_kills = 0; uint loop_kills = mloop_len; @@ -306,8 +306,8 @@ static void weld_assert_poly_and_loop_kill_len(const WeldPoly *wpoly, } } - BLI_assert(poly_kills == supposed_poly_kill_tot); - BLI_assert(loop_kills == supposed_loop_kill_tot); + BLI_assert(poly_kills == supposed_poly_kill_len); + BLI_assert(loop_kills == supposed_loop_kill_len); } static void weld_assert_poly_no_vert_repetition(const WeldPoly *wp, @@ -368,22 +368,22 @@ static void weld_assert_poly_len(const WeldPoly *wp, const WeldLoop *wloop) /** \name Weld Vert API * \{ */ -static void weld_vert_ctx_alloc_and_setup(const uint vert_tot, +static void weld_vert_ctx_alloc_and_setup(const uint mvert_len, const BVHTreeOverlap *overlap, - const uint overlap_tot, + const uint overlap_len, uint *r_vert_dest_map, WeldVert **r_wvert, - uint *r_wvert_tot, - uint *r_vert_kill_tot) + uint *r_wvert_len, + uint *r_vert_kill_len) { uint *v_dest_iter = &r_vert_dest_map[0]; - for (uint i = vert_tot; i--; v_dest_iter++) { + for (uint i = mvert_len; i--; v_dest_iter++) { *v_dest_iter = OUT_OF_CONTEXT; } - uint vert_kill_tot = 0; + uint vert_kill_len = 0; const BVHTreeOverlap *overlap_iter = &overlap[0]; - for (uint i = 0; i < overlap_tot; i++, overlap_iter++) { + for (uint i = 0; i < overlap_len; i++, overlap_iter++) { uint indexA = overlap_iter->indexA; uint indexB = overlap_iter->indexB; @@ -397,11 +397,11 @@ static void weld_vert_ctx_alloc_and_setup(const uint vert_tot, r_vert_dest_map[indexB] = vb_dst; } r_vert_dest_map[indexA] = vb_dst; - vert_kill_tot++; + vert_kill_len++; } else if (vb_dst == OUT_OF_CONTEXT) { r_vert_dest_map[indexB] = va_dst; - vert_kill_tot++; + vert_kill_len++; } else if (va_dst != vb_dst) { uint v_new, v_old; @@ -415,7 +415,7 @@ static void weld_vert_ctx_alloc_and_setup(const uint vert_tot, } BLI_assert(r_vert_dest_map[v_old] == v_old); BLI_assert(r_vert_dest_map[v_new] == v_new); - vert_kill_tot++; + vert_kill_len++; const BVHTreeOverlap *overlap_iter_b = &overlap[0]; for (uint j = i + 1; j--; overlap_iter_b++) { @@ -433,33 +433,33 @@ static void weld_vert_ctx_alloc_and_setup(const uint vert_tot, } /* Vert Context. */ - uint wvert_tot = 0; + uint wvert_len = 0; WeldVert *wvert, *wv; - wvert = MEM_mallocN(sizeof(*wvert) * vert_tot, __func__); + wvert = MEM_mallocN(sizeof(*wvert) * mvert_len, __func__); wv = &wvert[0]; v_dest_iter = &r_vert_dest_map[0]; - for (uint i = 0; i < vert_tot; i++, v_dest_iter++) { + for (uint i = 0; i < mvert_len; i++, v_dest_iter++) { if (*v_dest_iter != OUT_OF_CONTEXT) { wv->vert_dest = *v_dest_iter; wv->vert_orig = i; wv++; - wvert_tot++; + wvert_len++; } } #ifdef USE_WELD_DEBUG - weld_assert_vert_dest_map_setup(overlap, overlap_tot, r_vert_dest_map); + weld_assert_vert_dest_map_setup(overlap, overlap_len, r_vert_dest_map); #endif - *r_wvert = MEM_reallocN(wvert, sizeof(*wvert) * wvert_tot); - *r_wvert_tot = wvert_tot; - *r_vert_kill_tot = vert_kill_tot; + *r_wvert = MEM_reallocN(wvert, sizeof(*wvert) * wvert_len); + *r_wvert_len = wvert_len; + *r_vert_kill_len = vert_kill_len; } -static void weld_vert_groups_setup(const uint vert_tot, - const uint wvert_tot, +static void