diff options
Diffstat (limited to 'source/blender/bmesh/tools/bmesh_bevel.c')
-rw-r--r-- | source/blender/bmesh/tools/bmesh_bevel.c | 36 |
1 files changed, 18 insertions, 18 deletions
diff --git a/source/blender/bmesh/tools/bmesh_bevel.c b/source/blender/bmesh/tools/bmesh_bevel.c index 4aa55d9324b..d781f9c3572 100644 --- a/source/blender/bmesh/tools/bmesh_bevel.c +++ b/source/blender/bmesh/tools/bmesh_bevel.c @@ -380,7 +380,7 @@ static BMFace *bev_create_ngon(BMesh *bm, BMVert **vert_arr, const int totv, interp_f = facerep; } if (interp_f) - BM_loop_interp_from_face(bm, l, interp_f, TRUE, TRUE); + BM_loop_interp_from_face(bm, l, interp_f, true, true); i++; } } @@ -504,7 +504,7 @@ static BMFace *bev_create_quad_straddle(BMesh *bm, BMVert *v1, BMVert *v2, BMVer else facerep = f2; if (facerep) - BM_loop_interp_from_face(bm, l, facerep, TRUE, TRUE); + BM_loop_interp_from_face(bm, l, facerep, true, true); } return f; } @@ -831,10 +831,10 @@ static void offset_in_two_planes(BevelParams *bp, EdgeHalf *e1, EdgeHalf *e2, Ed } } -/* Offset by e->offset in plane with normal plane_no, on left if left==TRUE, +/* Offset by e->offset in plane with normal plane_no, on left if left==true, * else on right. If no is NULL, choose an arbitrary plane different * from eh's direction. */ -static void offset_in_plane(EdgeHalf *e, const float plane_no[3], int left, float r[3]) +static void offset_in_plane(EdgeHalf *e, const float plane_no[3], bool left, float r[3]) { float dir[3], no[3], fdir[3]; BMVert *v; @@ -1007,8 +1007,8 @@ static int bev_ccw_test(BMEdge *a, BMEdge *b, BMFace *f) /* Fill matrix r_mat so that a point in the sheared parallelogram with corners * va, vmid, vb (and the 4th that is implied by it being a parallelogram) * is the result of transforming the unit square by multiplication with r_mat. - * If it can't be done because the parallelogram is degenerate, return FALSE - * else return TRUE. + * If it can't be done because the parallelogram is degenerate, return false + * else return true. * Method: * Find vo, the origin of the parallelogram with other three points va, vmid, vb. * Also find vd, which is in direction normal to parallelogram and 1 unit away @@ -1024,8 +1024,8 @@ static int bev_ccw_test(BMEdge *a, BMEdge *b, BMFace *f) * and B has the right side as columns - both extended into homogeneous coords. * So M = B*(Ainverse). Doing Ainverse by hand gives the code below. */ -static int make_unit_square_map(const float va[3], const float vmid[3], const float vb[3], - float r_mat[4][4]) +static bool make_unit_square_map(const float va[3], const float vmid[3], const float vb[3], + float r_mat[4][4]) { float vo[3], vd[3], vb_vmid[3], va_vmid[3], vddir[3]; @@ -1052,10 +1052,10 @@ static int make_unit_square_map(const float va[3], const float vmid[3], const fl sub_v3_v3(&r_mat[3][0], vmid); r_mat[3][3] = 1.0f; - return TRUE; + return true; } else - return FALSE; + return false; } /* Like make_unit_square_map, but this one makes a matrix that transforms the @@ -1406,7 +1406,7 @@ static void build_boundary(BevelParams *bp, BevVert *bv, bool construct) if (bv->edgecount == 2 && bv->selcount == 1) { /* special case: beveled edge meets non-beveled one at valence 2 vert */ no = e->fprev ? e->fprev->no : (e->fnext ? e->fnext->no : NULL); - offset_in_plane(e, no, TRUE, co); + offset_in_plane(e, no, true, co); if (construct) { v = add_new_bound_vert(mem_arena, vm, co); v->efirst = v->elast = v->ebev = e; @@ -1416,7 +1416,7 @@ static void build_boundary(BevelParams *bp, BevVert *bv, bool construct) adjust_bound_vert(e->leftv, co); } no = e->fnext ? e->fnext->no : (e->fprev ? e->fprev->no : NULL); - offset_in_plane(e, no, FALSE, co); + offset_in_plane(e, no, false, co); if (construct) { v = add_new_bound_vert(mem_arena, vm, co); v->efirst = v->elast = e; @@ -1706,7 +1706,7 @@ static BoundVert *pipe_test(BevVert *bv) for (e = &bv->edges[0]; e != &bv->edges[bv->edgecount]; e++) { if (e->fnext) { if (dot_v3v3(dir1, e->fnext->no) > BEVEL_EPSILON) - return FALSE; + return NULL; } } return v1; @@ -2623,7 +2623,7 @@ static void bevel_build_trifan(BMesh *bm, BevVert *bv) BMLoop *l_new; BMFace *f_new; BLI_assert(v_fan == l_fan->v); - f_new = BM_face_split(bm, f, l_fan, l_fan->next->next, &l_new, NULL, FALSE); + f_new = BM_face_split(bm, f, l_fan, l_fan->next->next, &l_new, NULL, false); if (f_new->len > f->len) { f = f_new; @@ -2668,7 +2668,7 @@ static void bevel_build_quadstrip(BMesh *bm, BevVert *bv) l_b = l_b->next; } else { - BM_face_split(bm, f, l_a, l_b, &l_new, NULL, FALSE); + BM_face_split(bm, f, l_a, l_b, &l_new, NULL, false); f = l_new->f; /* walk around the new face to get the next verts to split */ @@ -2918,11 +2918,11 @@ static BevVert *bevel_vert_construct(BMesh *bm, BevelParams *bp, BMVert *v) bme = e->e; BM_BEVEL_EDGE_TAG_ENABLE(bme); if (BM_elem_flag_test(bme, BM_ELEM_TAG) && !bp->vertex_only) { - e->is_bev = TRUE; + e->is_bev = true; e->seg = bp->seg; } else { - e->is_bev = FALSE; + e->is_bev = false; e->seg = 0; } e->is_rev = (bme->v2 == v); @@ -3083,7 +3083,7 @@ static bool bev_rebuild_polygon(BMesh *bm, BevelParams *bp, BMFace *f) BLI_array_append(vv, v->nv.v); } - do_rebuild = TRUE; + do_rebuild = true; } else { BLI_array_append(vv, l->v); |