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blender-archive/source/blender/freestyle/intern/python/Interface0D/CurvePoint.cpp
Maxime Curioni 7426a3e35b Added StrokeAttribute class. Beginning of StrokeVertex. 
IMPORTANT: The setters functions' names were normalized due to constant confusion regarding capitalization. All the function names start with set... instead of Set.... This convention was changed all throughout Freestyle. To use Freestyle as an external renderer, the SWIG library MUST be regenerated.
2008-07-21 21:24:37 +00:00

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#include "CurvePoint.h"
#include "../Convert.h"
#ifdef __cplusplus
extern "C" {
#endif
///////////////////////////////////////////////////////////////////////////////////////////
/*--------------- Python API function prototypes for CurvePoint instance -----------*/
static int CurvePoint___init__(BPy_CurvePoint *self, PyObject *args, PyObject *kwds);
static PyObject * CurvePoint___copy__( BPy_CurvePoint *self );
static PyObject * CurvePoint_A( BPy_CurvePoint *self );
static PyObject * CurvePoint_B( BPy_CurvePoint *self );
static PyObject * CurvePoint_t2d( BPy_CurvePoint *self );
static PyObject *CurvePoint_setA( BPy_CurvePoint *self , PyObject *args);
static PyObject *CurvePoint_setB( BPy_CurvePoint *self , PyObject *args);
static PyObject *CurvePoint_setT2d( BPy_CurvePoint *self , PyObject *args);
static PyObject *CurvePoint_curvatureFredo( BPy_CurvePoint *self , PyObject *args);
/*----------------------CurvePoint instance definitions ----------------------------*/
static PyMethodDef BPy_CurvePoint_methods[] = {
{"__copy__", ( PyCFunction ) CurvePoint___copy__, METH_NOARGS, " Cloning method."},
{"A", ( PyCFunction ) CurvePoint_A, METH_NOARGS, " Returns the first SVertex upon which the CurvePoint is built."},
{"B", ( PyCFunction ) CurvePoint_B, METH_NOARGS, " Returns the second SVertex upon which the CurvePoint is built."},
{"t2d", ( PyCFunction ) CurvePoint_t2d, METH_NOARGS, " Returns the interpolation parameter."},
{"setA", ( PyCFunction ) CurvePoint_setA, METH_VARARGS, "SVertex sv Sets the first SVertex upon which to build the CurvePoint."},
{"setB", ( PyCFunction ) CurvePoint_setB, METH_VARARGS, "SVertex sv Sets the second SVertex upon which to build the CurvePoint."},
{"setT2d", ( PyCFunction ) CurvePoint_setT2d, METH_VARARGS, " Sets the 2D interpolation parameter to use."},
{"curvatureFredo", ( PyCFunction ) CurvePoint_curvatureFredo, METH_NOARGS, " angle in radians."},
{NULL, NULL, 0, NULL}
};
/*-----------------------BPy_CurvePoint type definition ------------------------------*/
PyTypeObject CurvePoint_Type = {
PyObject_HEAD_INIT( NULL )
0, /* ob_size */
"CurvePoint", /* tp_name */
sizeof( BPy_CurvePoint ), /* tp_basicsize */
0, /* tp_itemsize */
/* methods */
NULL, /* tp_dealloc */
NULL, /* printfunc tp_print; */
NULL, /* getattrfunc tp_getattr; */
NULL, /* setattrfunc tp_setattr; */
NULL, /* tp_compare */
NULL, /* tp_repr */
/* Method suites for standard classes */
NULL, /* PyNumberMethods *tp_as_number; */
NULL, /* PySequenceMethods *tp_as_sequence; */
NULL, /* PyMappingMethods *tp_as_mapping; */
/* More standard operations (here for binary compatibility) */
NULL, /* hashfunc tp_hash; */
NULL, /* ternaryfunc tp_call; */
NULL, /* reprfunc tp_str; */
NULL, /* getattrofunc tp_getattro; */
NULL, /* setattrofunc tp_setattro; */
/* Functions to access object as input/output buffer */
NULL, /* PyBufferProcs *tp_as_buffer; */
/*** Flags to define presence of optional/expanded features ***/
Py_TPFLAGS_DEFAULT | Py_TPFLAGS_BASETYPE, /* long tp_flags; */
NULL, /* char *tp_doc; Documentation string */
/*** Assigned meaning in release 2.0 ***/
/* call function for all accessible objects */
NULL, /* traverseproc tp_traverse; */
/* delete references to contained objects */
