Improvements for knife tool execute function (code was a bit sloppy & could leak memory).
- vertex to screenspace projections were not checking for failure to project (vertex behind the view for eg). - vertex screenspace 2d vectors were each malloc'd and added to own ghash, then fetched for each edge. now just store a vertex aligned array and do index lookups. - projections were done in global space, now do them in object space (avoids a matrix multiply). - error cases were commented out and would fail silently, now report them to the operator. - remove MAX_CUTS hard coded limit, dynamically allocate the mouse path. - add missing free calls in error cases.
This commit is contained in:
@@ -2527,11 +2527,6 @@ void MESH_OT_solidify(wmOperatorType *ot)
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RNA_def_property_ui_range(prop, -10, 10, 0.1, 4);
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}
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typedef struct CutCurve {
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float x;
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float y;
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} CutCurve;
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/* ******************************************************************** */
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/* Knife Subdivide Tool. Subdivides edges intersected by a mouse trail
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* drawn by user.
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@@ -2565,15 +2560,14 @@ static EnumPropertyItem knife_items[] = {
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/* bm_edge_seg_isect() Determines if and where a mouse trail intersects an BMEdge */
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static float bm_edge_seg_isect(BMEdge *e, CutCurve *c, int len, char mode,
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struct GHash *gh, int *isected)
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static float bm_edge_seg_isect(const float sco_a[2], const float sco_b[2],
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float (*mouse_path)[2], int len, char mode, int *isected)
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{
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#define MAXSLOPE 100000
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float x11, y11, x12 = 0, y12 = 0, x2max, x2min, y2max;
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float y2min, dist, lastdist = 0, xdiff2, xdiff1;
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float m1, b1, m2, b2, x21, x22, y21, y22, xi;
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float yi, x1min, x1max, y1max, y1min, perc = 0;
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float *scr;
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float threshold = 0.0;
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int i;
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@@ -2581,13 +2575,11 @@ static float bm_edge_seg_isect(BMEdge *e, CutCurve *c, int len, char mode,
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// XXX threshold = scene->toolsettings->select_thresh / 100;
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/* Get screen coords of verts */
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scr = BLI_ghash_lookup(gh, e->v1);
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x21 = scr[0];
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y21 = scr[1];
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x21 = sco_a[0];
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y21 = sco_a[1];
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scr = BLI_ghash_lookup(gh, e->v2);
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x22 = scr[0];
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y22 = scr[1];
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x22 = sco_b[0];
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y22 = sco_b[1];
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xdiff2 = (x22 - x21);
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if (xdiff2) {
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@@ -2609,11 +2601,11 @@ static float bm_edge_seg_isect(BMEdge *e, CutCurve *c, int len, char mode,
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y11 = y12;
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}
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else {
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x11 = c[i].x;
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y11 = c[i].y;
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x11 = mouse_path[i][0];
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y11 = mouse_path[i][1];
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}
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x12 = c[i].x;
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y12 = c[i].y;
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x12 = mouse_path[i][0];
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y12 = mouse_path[i][1];
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/* test e->v1 */
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if ((x11 == x21 && y11 == y21) || (x12 == x21 && y12 == y21)) {
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@@ -2637,11 +2629,11 @@ static float bm_edge_seg_isect(BMEdge *e, CutCurve *c, int len, char mode,
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y11 = y12;
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}
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else {
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x11 = c[i].x;
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y11 = c[i].y;
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x11 = mouse_path[i][0];
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y11 = mouse_path[i][1];
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}
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x12 = c[i].x;
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y12 = c[i].y;
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x12 = mouse_path[i][0];
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y12 = mouse_path[i][1];
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/* Perp. Distance from point to line */
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if (m2 != MAXSLOPE) dist = (y12 - m2 * x12 - b2); /* /sqrt(m2 * m2 + 1); Only looking for */
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@@ -2719,9 +2711,9 @@ static float bm_edge_seg_isect(BMEdge *e, CutCurve *c, int len, char mode,
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lastdist = dist;
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}
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return perc;
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}
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}
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#define MAX_CUTS 2048
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#define ELE_EDGE_CUT 1
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static int edbm_knife_cut_exec(bContext *C, wmOperator *op)
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{
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@@ -2733,76 +2725,93 @@ static int edbm_knife_cut_exec(bContext *C, wmOperator *op)
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BMIter iter;
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BMEdge *be;
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BMOperator bmop;
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CutCurve curve[MAX_CUTS];
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struct GHash *gh;
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float isect = 0.0f;
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float *scr, co[4];
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int len = 0, isected;
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int len = 0, isected, i;
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short numcuts = 1, mode = RNA_int_get(op->ptr, "type");
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/* allocd vars */
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float (*screen_vert_coords)[2], (*sco)[2], (*mouse_path)[2];
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/* edit-object needed for matrix, and ar->regiondata for projections to work */
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if (ELEM3(NULL, obedit, ar, ar->regiondata))
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return OPERATOR_CANCELLED;
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if (bm->totvertsel < 2) {
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//error("No edges are selected to operate on");
