ref: d8c21a32aec0fd7e13fb8e45ee5f630dc7bce1dd
dir: /python/ext/ufuncs.c/
#define PY_AUBIO_MODULE_UFUNC #include "aubio-types.h" typedef smpl_t (*aubio_unary_func_t)(smpl_t input); static void aubio_PyUFunc_d_d(char **args, const npy_intp *dimensions, const npy_intp* steps, void* data) { npy_intp i; npy_intp n = dimensions[0]; char *in = args[0], *out = args[1]; npy_intp in_step = steps[0], out_step = steps[1]; aubio_unary_func_t func = (aubio_unary_func_t)(data); for (i = 0; i < n; i++) { /*BEGIN main ufunc computation*/ *((double *)out) = func(*(double *)in); /*END main ufunc computation*/ in += in_step; out += out_step; } } static void aubio_PyUFunc_f_f_As_d_d(char **args, const npy_intp *dimensions, const npy_intp* steps, void* data) { npy_intp i; npy_intp n = dimensions[0]; char *in = args[0], *out = args[1]; npy_intp in_step = steps[0], out_step = steps[1]; aubio_unary_func_t func = (aubio_unary_func_t)(data); for (i = 0; i < n; i++) { /*BEGIN main ufunc computation*/ *((float *)out) = func(*(float *)in); /*END main ufunc computation*/ in += in_step; out += out_step; } } static int Py_aubio_unary_n_types = 2; static int Py_aubio_unary_n_inputs = 1; static int Py_aubio_unary_n_outputs = 1; PyUFuncGenericFunction Py_aubio_unary_functions[] = { &aubio_PyUFunc_f_f_As_d_d, &aubio_PyUFunc_d_d, //PyUFunc_f_f_As_d_d, PyUFunc_d_d, //PyUFunc_g_g, PyUFunc_OO_O_method, }; static char Py_aubio_unary_types[] = { NPY_FLOAT, NPY_FLOAT, NPY_DOUBLE, NPY_DOUBLE, //NPY_LONGDOUBLE, NPY_LONGDOUBLE, //NPY_OBJECT, NPY_OBJECT, }; // Note: these docstrings should *not* include the function signatures static char Py_unwrap2pi_doc[] = "" "\n" "Map angle to unit circle :math:`[-\\pi, \\pi[`.\n" "\n" "Parameters\n" "----------\n" "x : numpy.ndarray\n" " input array\n" "\n" "Returns\n" "-------\n" "numpy.ndarray\n" " values clamped to the unit circle :math:`[-\\pi, \\pi[`\n" ""; static void* Py_unwrap2pi_data[] = { (void *)aubio_unwrap2pi, (void *)aubio_unwrap2pi, //(void *)unwrap2pil, //(void *)unwrap2pio, }; static char Py_freqtomidi_doc[] = "" "\n" "Convert frequency `[0; 23000[` to midi `[0; 128[`.\n" "\n" "Parameters\n" "----------\n" "x : numpy.ndarray\n" " Array of frequencies, in Hz.\n" "\n" "Returns\n" "-------\n" "numpy.ndarray\n" " Converted frequencies, in midi note.\n" ""; static void* Py_freqtomidi_data[] = { (void *)aubio_freqtomidi, (void *)aubio_freqtomidi, }; static char Py_miditofreq_doc[] = "" "\n" "Convert midi `[0; 128[` to frequency `[0, 23000]`.\n" "\n" "Parameters\n" "----------\n" "x : numpy.ndarray\n" " Array of frequencies, in midi note.\n" "\n" "Returns\n" "-------\n" "numpy.ndarray\n" " Converted frequencies, in Hz\n" ""; static void* Py_miditofreq_data[] = { (void *)aubio_miditofreq, (void *)aubio_miditofreq, }; void add_ufuncs ( PyObject *m ) { int err = 0; PyObject *dict, *f, *g, *h; err = _import_umath (); if (err != 0) { fprintf (stderr, "Unable to import Numpy umath from aubio module (error %d)\n", err); } dict = PyModule_GetDict(m); f = PyUFunc_FromFuncAndData(Py_aubio_unary_functions, Py_unwrap2pi_data, Py_aubio_unary_types, Py_aubio_unary_n_types, Py_aubio_unary_n_inputs, Py_aubio_unary_n_outputs, PyUFunc_None, "unwrap2pi", Py_unwrap2pi_doc, 0); PyDict_SetItemString(dict, "unwrap2pi", f); Py_DECREF(f); g = PyUFunc_FromFuncAndData(Py_aubio_unary_functions, Py_freqtomidi_data, Py_aubio_unary_types, Py_aubio_unary_n_types, Py_aubio_unary_n_inputs, Py_aubio_unary_n_outputs, PyUFunc_None, "freqtomidi", Py_freqtomidi_doc, 0); PyDict_SetItemString(dict, "freqtomidi", g); Py_DECREF(g); h = PyUFunc_FromFuncAndData(Py_aubio_unary_functions, Py_miditofreq_data, Py_aubio_unary_types, Py_aubio_unary_n_types, Py_aubio_unary_n_inputs, Py_aubio_unary_n_outputs, PyUFunc_None, "miditofreq", Py_miditofreq_doc, 0); PyDict_SetItemString(dict, "miditofreq", h); Py_DECREF(h); return; }