weld_vert_groups_setup(const uint mvert_len, + const uint wvert_len, const WeldVert *wvert, const uint *vert_dest_map, uint *r_vert_groups_map, @@ -471,7 +471,7 @@ static void weld_vert_groups_setup(const uint vert_tot, uint wgroups_len = 0; const uint *vert_dest_iter = &vert_dest_map[0]; uint *group_map_iter = &r_vert_groups_map[0]; - for (uint i = 0; i < vert_tot; i++, group_map_iter++, vert_dest_iter++) { + for (uint i = 0; i < mvert_len; i++, group_map_iter++, vert_dest_iter++) { uint vert_dest = *vert_dest_iter; if (vert_dest != OUT_OF_CONTEXT) { if (vert_dest != i) { @@ -490,7 +490,7 @@ static void weld_vert_groups_setup(const uint vert_tot, struct WeldGroup *wgroups = MEM_callocN(sizeof(*wgroups) * wgroups_len, __func__); const WeldVert *wv = &wvert[0]; - for (uint i = wvert_tot; i--; wv++) { + for (uint i = wvert_len; i--; wv++) { uint group_index = r_vert_groups_map[wv->vert_dest]; wgroups[group_index].len++; } @@ -502,11 +502,11 @@ static void weld_vert_groups_setup(const uint vert_tot, ofs += wg_iter->len; } - BLI_assert(ofs == wvert_tot); + BLI_assert(ofs == wvert_len); uint *groups_buffer = MEM_mallocN(sizeof(*groups_buffer) * ofs, __func__); wv = &wvert[0]; - for (uint i = wvert_tot; i--; wv++) { + for (uint i = wvert_len; i--; wv++) { uint group_index = r_vert_groups_map[wv->vert_dest]; groups_buffer[wgroups[group_index].ofs++] = wv->vert_orig; } @@ -526,17 +526,17 @@ static void weld_vert_groups_setup(const uint vert_tot, /** \name Weld Edge API * \{ */ -static void weld_edge_ctx_setup(const uint vert_tot, +static void weld_edge_ctx_setup(const uint mvert_len, const uint wedge_len, struct WeldGroup *r_vlinks, uint *r_edge_dest_map, WeldEdge *r_wedge, - uint *r_edge_kiil_tot) + uint *r_edge_kiil_len) { WeldEdge *we; /* Setup Edge Overlap. */ - uint edge_kill_tot = 0; + uint edge_kill_len = 0; struct WeldGroup *vl_iter, *v_links; v_links = r_vlinks; @@ -551,7 +551,7 @@ static void weld_edge_ctx_setup(const uint vert_tot, BLI_assert(we->edge_dest == OUT_OF_CONTEXT); r_edge_dest_map[we->edge_orig] = ELEM_COLLAPSED; we->flag = ELEM_COLLAPSED; - edge_kill_tot++; + edge_kill_len++; continue; } @@ -559,15 +559,15 @@ static void weld_edge_ctx_setup(const uint vert_tot, v_links[dst_vert_b].len++; } - uint link_tot = 0; + uint link_len = 0; vl_iter = &v_links[0]; - for (uint i = vert_tot; i--; vl_iter++) { - vl_iter->ofs = link_tot; - link_tot += vl_iter->len; + for (uint i = mvert_len; i--; vl_iter++) { + vl_iter->ofs = link_len; + link_len += vl_iter->len; } - if (link_tot) { - uint *link_edge_buffer = MEM_mallocN(sizeof(*link_edge_buffer) * link_tot, __func__); + if (link_len) { + uint *link_edge_buffer = MEM_mallocN(sizeof(*link_edge_buffer) * link_len, __func__); we = &r_wedge[0]; for (uint i = 0; i < wedge_len; i++, we++) { @@ -583,7 +583,7 @@ static void weld_edge_ctx_setup(const uint vert_tot, } vl_iter = &v_links[0]; - for (uint i = vert_tot; i--; vl_iter++) { + for (uint i = mvert_len; i--; vl_iter++) { /* Fix offset */ vl_iter->ofs -= vl_iter->len; } @@ -634,23 +634,23 @@ static void weld_edge_ctx_setup(const uint vert_tot, BLI_assert(we_b->edge_orig != edge_orig); r_edge_dest_map[we_b->edge_orig] = edge_orig; we_b->edge_dest = edge_orig; - edge_kill_tot++; + edge_kill_len++; } } } #ifdef USE_WELD_DEBUG - weld_assert_edge_kill_len(r_wedge, wedge_len, edge_kill_tot); + weld_assert_edge_kill_len(r_wedge, wedge_len, edge_kill_len); #endif MEM_freeN(link_edge_buffer); } - *r_edge_kiil_tot = edge_kill_tot; + *r_edge_kiil_len = edge_kill_len; } static void weld_edge_ctx_alloc(const MEdge *medge, - const uint edge_tot, + const uint medge_len, const uint *vert_dest_map, uint *r_edge_dest_map, uint **r_edge_ctx_map, @@ -658,17 +658,17 @@ static void weld_edge_ctx_alloc(const MEdge *medge, uint *r_wedge_len) { /* Edge Context. */ - uint *edge_map = MEM_mallocN(sizeof(*edge_map) * edge_tot, __func__); - uint wedge_tot = 0; + uint *edge_map = MEM_mallocN(sizeof(*edge_map) * medge_len, __func__); + uint wedge_len = 0; WeldEdge *wedge, *we; - wedge = MEM_mallocN(sizeof(*wedge) * edge_tot, __func__); + wedge = MEM_mallocN(sizeof(*wedge) * medge_len, __func__); we = &wedge[0]; const MEdge *me = &medge[0]; uint *e_dest_iter = &r_edge_dest_map[0]; uint *iter = &edge_map[0]; - for (uint i = 0; i < edge_tot; i++, me++, iter++, e_dest_iter++) { + for (uint i = 0; i < medge_len; i++, me++, iter++, e_dest_iter++) { uint v1 = me->v1; uint v2 = me->v2; uint v_dest_1 = vert_dest_map[v1]; @@ -680,7 +680,7 @@ static void weld_edge_ctx_alloc(const MEdge *medge, we->edge_orig = i; we++; *e_dest_iter = i; - *iter = wedge_tot++; + *iter = wedge_len++; } else { *e_dest_iter = OUT_OF_CONTEXT; @@ -688,13 +688,13 @@ static void weld_edge_ctx_alloc(const MEdge *medge, } } - *r_wedge = MEM_reallocN(wedge, sizeof(*wedge) * wedge_tot); - *r_wedge_len = wedge_tot; + *r_wedge = MEM_reallocN(wedge, sizeof(*wedge) * wedge_len); + *r_wedge_len = wedge_len; *r_edge_ctx_map = edge_map; } -static void weld_edge_groups_setup(const uint edge_tot, - const uint edge_kill_tot, +static void weld_edge_groups_setup(const uint medge_len, + const uint edge_kill_len, const uint wedge_len, WeldEdge *wedge, const uint *wedge_map, @@ -707,14 +707,14 @@ static void weld_edge_groups_setup(const uint edge_tot, struct WeldGroupEdge *wegroups, *wegrp_iter; - uint wgroups_len = wedge_len - edge_kill_tot; + uint wgroups_len = wedge_len - edge_kill_len; wegroups = MEM_callocN(sizeof(*wegroups) * wgroups_len, __func__); wegrp_iter = &wegroups[0]; wgroups_len = 0; const uint *edge_ctx_iter = &wedge_map[0]; uint *group_map_iter = &r_edge_groups_map[0]; - for (uint i = edge_tot; i--; edge_ctx_iter++, group_map_iter++) { + for (uint i = medge_len; i--; edge_ctx_iter++, group_map_iter++) { uint edge_ctx = *edge_ctx_iter; if (edge_ctx != OUT_OF_CONTEXT) { WeldEdge *we = &wedge[edge_ctx]; @@ -737,7 +737,7 @@ static void weld_edge_groups_setup(const uint edge_tot, } } - BLI_assert(wgroups_len == wedge_len - edge_kill_tot); + BLI_assert(wgroups_len == wedge_len - edge_kill_len); WeldEdge *we = &wedge[0]; for (uint i = wedge_len; i--; we++) { @@ -1118,13 +1118,13 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, const uint mpoly_len, const uint mloop_len, #endif - const uint vert_tot, + const uint mvert_len, const uint *vert_dest_map, const uint remain_edge_ctx_len, struct WeldGroup *r_vlinks, WeldMesh *r_weld_mesh) { - uint poly_kill_tot, loop_kill_tot, wpoly_len, wpoly_new_tot; + uint poly_kill_len, loop_kill_len, wpoly_len, wpoly_new_len; WeldPoly *wpoly_new, *wpoly, *wp; WeldLoop *wloop, *wl; @@ -1133,9 +1133,9 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, wloop = r_weld_mesh->wloop; wpoly_new = r_weld_mesh->wpoly_new; wpoly_len = r_weld_mesh->wpoly_len; - wpoly_new_tot = 0; - poly_kill_tot = 0; - loop_kill_tot = 0; + wpoly_new_len = 0; + poly_kill_len = 0; + loop_kill_len = 0; const uint *loop_map = r_weld_mesh->loop_map; @@ -1157,12 +1157,12 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, wl->flag = ELEM_COLLAPSED; if (poly_len == 3) { wp->flag = ELEM_COLLAPSED; - poly_kill_tot++; - loop_kill_tot += 3; + poly_kill_len++; + loop_kill_len += 3; poly_len = 0; break; } - loop_kill_tot++; + loop_kill_len++; poly_len--; } else { @@ -1186,17 +1186,17 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, ctx_verts_len, wp, r_weld_mesh, - &poly_kill_tot, - &loop_kill_tot); + &poly_kill_len, + &loop_kill_len); - wpoly_new_tot = r_weld_mesh->wpoly_new_len; + wpoly_new_len = r_weld_mesh->wpoly_new_len; } } #ifdef USE_WELD_DEBUG weld_assert_poly_and_loop_kill_len(wpoly, wpoly_new, - wpoly_new_tot, + wpoly_new_len, wloop, mloop, loop_map, @@ -1204,19 +1204,19 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, mpoly, mpoly_len, mloop_len, - poly_kill_tot, - loop_kill_tot); + poly_kill_len, + loop_kill_len); #endif /* Setup Polygon Overlap. */ - uint wpoly_and_new_tot = wpoly_len + wpoly_new_tot; + uint wpoly_and_new_len = wpoly_len + wpoly_new_len; struct WeldGroup *vl_iter, *v_links = r_vlinks; - memset(v_links, 0, sizeof(*v_links) * vert_tot); + memset(v_links, 0, sizeof(*v_links) * mvert_len); wp = &wpoly[0]; - for (uint i = wpoly_and_new_tot; i--; wp++) { + for (uint i = wpoly_and_new_len; i--; wp++) { WeldLoopOfPolyIter iter; if (weld_iter_loop_of_poly_begin(&iter, wp, wloop, mloop, loop_map, NULL)) { while (weld_iter_loop_of_poly_next(&iter)) { @@ -1225,18 +1225,18 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, } } - uint link_tot = 0; + uint link_len = 0; vl_iter = &v_links[0]; - for (uint i = vert_tot; i--; vl_iter++) { - vl_iter->ofs = link_tot; - link_tot += vl_iter->len; + for (uint i = mvert_len; i--; vl_iter++) { + vl_iter->ofs = link_len; + link_len += vl_iter->len; } - if (link_tot) { - uint *link_poly_buffer = MEM_mallocN(sizeof(*link_poly_buffer) * link_tot, __func__); + if (link_len) { + uint *link_poly_buffer = MEM_mallocN(sizeof(*link_poly_buffer) * link_len, __func__); wp = &wpoly[0]; - for (uint i = 0; i < wpoly_and_new_tot; i++, wp++) { + for (uint i = 0; i < wpoly_and_new_len; i++, wp++) { WeldLoopOfPolyIter iter; if (weld_iter_loop_of_poly_begin(&iter, wp, wloop, mloop, loop_map, NULL)) { while (weld_iter_loop_of_poly_next(&iter)) { @@ -1246,7 +1246,7 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, } vl_iter = &v_links[0]; - for (uint i = vert_tot; i--; vl_iter++) { + for (uint i = mvert_len; i--; vl_iter++) { /* Fix offset */ vl_iter->ofs -= vl_iter->len; } @@ -1255,7 +1255,7 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, polys_len_b = p_ctx_b = 0; /* silence warnings */ wp = &wpoly[0]; - for (uint i = 0; i < wpoly_and_new_tot; i++, wp++) { + for (uint i = 0; i < wpoly_and_new_len; i++, wp++) { if (wp->poly_dst != OUT_OF_CONTEXT) { /* No need to retest poly. * (Already includes collapsed polygons). */ @@ -1319,16 +1319,16 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, BLI_assert(wp_tmp->poly_dst == OUT_OF_CONTEXT); BLI_assert(wp_tmp != wp); wp_tmp->poly_dst = wp->poly_orig; - loop_kill_tot += wp_tmp->len; - poly_kill_tot++; + loop_kill_len += wp_tmp->len; + poly_kill_len++; } } MEM_freeN(link_poly_buffer); } } else { - poly_kill_tot = r_weld_mesh->wpoly_len; - loop_kill_tot = r_weld_mesh->wloop_len; + poly_kill_len = r_weld_mesh->wpoly_len; + loop_kill_len = r_weld_mesh->wloop_len; wp = &wpoly[0]; for (uint i = wpoly_len; i--; wp++) { @@ -1339,7 +1339,7 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, #ifdef USE_WELD_DEBUG weld_assert_poly_and_loop_kill_len(wpoly, wpoly_new, - wpoly_new_tot, + wpoly_new_len, wloop, mloop, loop_map, @@ -1347,13 +1347,13 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, mpoly, mpoly_len, mloop_len, - poly_kill_tot, - loop_kill_tot); + poly_kill_len, + loop_kill_len); #endif r_weld_mesh->wpoly_new = wpoly_new; - r_weld_mesh->poly_kill_tot = poly_kill_tot; - r_weld_mesh->loop_kill_tot = loop_kill_tot; + r_weld_mesh->poly_kill_len = poly_kill_len; + r_weld_mesh->loop_kill_len = loop_kill_len; } /** \} */ @@ -1364,39 +1364,39 @@ static void weld_poly_loop_ctx_setup(const MLoop *mloop, static void weld_mesh_context_create(const Mesh *mesh, BVHTreeOverlap *overlap, - const uint overlap_tot, + const uint overlap_len, WeldMesh *r_weld_mesh) { const MEdge *medge = mesh->medge; const MLoop *mloop = mesh->mloop; const MPoly *mpoly = mesh->mpoly; - const uint vert_tot = mesh->totvert; - const uint edge_tot = mesh->totedge; + const uint mvert_len = mesh->totvert; + const uint medge_len = mesh->totedge; const uint mloop_len = mesh->totloop; const uint mpoly_len = mesh->totpoly; - uint *vert_dest_map = MEM_mallocN(sizeof(*vert_dest_map) * vert_tot, __func__); - uint *edge_dest_map = MEM_mallocN(sizeof(*edge_dest_map) * edge_tot, __func__); - struct WeldGroup *v_links = MEM_callocN(sizeof(*v_links) * vert_tot, __func__); + uint *vert_dest_map = MEM_mallocN(sizeof(*vert_dest_map) * mvert_len, __func__); + uint *edge_dest_map = MEM_mallocN(sizeof(*edge_dest_map) * medge_len, __func__); + struct WeldGroup *v_links = MEM_callocN(sizeof(*v_links) * mvert_len, __func__); WeldVert *wvert; uint wvert_len; - weld_vert_ctx_alloc_and_setup(vert_tot, + weld_vert_ctx_alloc_and_setup(mvert_len, overlap, - overlap_tot, + overlap_len, vert_dest_map, &wvert, &wvert_len, - &r_weld_mesh->vert_kill_tot); + &r_weld_mesh->vert_kill_len); uint *edge_ctx_map; WeldEdge *wedge; uint