NULL, /* inquiry tp_clear; */
/*** Assigned meaning in release 2.1 ***/
/*** rich comparisons ***/
NULL, /* richcmpfunc tp_richcompare; */
/*** weak reference enabler ***/
0, /* long tp_weaklistoffset; */
/*** Added in release 2.2 ***/
/* Iterators */
NULL, /* getiterfunc tp_iter; */
NULL, /* iternextfunc tp_iternext; */
/*** Attribute descriptor and subclassing stuff ***/
BPy_CurvePoint_methods, /* struct PyMethodDef *tp_methods; */
NULL, /* struct PyMemberDef *tp_members; */
NULL, /* struct PyGetSetDef *tp_getset; */
&Interface0D_Type, /* struct _typeobject *tp_base; */
NULL, /* PyObject *tp_dict; */
NULL, /* descrgetfunc tp_descr_get; */
NULL, /* descrsetfunc tp_descr_set; */
0, /* long tp_dictoffset; */
(initproc)CurvePoint___init__, /* initproc tp_init; */
NULL, /* allocfunc tp_alloc; */
NULL, /* newfunc tp_new; */
/* Low-level free-memory routine */
NULL, /* freefunc tp_free; */
/* For PyObject_IS_GC */
NULL, /* inquiry tp_is_gc; */
NULL, /* PyObject *tp_bases; */
/* method resolution order */
NULL, /* PyObject *tp_mro; */
NULL, /* PyObject *tp_cache; */
NULL, /* PyObject *tp_subclasses; */
NULL, /* PyObject *tp_weaklist; */
NULL
};
//-------------------MODULE INITIALIZATION--------------------------------
//------------------------INSTANCE METHODS ----------------------------------
int CurvePoint___init__(BPy_CurvePoint *self, PyObject *args, PyObject *kwds)
{
PyObject *obj1 = 0, *obj2 = 0 , *obj3 = 0;
if (! PyArg_ParseTuple(args, "|OOO", &obj1, &obj2, &obj3) )
return -1;
if( !obj1 && !obj2 && !obj3 ){
self->cp = new CurvePoint();
} else if( PyFloat_Check(obj3) ) {
if( BPy_SVertex_Check(obj1) && BPy_SVertex_Check(obj2) ) {
self->cp = new CurvePoint( ((BPy_SVertex *) obj1)->sv,
((BPy_SVertex *) obj2)->sv,
PyFloat_AsDouble( obj3 ) );
} else if( BPy_CurvePoint_Check(obj1) && BPy_CurvePoint_Check(obj2) ) {
self->cp = new CurvePoint( ((BPy_CurvePoint *) obj1)->cp,
((BPy_CurvePoint *) obj2)->cp,
PyFloat_AsDouble( obj3 ) );
} else {
return -1;
}
} else {
return -1;
}
self->py_if0D.if0D = self->cp;
return 0;
}
PyObject * CurvePoint___copy__( BPy_CurvePoint *self ) {
BPy_CurvePoint *py_cp;
py_cp = (BPy_CurvePoint *) CurvePoint_Type.tp_new( &CurvePoint_Type, 0, 0 );
py_cp->cp = new CurvePoint( *(self->cp) );
py_cp->py_if0D.if0D = py_cp->cp;
return (PyObject *) py_cp;
}
PyObject * CurvePoint_A( BPy_CurvePoint *self ) {
if( SVertex *A = self->cp->A() )
return BPy_SVertex_from_SVertex( *A );
Py_RETURN_NONE;
}
PyObject * CurvePoint_B( BPy_CurvePoint *self ) {
if( SVertex *B = self->cp->B() )
return BPy_SVertex_from_SVertex( *B );
Py_RETURN_NONE;
}
PyObject * CurvePoint_t2d( BPy_CurvePoint *self ) {
return PyFloat_FromDouble( self->cp->t2d() );
}
PyObject *CurvePoint_setA( BPy_CurvePoint *self , PyObject *args) {
PyObject *py_sv;
if(!( PyArg_ParseTuple(args, "O", &py_sv) && BPy_SVertex_Check(py_sv) )) {
cout << "ERROR: CurvePoint_setA" << endl;
Py_RETURN_NONE;
}
self->cp->setA( ((BPy_SVertex *) py_sv)->sv );
Py_RETURN_NONE;
}
PyObject *CurvePoint_setB( BPy_CurvePoint *self , PyObject *args) {
PyObject *py_sv;
if(!( PyArg_ParseTuple(args, "O", &py_sv) && BPy_SVertex_Check(py_sv) )) {
cout << "ERROR: CurvePoint_setB" << endl;
Py_RETURN_NONE;
}
self->cp->setB( ((BPy_SVertex *) py_sv)->sv );
Py_RETURN_NONE;
}
PyObject *CurvePoint_setT2d( BPy_CurvePoint *self , PyObject *args) {
float t;
if( !PyArg_ParseTuple(args, "f", &t) ) {
cout << "ERROR: CurvePoint_setT2d" << endl;
Py_RETURN_NONE;
}
self->cp->setT2d( t );
Py_RETURN_NONE;
}
PyObject *CurvePoint_curvatureFredo( BPy_CurvePoint *self , PyObject *args) {
return PyFloat_FromDouble( self->cp->curvatureFredo() );
}
///bool operator== (const CurvePoint &b)
///////////////////////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
}
#endif
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