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702efd6846790cd820e7ef20b81500eb21d902cd
test/source/blender/python/bmesh/bmesh_py_utils.cc
Jason C. Wenger 702efd6846 BMesh: add a BM_faces_join() to return a duplicate face (if found) 
Every call to BM_faces_join and BM_faces_join_pair has been adjusted to
provide the new face pointer, and a BLI_assert_msg has been added so
that doubles are now consistently identified and flagged as a problem.
BM_faces_join is now also capable of automatically reusing a double
when it is found. This new behavior is currently unused at this point.
Future patch-sets will begin to use it, allowing simplification of
calling functions.

Ref: !137406
2025-04-15 11:03:15 +00:00

881 lines
26 KiB
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/* SPDX-FileCopyrightText: 2012 Blender Authors
*
* SPDX-License-Identifier: GPL-2.0-or-later */
/** \file
* \ingroup pybmesh
*
* This file defines the 'bmesh.utils' module.
* Utility functions for operating on 'bmesh.types'
*/
#include <Python.h>
#include "BLI_math_base.h"
#include "BLI_utildefines.h"
#include "MEM_guardedalloc.h"
#include "../mathutils/mathutils.hh"
#include "bmesh.hh"
#include "bmesh_py_types.hh"
#include "bmesh_py_utils.hh" /* own include */
#include "../generic/py_capi_utils.hh"
#include "../generic/python_utildefines.hh"
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_vert_collapse_edge_doc,
".. method:: vert_collapse_edge(vert, edge)\n"
"\n"
" Collapse a vertex into an edge.\n"
"\n"
" :arg vert: The vert that will be collapsed.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :arg edge: The edge to collapse into.\n"
" :type edge: :class:`bmesh.types.BMEdge`\n"
" :return: The resulting edge from the collapse operation.\n"
" :rtype: :class:`bmesh.types.BMEdge`\n");
static PyObject *bpy_bm_utils_vert_collapse_edge(PyObject * /*self*/, PyObject *args)
{
BPy_BMEdge *py_edge;
BPy_BMVert *py_vert;
BMesh *bm;
BMEdge *e_new = nullptr;
if (!PyArg_ParseTuple(
args, "O!O!:vert_collapse_edge", &BPy_BMVert_Type, &py_vert, &BPy_BMEdge_Type, &py_edge))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_edge);
BPY_BM_CHECK_OBJ(py_vert);
/* this doubles for checking that the verts are in the same mesh */
if (!(py_edge->e->v1 == py_vert->v || py_edge->e->v2 == py_vert->v)) {
PyErr_SetString(PyExc_ValueError,
"vert_collapse_edge(vert, edge): the vertex is not found in the edge");
return nullptr;
}
if (BM_vert_edge_count_is_over(py_vert->v, 2)) {
PyErr_SetString(PyExc_ValueError,
"vert_collapse_edge(vert, edge): vert has more than 2 connected edges");
return nullptr;
}
bm = py_edge->bm;
e_new = BM_vert_collapse_edge(bm, py_edge->e, py_vert->v, true, true, true);
if (e_new) {
return BPy_BMEdge_CreatePyObject(bm, e_new);
}
PyErr_SetString(PyExc_ValueError,
"vert_collapse_edge(vert, edge): no new edge created, internal error");
return nullptr;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_vert_collapse_faces_doc,
".. method:: vert_collapse_faces(vert, edge, fac, join_faces)\n"
"\n"
" Collapses a vertex that has only two manifold edges onto a vertex it shares an "
"edge with.\n"
"\n"
" :arg vert: The vert that will be collapsed.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :arg edge: The edge to collapse into.\n"
" :type edge: :class:`bmesh.types.BMEdge`\n"
" :arg fac: The factor to use when merging customdata [0 - 1].\n"
" :type fac: float\n"
