forked from bartvdbraak/blender
449 lines
9.8 KiB
C++
449 lines
9.8 KiB
C++
/**
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* $Id$
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* ***** BEGIN GPL LICENSE BLOCK *****
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software Foundation,
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* Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
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*
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* The Original Code is Copyright (C) 2001-2002 by NaN Holding BV.
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* All rights reserved.
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*
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* The Original Code is: all of this file.
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*
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* Contributor(s): none yet.
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*
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* ***** END GPL LICENSE BLOCK *****
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*/
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#ifndef DISABLE_PYTHON
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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#include "KX_VertexProxy.h"
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#include "KX_MeshProxy.h"
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#include "RAS_TexVert.h"
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#include "KX_PyMath.h"
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PyTypeObject KX_VertexProxy::Type = {
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PyVarObject_HEAD_INIT(NULL, 0)
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"KX_VertexProxy",
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sizeof(PyObjectPlus_Proxy),
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0,
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py_base_dealloc,
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0,
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0,
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0,
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0,
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py_base_repr,
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0,0,0,0,0,0,0,0,0,
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Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE,
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0,0,0,0,0,0,0,
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Methods,
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0,
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0,
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&CValue::Type,
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0,0,0,0,0,0,
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py_base_new
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};
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PyMethodDef KX_VertexProxy::Methods[] = {
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{"getXYZ", (PyCFunction)KX_VertexProxy::sPyGetXYZ,METH_NOARGS},
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{"setXYZ", (PyCFunction)KX_VertexProxy::sPySetXYZ,METH_O},
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{"getUV", (PyCFunction)KX_VertexProxy::sPyGetUV,METH_NOARGS},
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{"setUV", (PyCFunction)KX_VertexProxy::sPySetUV,METH_O},
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{"getUV2", (PyCFunction)KX_VertexProxy::sPyGetUV2,METH_NOARGS},
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{"setUV2", (PyCFunction)KX_VertexProxy::sPySetUV2,METH_VARARGS},
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{"getRGBA", (PyCFunction)KX_VertexProxy::sPyGetRGBA,METH_NOARGS},
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{"setRGBA", (PyCFunction)KX_VertexProxy::sPySetRGBA,METH_O},
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{"getNormal", (PyCFunction)KX_VertexProxy::sPyGetNormal,METH_NOARGS},
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{"setNormal", (PyCFunction)KX_VertexProxy::sPySetNormal,METH_O},
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{NULL,NULL} //Sentinel
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};
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PyAttributeDef KX_VertexProxy::Attributes[] = {
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//KX_PYATTRIBUTE_TODO("DummyProps"),
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KX_PYATTRIBUTE_DUMMY("x"),
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KX_PYATTRIBUTE_DUMMY("y"),
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KX_PYATTRIBUTE_DUMMY("z"),
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KX_PYATTRIBUTE_DUMMY("r"),
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KX_PYATTRIBUTE_DUMMY("g"),
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KX_PYATTRIBUTE_DUMMY("b"),
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KX_PYATTRIBUTE_DUMMY("a"),
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KX_PYATTRIBUTE_DUMMY("u"),
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KX_PYATTRIBUTE_DUMMY("v"),
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KX_PYATTRIBUTE_DUMMY("u2"),
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KX_PYATTRIBUTE_DUMMY("v2"),
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KX_PYATTRIBUTE_DUMMY("XYZ"),
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KX_PYATTRIBUTE_DUMMY("UV"),
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KX_PYATTRIBUTE_DUMMY("color"),
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KX_PYATTRIBUTE_DUMMY("colour"),
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KX_PYATTRIBUTE_DUMMY("normal"),
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{ NULL } //Sentinel
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};
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#if 0
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PyObject*
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KX_VertexProxy::py_getattro(PyObject *attr)
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{
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char *attr_str= _PyUnicode_AsString(attr);
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if (attr_str[1]=='\0') { // Group single letters
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// pos
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if (attr_str[0]=='x')
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return PyFloat_FromDouble(m_vertex->getXYZ()[0]);
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if (attr_str[0]=='y')
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return PyFloat_FromDouble(m_vertex->getXYZ()[1]);
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if (attr_str[0]=='z')
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return PyFloat_FromDouble(m_vertex->getXYZ()[2]);
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// Col
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if (attr_str[0]=='r')
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return PyFloat_FromDouble(m_vertex->getRGBA()[0]/255.0);
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if (attr_str[0]=='g')
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return PyFloat_FromDouble(m_vertex->getRGBA()[1]/255.0);
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if (attr_str[0]=='b')
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return PyFloat_FromDouble(m_vertex->getRGBA()[2]/255.0);
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if (attr_str[0]=='a')
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return PyFloat_FromDouble(m_vertex->getRGBA()[3]/255.0);
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// UV
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if (attr_str[0]=='u')
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return PyFloat_FromDouble(m_vertex->getUV1()[0]);
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if (attr_str[0]=='v')
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return PyFloat_FromDouble(m_vertex->getUV1()[1]);
