#include "BPy_FEdgeSharp.h" #include "../../BPy_Convert.h" #include "../../Interface0D/BPy_SVertex.h" #ifdef __cplusplus extern "C" { #endif /////////////////////////////////////////////////////////////////////////////////////////// //------------------------INSTANCE METHODS ---------------------------------- static char FEdgeSharp___doc__[] = "Class defining a sharp FEdge. A Sharp FEdge corresponds to an initial\n" "edge of the input mesh. It can be a silhouette, a crease or a border.\n" "If it is a crease edge, then it is borded by two faces of the mesh.\n" "Face a lies on its right whereas Face b lies on its left. If it is a\n" "border edge, then it doesn't have any face on its right, and thus Face\n" "a is None.\n" "\n" ".. method:: __init__()\n" "\n" " Default constructor.\n" "\n" ".. method:: __init__(iBrother)\n" "\n" " Copy constructor.\n" "\n" " :arg iBrother: An FEdgeSharp object.\n" " :type iBrother: :class:`FEdgeSharp`\n" "\n" ".. method:: __init__(vA, vB)\n" "\n" " Builds an FEdgeSharp going from vA to vB.\n" "\n" " :arg vA: The first SVertex object.\n" " :type vA: :class:`SVertex`\n" " :arg vB: The second SVertex object.\n" " :type vB: :class:`SVertex`\n"; static int FEdgeSharp___init__(BPy_FEdgeSharp *self, PyObject *args, PyObject *kwds) { PyObject *obj1 = 0, *obj2 = 0; if (! PyArg_ParseTuple(args, "|OO", &obj1, &obj2) ) return -1; if( !obj1 ){ self->fes = new FEdgeSharp(); } else if( !obj2 && BPy_FEdgeSharp_Check(obj1) ) { self->fes = new FEdgeSharp(*( ((BPy_FEdgeSharp *) obj1)->fes )); } else if( obj2 && BPy_SVertex_Check(obj1) && BPy_SVertex_Check(obj2) ) { self->fes = new FEdgeSharp( ((BPy_SVertex *) obj1)->sv, ((BPy_SVertex *) obj2)->sv ); } else { PyErr_SetString(PyExc_TypeError, "invalid argument(s)"); return -1; } self->py_fe.fe = self->fes; self->py_fe.py_if1D.if1D = self->fes; self->py_fe.py_if1D.borrowed = 0; return 0; } static char FEdgeSharp_normalA___doc__[] = ".. method:: normalA()\n" "\n" " Returns the normal to the face lying on the right of the FEdge. If\n" " this FEdge is a border, it has no Face on its right and therefore, no\n" " normal.\n" "\n" " :return: The normal to the face lying on the right of the FEdge.\n" " :rtype: :class:`Mathutils.Vector`\n"; static PyObject * FEdgeSharp_normalA( BPy_FEdgeSharp *self ) { Vec3r v( self->fes->normalA() ); return Vector_from_Vec3r( v ); } static char FEdgeSharp_normalB___doc__[] = ".. method:: normalB()\n" "\n" " Returns the normal to the face lying on the left of the FEdge.\n" "\n" " :return: The normal to the face lying on the left of the FEdge.\n" " :rtype: :class:`Mathutils.Vector`\n"; static PyObject * FEdgeSharp_normalB( BPy_FEdgeSharp *self ) { Vec3r v( self->fes->normalB() ); return Vector_from_Vec3r( v ); } static char FEdgeSharp_aMaterialIndex___doc__[] = ".. method:: aMaterialIndex()\n" "\n" " Returns the index of the material of the face lying on the right of\n" " the FEdge. If this FEdge is a border, it has no Face on its right and\n" " therefore, no material.\n" "\n" " :return: The index of the material of the face lying on the right of\n" " the FEdge.