" :arg join_faces: When true the faces around the vertex will be joined otherwise "
"collapse the vertex by merging the 2 edges this vertex connects to into one.\n"
" :type join_faces: bool\n"
" :return: The resulting edge from the collapse operation.\n"
" :rtype: :class:`bmesh.types.BMEdge`\n");
static PyObject *bpy_bm_utils_vert_collapse_faces(PyObject * /*self*/, PyObject *args)
{
BPy_BMEdge *py_edge;
BPy_BMVert *py_vert;
float fac;
int do_join_faces;
BMesh *bm;
BMEdge *e_new = nullptr;
if (!PyArg_ParseTuple(args,
"O!O!fi:vert_collapse_faces",
&BPy_BMVert_Type,
&py_vert,
&BPy_BMEdge_Type,
&py_edge,
&fac,
&do_join_faces))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_edge);
BPY_BM_CHECK_OBJ(py_vert);
/* this doubles for checking that the verts are in the same mesh */
if (!(py_edge->e->v1 == py_vert->v || py_edge->e->v2 == py_vert->v)) {
PyErr_SetString(PyExc_ValueError,
"vert_collapse_faces(vert, edge): the vertex is not found in the edge");
return nullptr;
}
if (BM_vert_edge_count_is_over(py_vert->v, 2)) {
PyErr_SetString(PyExc_ValueError,
"vert_collapse_faces(vert, edge): vert has more than 2 connected edges");
return nullptr;
}
bm = py_edge->bm;
e_new = BM_vert_collapse_faces(
bm, py_edge->e, py_vert->v, clamp_f(fac, 0.0f, 1.0f), true, do_join_faces, true, true);
if (e_new) {
return BPy_BMEdge_CreatePyObject(bm, e_new);
}
PyErr_SetString(PyExc_ValueError,
"vert_collapse_faces(vert, edge): no new edge created, internal error");
return nullptr;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_vert_dissolve_doc,
".. method:: vert_dissolve(vert)\n"
"\n"
" Dissolve this vertex (will be removed).\n"
"\n"
" :arg vert: The vert to be dissolved.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :return: True when the vertex dissolve is successful.\n"
" :rtype: bool\n");
static PyObject *bpy_bm_utils_vert_dissolve(PyObject * /*self*/, PyObject *args)
{
BPy_BMVert *py_vert;
BMesh *bm;
if (!PyArg_ParseTuple(args, "O!:vert_dissolve", &BPy_BMVert_Type, &py_vert)) {
return nullptr;
}
BPY_BM_CHECK_OBJ(py_vert);
bm = py_vert->bm;
return PyBool_FromLong(BM_vert_dissolve(bm, py_vert->v));
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_vert_splice_doc,
".. method:: vert_splice(vert, vert_target)\n"
"\n"
" Splice vert into vert_target.\n"
"\n"
" :arg vert: The vertex to be removed.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :arg vert_target: The vertex to use.\n"
" :type vert_target: :class:`bmesh.types.BMVert`\n"
"\n"
" .. note:: The verts mustn't share an edge or face.\n");
static PyObject *bpy_bm_utils_vert_splice(PyObject * /*self*/, PyObject *args)
{
BPy_BMVert *py_vert;
BPy_BMVert *py_vert_target;
BMesh *bm;
bool ok;
if (!PyArg_ParseTuple(
args, "O!O!:vert_splice", &BPy_BMVert_Type, &py_vert, &BPy_BMVert_Type, &py_vert_target))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_vert);
BPY_BM_CHECK_OBJ(py_vert_target);
bm = py_vert->bm;
BPY_BM_CHECK_SOURCE_OBJ(bm, "vert_splice", py_vert_target);
if (py_vert->v == py_vert_target->v) {
PyErr_SetString(PyExc_ValueError, "vert_splice(...): vert arguments match");
return nullptr;
}
if (BM_edge_exists(py_vert->v, py_vert_target->v)) {
PyErr_SetString(PyExc_ValueError, "vert_splice(...): verts can't share an edge");
return nullptr;
}
if (BM_vert_pair_share_face_check(py_vert->v, py_vert_target->v)) {
PyErr_SetString(PyExc_ValueError, "vert_splice(...): verts can't share a face");