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}
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if (!strcmp(attr_str, "XYZ"))
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return PyObjectFrom(MT_Vector3(m_vertex->getXYZ()));
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if (!strcmp(attr_str, "UV"))
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return PyObjectFrom(MT_Point2(m_vertex->getUV1()));
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if (!strcmp(attr_str, "color") || !strcmp(attr_str, "colour"))
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{
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const unsigned char *colp = m_vertex->getRGBA();
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MT_Vector4 color(colp[0], colp[1], colp[2], colp[3]);
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color /= 255.0;
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return PyObjectFrom(color);
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}
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if (!strcmp(attr_str, "normal"))
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{
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return PyObjectFrom(MT_Vector3(m_vertex->getNormal()));
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}
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py_getattro_up(CValue);
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}
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#endif
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#if 0
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int KX_VertexProxy::py_setattro(PyObject *attr, PyObject *pyvalue)
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{
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char *attr_str= _PyUnicode_AsString(attr);
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if (PySequence_Check(pyvalue))
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{
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if (!strcmp(attr_str, "XYZ"))
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{
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MT_Point3 vec;
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if (PyVecTo(pyvalue, vec))
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{
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m_vertex->SetXYZ(vec);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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return PY_SET_ATTR_FAIL;
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}
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if (!strcmp(attr_str, "UV"))
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{
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MT_Point2 vec;
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if (PyVecTo(pyvalue, vec))
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{
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m_vertex->SetUV(vec);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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return PY_SET_ATTR_FAIL;
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}
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if (!strcmp(attr_str, "color") || !strcmp(attr_str, "colour"))
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{
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MT_Vector4 vec;
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if (PyVecTo(pyvalue, vec))
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{
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m_vertex->SetRGBA(vec);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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return PY_SET_ATTR_FAIL;
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}
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if (!strcmp(attr_str, "normal"))
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{
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MT_Vector3 vec;
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if (PyVecTo(pyvalue, vec))
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{
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m_vertex->SetNormal(vec);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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return PY_SET_ATTR_FAIL;
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}
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}
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if (PyFloat_Check(pyvalue))
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{
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float val = PyFloat_AsDouble(pyvalue);
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// pos
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MT_Point3 pos(m_vertex->getXYZ());
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if (!strcmp(attr_str, "x"))
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{
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pos.x() = val;
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m_vertex->SetXYZ(pos);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "y"))
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{
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pos.y() = val;
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m_vertex->SetXYZ(pos);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "z"))
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{
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pos.z() = val;
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m_vertex->SetXYZ(pos);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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// uv
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MT_Point2 uv = m_vertex->getUV1();
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if (!strcmp(attr_str, "u"))
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{
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uv[0] = val;
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m_vertex->SetUV(uv);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "v"))
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{
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uv[1] = val;
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m_vertex->SetUV(uv);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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// uv
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MT_Point2 uv2 = m_vertex->getUV2();
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if (!strcmp(attr_str, "u2"))
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{
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uv[0] = val;
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m_vertex->SetUV2(uv);
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m_mesh->SetMeshModified(true);
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return 0;
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}
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if (!strcmp(attr_str, "v2"))
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{
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uv[1] = val;
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m_vertex->SetUV2(uv);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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// col
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unsigned int icol = *((const unsigned int *)m_vertex->getRGBA());
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unsigned char *cp = (unsigned char*) &icol;
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val *= 255.0;
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if (!strcmp(attr_str, "r"))
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{
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cp[0] = (unsigned char) val;
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m_vertex->SetRGBA(icol);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "g"))
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{
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cp[1] = (unsigned char) val;
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m_vertex->SetRGBA(icol);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "b"))
