#include "aubio-types.h" static char Py_fft_doc[] = "fft object"; typedef struct { PyObject_HEAD aubio_fft_t * o; uint_t win_s; // do / rdo input vectors fvec_t vecin; cvec_t cvecin; // do / rdo output results cvec_t *out; fvec_t *rout; // bridge for cvec output Py_cvec *py_out; } Py_fft; static PyObject * Py_fft_new (PyTypeObject * type, PyObject * args, PyObject * kwds) { int win_s = 0; Py_fft *self; static char *kwlist[] = { "win_s", NULL }; if (!PyArg_ParseTupleAndKeywords (args, kwds, "|I", kwlist, &win_s)) { return NULL; } self = (Py_fft *) type->tp_alloc (type, 0); if (self == NULL) { return NULL; } self->win_s = Py_default_vector_length; if (win_s > 0) { self->win_s = win_s; } else if (win_s < 0) { PyErr_SetString (PyExc_ValueError, "can not use negative window size"); return NULL; } return (PyObject *) self; } static int Py_fft_init (Py_fft * self, PyObject * args, PyObject * kwds) { self->o = new_aubio_fft (self->win_s); if (self->o == NULL) { char_t errstr[30]; sprintf(errstr, "error creating fft with win_s=%d", self->win_s); PyErr_SetString (PyExc_Exception, errstr); return -1; } self->out = new_cvec(self->win_s); self->py_out = (Py_cvec*) PyObject_New (Py_cvec, &Py_cvecType); Py_XINCREF(self->py_out); self->rout = new_fvec(self->win_s); return 0; } static void Py_fft_del (Py_fft *self, PyObject *unused) { Py_XDECREF((PyObject*)(self->py_out)); del_aubio_fft(self->o); del_cvec(self->out); del_fvec(self->rout); Py_TYPE(self)->tp_free((PyObject *) self); } static PyObject * Py_fft_do(Py_fft * self, PyObject * args) { PyObject *input; if (!PyArg_ParseTuple (args, "O", &input)) { return NULL; } if (!PyAubio_ArrayToCFvec(input, &(self->vecin))) { return NULL; } // compute the function aubio_fft_do (((Py_fft *)self)->o, &(self->vecin), self->out); #if 0 Py_cvec * py_out = (Py_cvec*) PyObject_New (Py_cvec, &Py_cvecType); PyObject* output = PyAubio_CCvecToPyCvec(self->out, py_out); return output; #else // convert cvec to py_cvec, incrementing refcount to keep a copy return PyAubio_CCvecToPyCvec(self->out, self->py_out); #endif } static PyMemberDef Py_fft_members[] = { {"win_s", T_INT, offsetof (Py_fft, win_s), READONLY, "size of the window"}, {NULL} }; static PyObject * Py_fft_rdo(Py_fft * self, PyObject * args) { PyObject *input; if (!PyArg_ParseTuple (args, "O", &input)) { return NULL; } if (!PyAubio_ArrayToCCvec (input, &(self->cvecin)) ) { return NULL; } // compute the function aubio_fft_rdo (self->o, &(self->cvecin), self->rout); return PyAubio_CFvecToArray(self->rout); } static PyMethodDef Py_fft_methods[] = { {"rdo", (PyCFunction) Py_fft_rdo, METH_VARARGS, "synthesis of spectral grain"}, {NULL} }; PyTypeObject Py_fftType = { PyVarObject_HEAD_INIT (NULL, 0) "aubio.fft", sizeof (Py_fft), 0, (destructor) Py_fft_del, 0, 0, 0, 0, 0, 0, 0, 0, 0, (ternaryfunc)Py_fft_do, 0, 0, 0, 0, Py_TPFLAGS_DEFAULT, Py_fft_doc, 0, 0, 0, 0, 0, 0, Py_fft_methods, Py_fft_members, 0, 0, 0, 0, 0, 0, (initproc) Py_fft_init, 0, Py_fft_new, };