return nullptr;
}
/* should always succeed */
ok = BM_vert_splice(bm, py_vert_target->v, py_vert->v);
BLI_assert(ok == true);
UNUSED_VARS_NDEBUG(ok);
Py_RETURN_NONE;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_vert_separate_doc,
".. method:: vert_separate(vert, edges)\n"
"\n"
" Separate this vertex at every edge.\n"
"\n"
" :arg vert: The vert to be separated.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :arg edges: The edges to separated.\n"
" :type edges: :class:`bmesh.types.BMEdge`\n"
" :return: The newly separated verts (including the vertex passed).\n"
" :rtype: tuple[:class:`bmesh.types.BMVert`, ...]\n");
static PyObject *bpy_bm_utils_vert_separate(PyObject * /*self*/, PyObject *args)
{
BPy_BMVert *py_vert;
PyObject *edge_seq;
BMesh *bm;
BMVert **elem;
int elem_len;
/* edges to split */
BMEdge **edge_array;
Py_ssize_t edge_array_len;
PyObject *ret;
if (!PyArg_ParseTuple(args, "O!O:vert_separate", &BPy_BMVert_Type, &py_vert, &edge_seq)) {
return nullptr;
}
BPY_BM_CHECK_OBJ(py_vert);
bm = py_vert->bm;
edge_array = static_cast<BMEdge **>(BPy_BMElem_PySeq_As_Array(&bm,
edge_seq,
0,
PY_SSIZE_T_MAX,
&edge_array_len,
BM_EDGE,
true,
true,
"vert_separate(...)"));
if (edge_array == nullptr) {
return nullptr;
}
BM_vert_separate(bm, py_vert->v, edge_array, edge_array_len, false, &elem, &elem_len);
/* return collected verts */
ret = BPy_BMVert_Array_As_Tuple(bm, elem, elem_len);
MEM_freeN(elem);
PyMem_FREE(edge_array);
return ret;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_edge_split_doc,
".. method:: edge_split(edge, vert, fac)\n"
"\n"
" Split an edge, return the newly created data.\n"
"\n"
" :arg edge: The edge to split.\n"
" :type edge: :class:`bmesh.types.BMEdge`\n"
" :arg vert: One of the verts on the edge, defines the split direction.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :arg fac: The point on the edge where the new vert will be created [0 - 1].\n"
" :type fac: float\n"
" :return: The newly created (edge, vert) pair.\n"
" :rtype: tuple[:class:`bmesh.types.BMEdge`, :class:`bmesh.types.BMVert`]\n");
static PyObject *bpy_bm_utils_edge_split(PyObject * /*self*/, PyObject *args)
{
BPy_BMEdge *py_edge;
BPy_BMVert *py_vert;
float fac;
BMesh *bm;
BMVert *v_new = nullptr;
BMEdge *e_new = nullptr;
if (!PyArg_ParseTuple(
args, "O!O!f:edge_split", &BPy_BMEdge_Type, &py_edge, &BPy_BMVert_Type, &py_vert, &fac))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_edge);
BPY_BM_CHECK_OBJ(py_vert);
/* this doubles for checking that the verts are in the same mesh */
if (!(py_edge->e->v1 == py_vert->v || py_edge->e->v2 == py_vert->v)) {
PyErr_SetString(PyExc_ValueError,
"edge_split(edge, vert): the vertex is not found in the edge");
return nullptr;
}
bm = py_edge->bm;
v_new = BM_edge_split(bm, py_edge->e, py_vert->v, &e_new, clamp_f(fac, 0.0f, 1.0f));
if (v_new && e_new) {
PyObject *ret = PyTuple_New(2);
PyTuple_SET_ITEMS(
ret, BPy_BMEdge_CreatePyObject(bm, e_new), BPy_BMVert_CreatePyObject(bm, v_new));
return ret;
}
PyErr_SetString(PyExc_ValueError,
"edge_split(edge, vert): couldn't split the edge, internal error");
return nullptr;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_edge_rotate_doc,
".. method:: edge_rotate(edge, ccw=False)\n"
"\n"
" Rotate the edge and return the newly created edge.\n"
" If rotating the edge fails, None will be returned.\n"
"\n"
" :arg edge: The edge to rotate.\n"