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{
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cp[2] = (unsigned char) val;
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m_vertex->SetRGBA(icol);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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if (!strcmp(attr_str, "a"))
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{
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cp[3] = (unsigned char) val;
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m_vertex->SetRGBA(icol);
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m_mesh->SetMeshModified(true);
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return PY_SET_ATTR_SUCCESS;
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}
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}
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return CValue::py_setattro(attr, pyvalue);
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}
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#endif
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KX_VertexProxy::KX_VertexProxy(KX_MeshProxy*mesh, RAS_TexVert* vertex)
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: m_vertex(vertex),
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m_mesh(mesh)
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{
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}
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KX_VertexProxy::~KX_VertexProxy()
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{
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}
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// stuff for cvalue related things
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CValue* KX_VertexProxy::Calc(VALUE_OPERATOR, CValue *) { return NULL;}
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CValue* KX_VertexProxy::CalcFinal(VALUE_DATA_TYPE, VALUE_OPERATOR, CValue *) { return NULL;}
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STR_String sVertexName="vertex";
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const STR_String & KX_VertexProxy::GetText() {return sVertexName;};
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double KX_VertexProxy::GetNumber() { return -1;}
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STR_String& KX_VertexProxy::GetName() { return sVertexName;}
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void KX_VertexProxy::SetName(const char *) { };
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CValue* KX_VertexProxy::GetReplica() { return NULL;}
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// stuff for python integration
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PyObject* KX_VertexProxy::PyGetXYZ()
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{
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return PyObjectFrom(MT_Point3(m_vertex->getXYZ()));
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}
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PyObject* KX_VertexProxy::PySetXYZ(PyObject* value)
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{
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MT_Point3 vec;
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if (!PyVecTo(value, vec))
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return NULL;
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m_vertex->SetXYZ(vec);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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PyObject* KX_VertexProxy::PyGetNormal()
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{
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return PyObjectFrom(MT_Vector3(m_vertex->getNormal()));
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}
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PyObject* KX_VertexProxy::PySetNormal(PyObject* value)
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{
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MT_Vector3 vec;
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if (!PyVecTo(value, vec))
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return NULL;
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m_vertex->SetNormal(vec);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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PyObject* KX_VertexProxy::PyGetRGBA()
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{
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int *rgba = (int *) m_vertex->getRGBA();
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return PyLong_FromSsize_t(*rgba);
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}
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PyObject* KX_VertexProxy::PySetRGBA(PyObject* value)
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{
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if PyLong_Check(value) {
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int rgba = PyLong_AsSsize_t(value);
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m_vertex->SetRGBA(rgba);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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else {
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MT_Vector4 vec;
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if (PyVecTo(value, vec))
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{
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m_vertex->SetRGBA(vec);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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}
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PyErr_SetString(PyExc_TypeError, "vert.setRGBA(value): KX_VertexProxy, expected a 4D vector or an int");
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return NULL;
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}
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PyObject* KX_VertexProxy::PyGetUV()
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{
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return PyObjectFrom(MT_Vector2(m_vertex->getUV1()));
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}
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PyObject* KX_VertexProxy::PySetUV(PyObject* value)
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{
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MT_Point2 vec;
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if (!PyVecTo(value, vec))
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return NULL;
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m_vertex->SetUV(vec);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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PyObject* KX_VertexProxy::PyGetUV2()
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{
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return PyObjectFrom(MT_Vector2(m_vertex->getUV2()));
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}
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PyObject* KX_VertexProxy::PySetUV2(PyObject* args)
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{
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MT_Point2 vec;
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unsigned int unit= RAS_TexVert::SECOND_UV;
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PyObject* list= NULL;
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if(!PyArg_ParseTuple(args, "O|i:setUV2", &list, &unit))
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return NULL;
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if (!PyVecTo(list, vec))
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return NULL;
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m_vertex->SetFlag((m_vertex->getFlag()|RAS_TexVert::SECOND_UV));
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m_vertex->SetUnit(unit);
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m_vertex->SetUV2(vec);
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m_mesh->SetMeshModified(true);
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Py_RETURN_NONE;
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}
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#endif // DISABLE_PYTHON
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