\n" " :rtype: int\n"; static PyObject * FEdgeSharp_aMaterialIndex( BPy_FEdgeSharp *self ) { return PyLong_FromLong( self->fes->aFrsMaterialIndex() ); } static char FEdgeSharp_bMaterialIndex___doc__[] = ".. method:: bMaterialIndex()\n" "\n" " Returns the index of the material of the face lying on the left of\n" " the FEdge.\n" "\n" " :return: The index of the material of the face lying on the left of\n" " the FEdge.\n" " :rtype: int\n"; static PyObject * FEdgeSharp_bMaterialIndex( BPy_FEdgeSharp *self ) { return PyLong_FromLong( self->fes->bFrsMaterialIndex() ); } static char FEdgeSharp_aMaterial___doc__[] = ".. method:: aMaterial()\n" "\n" " Returns the material of the face lying on the right of the FEdge. If\n" " this FEdge is a border, it has no Face on its right and therefore, no\n" " material.\n" "\n" " :return: The material of the face lying on the right of the FEdge.\n" " :rtype: :class:`Material`\n"; static PyObject * FEdgeSharp_aMaterial( BPy_FEdgeSharp *self ) { FrsMaterial m( self->fes->aFrsMaterial() ); return BPy_FrsMaterial_from_FrsMaterial(m); } static char FEdgeSharp_bMaterial___doc__[] = ".. method:: bMaterial()\n" "\n" " Returns the material of the face lying on the left of the FEdge.\n" "\n" " :return: The material of the face lying on the left of the FEdge.\n" " :rtype: :class:`Material`\n"; static PyObject * FEdgeSharp_bMaterial( BPy_FEdgeSharp *self ) { FrsMaterial m( self->fes->aFrsMaterial() ); return BPy_FrsMaterial_from_FrsMaterial(m); } static char FEdgeSharp_setNormalA___doc__[] = ".. method:: setNormalA(iNormal)\n" "\n" " Sets the normal to the face lying on the right of the FEdge.\n" "\n" " :arg iNormal: A three-dimensional vector.\n" " :type iNormal: :class:`Mathutils.Vector`, list or tuple of 3 real numbers\n"; static PyObject * FEdgeSharp_setNormalA( BPy_FEdgeSharp *self, PyObject *args ) { PyObject *obj = 0; if(!( PyArg_ParseTuple(args, "O", &obj) )) return NULL; Vec3r *v = Vec3r_ptr_from_PyObject(obj); if( !v ) { PyErr_SetString(PyExc_TypeError, "argument 1 must be a 3D vector (either a list of 3 elements or Vector)"); return NULL; } self->fes->setNormalA( *v ); delete v; Py_RETURN_NONE; } static char FEdgeSharp_setNormalB___doc__[] = ".. method:: setNormalB(iNormal)\n" "\n" " Sets the normal to the face lying on the left of the FEdge.\n" "\n" " :arg iNormal: A three-dimensional vector.\n" " :type iNormal: :class:`Mathutils.Vector`, list or tuple of 3 real numbers\n"; static PyObject * FEdgeSharp_setNormalB( BPy_FEdgeSharp *self, PyObject *args ) { PyObject *obj = 0; if(!( PyArg_ParseTuple(args, "O", &obj) )) return NULL; Vec3r *v = Vec3r_ptr_from_PyObject(obj); if( !v ) { PyErr_SetString(PyExc_TypeError, "argument 1 must be a 3D vector (either a list of 3 elements or Vector)"); return NULL; } self->fes->setNormalB( *v ); delete v; Py_RETURN_NONE; } static char FEdgeSharp_setaMaterialIndex___doc__[] = ".. method:: setaMaterialIndex(i)\n" "\n" " Sets the index of the material lying on the right of the FEdge.