" :type edge: :class:`bmesh.types.BMEdge`\n"
" :arg ccw: When True the edge will be rotated counter clockwise.\n"
" :type ccw: bool\n"
" :return: The newly rotated edge.\n"
" :rtype: :class:`bmesh.types.BMEdge`\n");
static PyObject *bpy_bm_utils_edge_rotate(PyObject * /*self*/, PyObject *args)
{
BPy_BMEdge *py_edge;
bool do_ccw = false;
BMesh *bm;
BMEdge *e_new = nullptr;
if (!PyArg_ParseTuple(
args, "O!|O&:edge_rotate", &BPy_BMEdge_Type, &py_edge, PyC_ParseBool, &do_ccw))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_edge);
bm = py_edge->bm;
e_new = BM_edge_rotate(bm, py_edge->e, do_ccw, 0);
if (e_new) {
return BPy_BMEdge_CreatePyObject(bm, e_new);
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_face_split_doc,
".. method:: face_split(face, vert_a, vert_b, coords=(), use_exist=True, example=None)\n"
"\n"
" Face split with optional intermediate points.\n"
"\n"
" :arg face: The face to cut.\n"
" :type face: :class:`bmesh.types.BMFace`\n"
" :arg vert_a: First vertex to cut in the face (face must contain the vert).\n"
" :type vert_a: :class:`bmesh.types.BMVert`\n"
" :arg vert_b: Second vertex to cut in the face (face must contain the vert).\n"
" :type vert_b: :class:`bmesh.types.BMVert`\n"
" :arg coords: Optional sequence of 3D points in between *vert_a* and *vert_b*.\n"
" :type coords: Sequence[Sequence[float]]\n"
" :arg use_exist: .Use an existing edge if it exists (Only used when *coords* argument is "
"empty or omitted)\n"
" :type use_exist: bool\n"
" :arg example: Newly created edge will copy settings from this one.\n"
" :type example: :class:`bmesh.types.BMEdge`\n"
" :return: The newly created face or None on failure.\n"
" :rtype: tuple[:class:`bmesh.types.BMFace`, :class:`bmesh.types.BMLoop`]\n");
static PyObject *bpy_bm_utils_face_split(PyObject * /*self*/, PyObject *args, PyObject *kw)
{
static const char *kwlist[] = {
"face", "vert_a", "vert_b", "coords", "use_exist", "example", nullptr};
BPy_BMFace *py_face;
BPy_BMVert *py_vert_a;
BPy_BMVert *py_vert_b;
/* optional */
PyObject *py_coords = nullptr;
bool edge_exists = true;
BPy_BMEdge *py_edge_example = nullptr;
float *coords;
int ncoords = 0;
BMesh *bm;
BMFace *f_new = nullptr;
BMLoop *l_new = nullptr;
BMLoop *l_a, *l_b;
if (!PyArg_ParseTupleAndKeywords(args,
kw,
"O!O!O!|$OO&O!:face_split",
(char **)kwlist,
&BPy_BMFace_Type,
&py_face,
&BPy_BMVert_Type,
&py_vert_a,
&BPy_BMVert_Type,
&py_vert_b,
&py_coords,
PyC_ParseBool,
&edge_exists,
&BPy_BMEdge_Type,
&py_edge_example))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_face);
BPY_BM_CHECK_OBJ(py_vert_a);
BPY_BM_CHECK_OBJ(py_vert_b);
if (py_edge_example) {
BPY_BM_CHECK_OBJ(py_edge_example);
}
/* this doubles for checking that the verts are in the same mesh */
if ((l_a = BM_face_vert_share_loop(py_face->f, py_vert_a->v)) &&
(l_b = BM_face_vert_share_loop(py_face->f, py_vert_b->v)))
{
/* pass */
}
else {
PyErr_SetString(PyExc_ValueError,
"face_split(...): one of the verts passed is not found in the face");
return nullptr;
}
if (py_vert_a->v == py_vert_b->v) {
PyErr_SetString(PyExc_ValueError, "face_split(...): vert arguments must differ");
return nullptr;
}
if (py_coords) {
ncoords = mathutils_array_parse_alloc_v(&coords, 3, py_coords, "face_split(...): ");
if (ncoords == -1) {
return nullptr;
}
}
else {
if (BM_loop_is_adjacent(l_a, l_b)) {
PyErr_SetString(PyExc_ValueError, "face_split(...): verts are adjacent in the face");
return nullptr;