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BKE_report(op->reports, RPT_ERROR, "No edges are selected to operate on");
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return OPERATOR_CANCELLED;
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}
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len = RNA_collection_length(op->ptr, "path");
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if (len < 2) {
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BKE_report(op->reports, RPT_ERROR, "Mouse path too short");
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return OPERATOR_CANCELLED;
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}
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mouse_path = MEM_mallocN(len * sizeof(*mouse_path), __func__);
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/* get the cut curve */
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RNA_BEGIN(op->ptr, itemptr, "path")
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{
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RNA_float_get_array(&itemptr, "loc", (float *)&curve[len]);
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len++;
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if (len >= MAX_CUTS) {
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break;
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}
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RNA_float_get_array(&itemptr, "loc", (float *)&mouse_path[len]);
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}
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RNA_END;
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if (len < 2) {
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return OPERATOR_CANCELLED;
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}
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/* for ED_view3d_project_float_object */
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ED_view3d_init_mats_rv3d(obedit, ar->regiondata);
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/* TODO, investigate using index lookup for screen_vert_coords() rather then a hash table */
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/* the floating point coordinates of verts in screen space will be stored in a hash table according to the vertices pointer */
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gh = BLI_ghash_ptr_new("knife cut exec");
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for (bv = BM_iter_new(&iter, bm, BM_VERTS_OF_MESH, NULL); bv; bv = BM_iter_step(&iter)) {
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scr = MEM_mallocN(sizeof(float) * 2, "Vertex Screen Coordinates");
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copy_v3_v3(co, bv->co);
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co[3] = 1.0f;
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mul_m4_v4(obedit->obmat, co);
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ED_view3d_project_float(ar, co, scr);
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BLI_ghash_insert(gh, bv, scr);
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screen_vert_coords = sco = MEM_mallocN(bm->totvert * sizeof(float) * 2, __func__);
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BM_ITER_MESH_INDEX (bv, &iter, bm, BM_VERTS_OF_MESH, i) {
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if (ED_view3d_project_float_object(ar, bv->co, *sco, V3D_PROJ_TEST_NOP) != V3D_PROJ_RET_SUCCESS) {
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copy_v2_fl(*sco, FLT_MAX); /* set error value */
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}
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BM_elem_index_set(bv, i); /* set_ok */
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sco++;
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}
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bm->elem_index_dirty &= ~BM_VERT; /* clear dirty flag */
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if (!EDBM_op_init(em, &bmop, op, "subdivide_edges")) {
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MEM_freeN(mouse_path);
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MEM_freeN(screen_vert_coords);
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return OPERATOR_CANCELLED;
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}
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/* store percentage of edge cut for KNIFE_EXACT here.*/
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for (be = BM_iter_new(&iter, bm, BM_EDGES_OF_MESH, NULL); be; be = BM_iter_step(&iter)) {
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int is_cut = FALSE;
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if (BM_elem_flag_test(be, BM_ELEM_SELECT)) {
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isect = bm_edge_seg_isect(be, curve, len, mode, gh, &isected);
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if (isect != 0.0f) {
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if (mode != KNIFE_MULTICUT && mode != KNIFE_MIDPOINT) {
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BMO_slot_map_float_insert(bm, &bmop,
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"edgepercents",
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be, isect);
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const float *sco_a = screen_vert_coords[BM_elem_index_get(be->v1)];
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const float *sco_b = screen_vert_coords[BM_elem_index_get(be->v2)];
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/* check for error value (vert cant be projected) */
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if ((sco_a[0] != FLT_MAX) && (sco_b[0] != FLT_MAX)) {
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isect = bm_edge_seg_isect(sco_a, sco_b, mouse_path, len, mode, &isected);
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if (isect != 0.0f) {
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if (mode != KNIFE_MULTICUT && mode != KNIFE_MIDPOINT) {
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BMO_slot_map_float_insert(bm, &bmop,
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"edgepercents",
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be, isect);
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}
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}
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BMO_elem_flag_enable(bm, be, 1);
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}
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else {
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BMO_elem_flag_disable(bm, be, 1);
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}
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}
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else {
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BMO_elem_flag_disable(bm, be, 1);
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}
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BMO_elem_flag_set(bm, be, ELE_EDGE_CUT, is_cut);
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}
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BMO_slot_buffer_from_enabled_flag(bm, &bmop, "edges", BM_EDGE, 1);
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/* free all allocs */
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MEM_freeN(screen_vert_coords);
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MEM_freeN(mouse_path);
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BMO_slot_buffer_from_enabled_flag(bm, &bmop, "edges", BM_EDGE, ELE_EDGE_CUT);
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if (mode == KNIFE_MIDPOINT) numcuts = 1;
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BMO_slot_int_set(&bmop, "numcuts", numcuts);
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@@ -2817,14 +2826,14 @@ static int edbm_knife_cut_exec(bContext *C, wmOperator *op)
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if (!EDBM_op_finish(em, &bmop, op, TRUE)) {
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return OPERATOR_CANCELLED;
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}
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BLI_ghash_free(gh, NULL, (GHashValFreeFP)MEM_freeN);
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EDBM_update_generic(C, em, TRUE);
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return OPERATOR_FINISHED;
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}
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#undef ELE_EDGE_CUT
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void MESH_OT_knife_cut(wmOperatorType *ot)
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{
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PropertyRNA *prop;
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