wedge_len; weld_edge_ctx_alloc( - medge, edge_tot, vert_dest_map, edge_dest_map, &edge_ctx_map, &wedge, &wedge_len); + medge, medge_len, vert_dest_map, edge_dest_map, &edge_ctx_map, &wedge, &wedge_len); weld_edge_ctx_setup( - vert_tot, wedge_len, v_links, edge_dest_map, wedge, &r_weld_mesh->edge_kill_tot); + mvert_len, wedge_len, v_links, edge_dest_map, wedge, &r_weld_mesh->edge_kill_len); weld_poly_loop_ctx_alloc( mpoly, mpoly_len, mloop, mloop_len, vert_dest_map, edge_dest_map, r_weld_mesh); @@ -1407,13 +1407,13 @@ static void weld_mesh_context_create(const Mesh *mesh, mpoly_len, mloop_len, #endif - vert_tot, + mvert_len, vert_dest_map, - wedge_len - r_weld_mesh->edge_kill_tot, + wedge_len - r_weld_mesh->edge_kill_len, v_links, r_weld_mesh); - weld_vert_groups_setup(vert_tot, + weld_vert_groups_setup(mvert_len, wvert_len, wvert, vert_dest_map, @@ -1421,8 +1421,8 @@ static void weld_mesh_context_create(const Mesh *mesh, &r_weld_mesh->vert_groups_buffer, &r_weld_mesh->vert_groups); - weld_edge_groups_setup(edge_tot, - r_weld_mesh->edge_kill_tot, + weld_edge_groups_setup(medge_len, + r_weld_mesh->edge_kill_len, wedge_len, wedge, edge_ctx_map, @@ -1657,10 +1657,10 @@ static Mesh *weldModifier_doWeld(WeldModifierData *wmd, const ModifierEvalContex data.mvert = mvert; data.merge_dist_sq = SQUARE(wmd->merge_dist); - uint overlap_tot; + uint overlap_len; BVHTreeOverlap *overlap = BLI_bvhtree_overlap_ex(bvhtree, bvhtree, - &overlap_tot, + &overlap_len, bvhtree_weld_overlap_cb, &data, wmd->max_interactions, @@ -1668,9 +1668,9 @@ static Mesh *weldModifier_doWeld(WeldModifierData *wmd, const ModifierEvalContex free_bvhtree_from_mesh(&treedata); - if (overlap_tot) { + if (overlap_len) { WeldMesh weld_mesh; - weld_mesh_context_create(mesh, overlap, overlap_tot, &weld_mesh); + weld_mesh_context_create(mesh, overlap, overlap_len, &weld_mesh); mloop = mesh->mloop; mpoly = mesh->mpoly; @@ -1679,10 +1679,10 @@ static Mesh *weldModifier_doWeld(WeldModifierData *wmd, const ModifierEvalContex totloop = mesh->totloop; totpoly = mesh->totpoly; - const int result_nverts = totvert - weld_mesh.vert_kill_tot; - const int result_nedges = totedge - weld_mesh.edge_kill_tot; - const int result_nloops = totloop - weld_mesh.loop_kill_tot; - const int result_npolys = totpoly - weld_mesh.poly_kill_tot + weld_mesh.wpoly_new_len; + const int result_nverts = totvert - weld_mesh.vert_kill_len; + const int result_nedges = totedge - weld_mesh.edge_kill_len; + const int result_nloops = totloop - weld_mesh.loop_kill_len; + const int result_npolys = totpoly - weld_mesh.poly_kill_len + weld_mesh.wpoly_new_len; result = BKE_mesh_new_nomain_from_template( mesh, result_nverts, result_nedges, 0, result_nloops, result_npolys); @@ -1779,10 +1779,10 @@ static Mesh *weldModifier_doWeld(WeldModifierData *wmd, const ModifierEvalContex int loop_start = loop_cur; uint poly_ctx = weld_mesh.poly_map[i]; if (poly_ctx == OUT_OF_CONTEXT) { - uint mp_totloop = mp->totloop; - CustomData_copy_data(&mesh->ldata, &result->ldata, mp->loopstart, loop_cur, mp_totloop); - loop_cur += mp_totloop; - for (; mp_totloop--; r_ml++) { + uint mp_loop_len = mp->totloop; + CustomData_copy_data(&mesh->ldata, &result->ldata, mp->loopstart, loop_cur, mp_loop_len); + loop_cur += mp_loop_len; + for (; mp_loop_len--; r_ml++) { r_ml->v = vert_final[r_ml->v]; r_ml->e = edge_final[r_ml->e]; } |