}
}
/* --- main function body --- */
bm = py_face->bm;
if (ncoords) {
f_new = BM_face_split_n(bm,
py_face->f,
l_a,
l_b,
(float(*)[3])coords,
ncoords,
&l_new,
py_edge_example ? py_edge_example->e : nullptr);
PyMem_Free(coords);
}
else {
f_new = BM_face_split(bm,
py_face->f,
l_a,
l_b,
&l_new,
py_edge_example ? py_edge_example->e : nullptr,
edge_exists);
}
if (f_new && l_new) {
PyObject *ret = PyTuple_New(2);
PyTuple_SET_ITEMS(
ret, BPy_BMFace_CreatePyObject(bm, f_new), BPy_BMLoop_CreatePyObject(bm, l_new));
return ret;
}
PyErr_SetString(PyExc_ValueError, "face_split(...): couldn't split the face, internal error");
return nullptr;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_face_split_edgenet_doc,
".. method:: face_split_edgenet(face, edgenet)\n"
"\n"
" Splits a face into any number of regions defined by an edgenet.\n"
"\n"
" :arg face: The face to split.\n"
" :type face: :class:`bmesh.types.BMFace`\n"
" :arg face: The face to split.\n"
" :type face: :class:`bmesh.types.BMFace`\n"
" :arg edgenet: Sequence of edges.\n"
" :type edgenet: Sequence[:class:`bmesh.types.BMEdge`]\n"
" :return: The newly created faces.\n"
" :rtype: tuple[:class:`bmesh.types.BMFace`, ...]\n"
"\n"
" .. note::\n"
"\n"
" Regions defined by edges need to connect to the face, otherwise they're "
"ignored as loose edges.\n");
static PyObject *bpy_bm_utils_face_split_edgenet(PyObject * /*self*/, PyObject *args, PyObject *kw)
{
static const char *kwlist[] = {"face", "edgenet", nullptr};
BPy_BMFace *py_face;
PyObject *edge_seq;
BMEdge **edge_array;
Py_ssize_t edge_array_len;
BMesh *bm;
bool ok;
if (!PyArg_ParseTupleAndKeywords(args,
kw,
"O!O:face_split_edgenet",
(char **)kwlist,
&BPy_BMFace_Type,
&py_face,
&edge_seq))
{
return nullptr;
}
BPY_BM_CHECK_OBJ(py_face);
bm = py_face->bm;
edge_array = static_cast<BMEdge **>(BPy_BMElem_PySeq_As_Array(&bm,
edge_seq,
1,
PY_SSIZE_T_MAX,
&edge_array_len,
BM_EDGE,
true,
true,
"face_split_edgenet(...)"));
if (edge_array == nullptr) {
return nullptr;
}
/* --- main function body --- */
blender::Vector<BMFace *> face_arr;
ok = BM_face_split_edgenet(bm, py_face->f, edge_array, edge_array_len, &face_arr);
PyMem_FREE(edge_array);
if (ok) {
PyObject *ret = BPy_BMFace_Array_As_Tuple(bm, face_arr.data(), face_arr.size());
return ret;
}
PyErr_SetString(PyExc_ValueError,
"face_split_edgenet(...): couldn't split the face, internal error");
return nullptr;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_face_join_doc,
".. method:: face_join(faces, remove=True)\n"
"\n"
" Joins a sequence of faces.\n"
"\n"
" :arg faces: Sequence of faces.\n"
" :type faces: :class:`bmesh.types.BMFace`\n"
" :arg remove: Remove the edges and vertices between the faces.\n"
" :type remove: bool\n"
" :return: The newly created face or None on failure.\n"
" :rtype: :class:`bmesh.types.BMFace`\n");
static PyObject *bpy_bm_utils_face_join(PyObject * /*self*/, PyObject *args)
{
BMesh *bm = nullptr;
PyObject *py_face_array;
BMFace **face_array;
Py_ssize_t face_seq_len = 0;
BMFace *f_new;
bool do_remove = true;
if (!PyArg_ParseTuple(args, "O|O&:face_join", &py_face_array, PyC_ParseBool, &do_remove)) {
return nullptr;
}
face_array = static_cast<BMFace **>(BPy_BMElem_PySeq_As_Array(&bm,
py_face_array,
2,
PY_SSIZE_T_MAX,
&face_seq_len,
BM_FACE,
true,
true,
"face_join(...)"));
if (face_array == nullptr) {
return nullptr; /* error will be set */
}
/* Go ahead and join the face!
