ref: cb0d7d08c80bfd1ca37329e6083e0ce3f0dd63ce
dir: /python/tests/test_sink.py/
#! /usr/bin/env python from numpy.testing import TestCase from aubio import fvec, source, sink from utils import list_all_sounds, get_tmp_sink_path, del_tmp_sink_path from _tools import parametrize, skipTest, assert_raises list_of_sounds = list_all_sounds('sounds') samplerates = [0, 44100, 8000, 32000] hop_sizes = [512, 1024, 64] path = None many_files = 300 # 256 opened files is too much all_params = [] for soundfile in list_of_sounds: for hop_size in hop_sizes: for samplerate in samplerates: all_params.append((hop_size, samplerate, soundfile)) class Test_aubio_sink(object): def test_wrong_filename(self): with assert_raises(RuntimeError): sink('') def test_wrong_samplerate(self): with assert_raises(RuntimeError): sink(get_tmp_sink_path(), -1) def test_wrong_samplerate_too_large(self): with assert_raises(RuntimeError): sink(get_tmp_sink_path(), 1536001, 2) def test_wrong_channels(self): with assert_raises(RuntimeError): sink(get_tmp_sink_path(), 44100, -1) def test_wrong_channels_too_large(self): with assert_raises(RuntimeError): sink(get_tmp_sink_path(), 44100, 202020) def test_many_sinks(self): from tempfile import mkdtemp import os.path import shutil tmpdir = mkdtemp() sink_list = [] for i in range(many_files): path = os.path.join(tmpdir, 'f-' + str(i) + '.wav') g = sink(path, 0) sink_list.append(g) write = 32 for _ in range(200): vec = fvec(write) g(vec, write) g.close() shutil.rmtree(tmpdir) @parametrize('hop_size, samplerate, path', all_params) def test_read_and_write(self, hop_size, samplerate, path): try: f = source(path, samplerate, hop_size) except RuntimeError as e: err_msg = '{:s} (hop_s = {:d}, samplerate = {:d})' skipTest(err_msg.format(str(e), hop_size, samplerate)) if samplerate == 0: samplerate = f.samplerate sink_path = get_tmp_sink_path() g = sink(sink_path, samplerate) total_frames = 0 while True: vec, read = f() g(vec, read) total_frames += read if read < f.hop_size: break del_tmp_sink_path(sink_path) @parametrize('hop_size, samplerate, path', all_params) def test_read_and_write_multi(self, hop_size, samplerate, path): try: f = source(path, samplerate, hop_size) except RuntimeError as e: err_msg = '{:s} (hop_s = {:d}, samplerate = {:d})' skipTest(err_msg.format(str(e), hop_size, samplerate)) if samplerate == 0: samplerate = f.samplerate sink_path = get_tmp_sink_path() g = sink(sink_path, samplerate, channels = f.channels) total_frames = 0 while True: vec, read = f.do_multi() g.do_multi(vec, read) total_frames += read if read < f.hop_size: break del_tmp_sink_path(sink_path) def test_close_file(self): samplerate = 44100 sink_path = get_tmp_sink_path() g = sink(sink_path, samplerate) g.close() del_tmp_sink_path(sink_path) def test_close_file_twice(self): samplerate = 44100 sink_path = get_tmp_sink_path() g = sink(sink_path, samplerate) g.close() g.close() del_tmp_sink_path(sink_path) def test_read_with(self): samplerate = 44100 sink_path = get_tmp_sink_path() vec = fvec(128) with sink(sink_path, samplerate) as g: for _ in range(10): g(vec, 128) if __name__ == '__main__': from _tools import run_module_suite run_module_suite()