\n" "\n" " :arg i: A material index.\n" " :type i: int\n"; static PyObject * FEdgeSharp_setaMaterialIndex( BPy_FEdgeSharp *self, PyObject *args ) { unsigned int i; if(!( PyArg_ParseTuple(args, "I", &i) )) return NULL; self->fes->setaFrsMaterialIndex( i ); Py_RETURN_NONE; } static char FEdgeSharp_setbMaterialIndex___doc__[] = ".. method:: setbMaterialIndex(i)\n" "\n" " Sets the index of the material lying on the left of the FEdge.\n" "\n" " :arg i: A material index.\n" " :type i: int\n"; static PyObject * FEdgeSharp_setbMaterialIndex( BPy_FEdgeSharp *self, PyObject *args ) { unsigned int i; if(!( PyArg_ParseTuple(args, "I", &i) )) return NULL; self->fes->setbFrsMaterialIndex( i ); Py_RETURN_NONE; } /*----------------------FEdgeSharp instance definitions ----------------------------*/ static PyMethodDef BPy_FEdgeSharp_methods[] = { {"normalA", ( PyCFunction ) FEdgeSharp_normalA, METH_NOARGS, FEdgeSharp_normalA___doc__}, {"normalB", ( PyCFunction ) FEdgeSharp_normalB, METH_NOARGS, FEdgeSharp_normalB___doc__}, {"aMaterialIndex", ( PyCFunction ) FEdgeSharp_aMaterialIndex, METH_NOARGS, FEdgeSharp_aMaterialIndex___doc__}, {"bMaterialIndex", ( PyCFunction ) FEdgeSharp_bMaterialIndex, METH_NOARGS, FEdgeSharp_bMaterialIndex___doc__}, {"aMaterial", ( PyCFunction ) FEdgeSharp_aMaterial, METH_NOARGS, FEdgeSharp_aMaterial___doc__}, {"bMaterial", ( PyCFunction ) FEdgeSharp_bMaterial, METH_NOARGS, FEdgeSharp_bMaterial___doc__}, {"setNormalA", ( PyCFunction ) FEdgeSharp_setNormalA, METH_VARARGS, FEdgeSharp_setNormalA___doc__}, {"setNormalB", ( PyCFunction ) FEdgeSharp_setNormalB, METH_VARARGS, FEdgeSharp_setNormalB___doc__}, {"setaMaterialIndex", ( PyCFunction ) FEdgeSharp_setaMaterialIndex, METH_VARARGS, FEdgeSharp_setaMaterialIndex___doc__}, {"setbMaterialIndex", ( PyCFunction ) FEdgeSharp_setbMaterialIndex, METH_VARARGS, FEdgeSharp_setbMaterialIndex___doc__}, {NULL, NULL, 0, NULL} }; /*-----------------------BPy_FEdgeSharp type definition ------------------------------*/ PyTypeObject FEdgeSharp_Type = { PyVarObject_HEAD_INIT(NULL, 0) "FEdgeSharp", /* tp_name */ sizeof(BPy_FEdgeSharp), /* tp_basicsize */ 0, /* tp_itemsize */ 0, /* tp_dealloc */ 0, /* tp_print */ 0, /* tp_getattr */ 0, /* tp_setattr */ 0, /* tp_reserved */ 0, /* tp_repr */ 0, /* tp_as_number */ 0, /* tp_as_sequence */ 0, /* tp_as_mapping */ 0, /* tp_hash */ 0, /* tp_call */ 0, /* tp_str */ 0, /* tp_getattro */ 0, /* tp_setattro */ 0, /* tp_as_buffer */ Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, /* tp_flags */ FEdgeSharp___doc__, /* tp_doc */ 0, /* tp_traverse */ 0, /* tp_clear */ 0, /* tp_richcompare */ 0, /* tp_weaklistoffset */ 0, /* tp_iter */ 0, /* tp_iternext */ BPy_FEdgeSharp_methods, /* tp_methods */ 0, /* tp_members */ 0, /* tp_getset */ &FEdge_Type, /* tp_base */ 0, /* tp_dict */ 0, /* tp_descr_get */ 0, /* tp_descr_set */ 0, /* tp_dictoffset */ (initproc)FEdgeSharp___init__, /* tp_init */ 0, /* tp_alloc */ 0, /* tp_new */ }; /////////////////////////////////////////////////////////////////////////////////////////// #ifdef __cplusplus } #endif