* --------------------------- */
BMFace *f_double;
f_new = BM_faces_join(bm, face_array, int(face_seq_len), do_remove, &f_double);
/* See #BM_faces_join note on callers asserting when `r_double` is non-null. */
BLI_assert_msg(f_double == nullptr,
"Doubled face detected at " AT ". Resulting mesh may be corrupt.");
PyMem_FREE(face_array);
if (f_new) {
return BPy_BMFace_CreatePyObject(bm, f_new);
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_face_vert_separate_doc,
".. method:: face_vert_separate(face, vert)\n"
"\n"
" Rip a vertex in a face away and add a new vertex.\n"
"\n"
" :arg face: The face to separate.\n"
" :type face: :class:`bmesh.types.BMFace`\n"
" :arg vert: A vertex in the face to separate.\n"
" :type vert: :class:`bmesh.types.BMVert`\n"
" :return vert: The newly created vertex or None on failure.\n"
" :rtype vert: :class:`bmesh.types.BMVert`\n"
"\n"
" .. note::\n"
"\n"
" This is the same as loop_separate, and has only been added for convenience.\n");
static PyObject *bpy_bm_utils_face_vert_separate(PyObject * /*self*/, PyObject *args)
{
BPy_BMFace *py_face;
BPy_BMVert *py_vert;
BMesh *bm;
BMLoop *l;
BMVert *v_old, *v_new;
if (!PyArg_ParseTuple(
args, "O!O!:face_vert_separate", &BPy_BMFace_Type, &py_face, &BPy_BMVert_Type, &py_vert))
{
return nullptr;
}
bm = py_face->bm;
BPY_BM_CHECK_OBJ(py_face);
BPY_BM_CHECK_SOURCE_OBJ(bm, "face_vert_separate()", py_vert);
l = BM_face_vert_share_loop(py_face->f, py_vert->v);
if (l == nullptr) {
PyErr_SetString(PyExc_ValueError, "vertex not found in face");
return nullptr;
}
v_old = l->v;
v_new = BM_face_loop_separate(bm, l);
if (v_new != v_old) {
return BPy_BMVert_CreatePyObject(bm, v_new);
}
Py_RETURN_NONE;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_face_flip_doc,
".. method:: face_flip(faces)\n"
"\n"
" Flip the faces direction.\n"
"\n"
" :arg face: Face to flip.\n"
" :type face: :class:`bmesh.types.BMFace`\n");
static PyObject *bpy_bm_utils_face_flip(PyObject * /*self*/, BPy_BMFace *value)
{
if (!BPy_BMFace_Check(value)) {
PyErr_Format(PyExc_TypeError,
"face_flip(face): BMFace expected, not '%.200s'",
Py_TYPE(value)->tp_name);
return nullptr;
}
BPY_BM_CHECK_OBJ(value);
BM_face_normal_flip(value->bm, value->f);
Py_RETURN_NONE;
}
PyDoc_STRVAR(
/* Wrap. */
bpy_bm_utils_loop_separate_doc,
".. method:: loop_separate(loop)\n"
"\n"
" Rip a vertex in a face away and add a new vertex.\n"
"\n"
" :arg loop: The loop to separate.\n"
" :type loop: :class:`bmesh.types.BMLoop`\n"
" :return vert: The newly created vertex or None on failure.\n"
" :rtype vert: :class:`bmesh.types.BMVert`\n");
static PyObject *bpy_bm_utils_loop_separate(PyObject * /*self*/, BPy_BMLoop *value)
{
BMesh *bm;
BMLoop *l;
BMVert *v_old, *v_new;
if (!BPy_BMLoop_Check(value)) {
PyErr_Format(PyExc_TypeError,
"loop_separate(loop): BMLoop expected, not '%.200s'",
Py_TYPE(value)->tp_name);
return nullptr;
}
BPY_BM_CHECK_OBJ(value);
bm = value->bm;
l = value->l;
v_old = l->v;
v_new = BM_face_loop_separate(bm, l);
if (v_new != v_old) {
return BPy_BMVert_CreatePyObject(bm, v_new);
}
Py_RETURN_NONE;
}
#ifdef __GNUC__
# ifdef __clang__
# pragma clang diagnostic push
# pragma clang diagnostic ignored "-Wcast-function-type"
# else
# pragma GCC diagnostic push
# pragma GCC diagnostic ignored "-Wcast-function-type"
# endif
#endif
static PyMethodDef BPy_BM_utils_methods[] = {
{"vert_collapse_edge",
(PyCFunction)bpy_bm_utils_vert_collapse_edge,
METH_VARARGS,
bpy_bm_utils_vert_collapse_edge_doc},
{"vert_collapse_faces",
(PyCFunction)bpy_bm_utils_vert_collapse_faces,
METH_VARARGS,
bpy_bm_utils_vert_collapse_faces_doc},
{"vert_dissolve",
(PyCFunction)bpy_bm_utils_vert_dissolve,
METH_VARARGS,
bpy_bm_utils_vert_dissolve_doc}, /* could use METH_O */
{"vert_splice",
(PyCFunction)bpy_bm_utils_vert_splice,
METH_VARARGS,
bpy_bm_utils_vert_splice_doc},
{"vert_separate",
(PyCFunction)bpy_bm_utils_vert_separate,
METH_VARARGS,
bpy_bm_utils_vert_separate_doc},
{"edge_split",
(PyCFunction)bpy_bm_utils_edge_split,
METH_VARARGS,
bpy_bm_utils_edge_split_doc},
{"edge_rotate",
(PyCFunction)bpy_bm_utils_edge_rotate,
METH_VARARGS,
bpy_bm_utils_edge_rotate_doc},
{"face_split",
(PyCFunction)bpy_bm_utils_face_split,
METH_VARARGS | METH_KEYWORDS,
bpy_bm_utils_face_split_doc},
{"face_split_edgenet",
(PyCFunction)bpy_bm_utils_face_split_edgenet,
METH_VARARGS | METH_KEYWORDS,
bpy_bm_utils_face_split_edgenet_doc},
{"face_join", (PyCFunction)bpy_bm_utils_face_join, METH_VARARGS, bpy_bm_utils_face_join_doc},
{"face_vert_separate",
(PyCFunction)bpy_bm_utils_face_vert_separate,
METH_VARARGS,
bpy_bm_utils_face_vert_separate_doc},
{"face_flip", (PyCFunction)bpy_bm_utils_face_flip, METH_O, bpy_bm_utils_face_flip_doc},
{"loop_separate",
(PyCFunction)bpy_bm_utils_loop_separate,
METH_O,
bpy_bm_utils_loop_separate_doc},
{nullptr, nullptr, 0, nullptr},
};
#ifdef __GNUC__
# ifdef __clang__
# pragma clang diagnostic pop
# else
# pragma GCC diagnostic pop
# endif
#endif
PyDoc_STRVAR(
/* Wrap. */
BPy_BM_utils_doc,
"This module provides access to blenders bmesh data structures.");
static PyModuleDef BPy_BM_utils_module_def = {
/*m_base*/ PyModuleDef_HEAD_INIT,
/*m_name*/ "bmesh.utils",
/*m_doc*/ BPy_BM_utils_doc,
/*m_size*/ 0,
/*m_methods*/ BPy_BM_utils_methods,
/*m_slots*/ nullptr,
/*m_traverse*/ nullptr,
/*m_clear*/ nullptr,
/*m_free*/ nullptr,
};
PyObject *BPyInit_bmesh_utils()
{
PyObject *submodule;
submodule = PyModule_Create(&BPy_BM_utils_module_def);
return submodule;
}
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