from __future__ import division, print_function, absolute_import import os import sys import tempfile import warnings from io import BytesIO import numpy as np from numpy.testing import (assert_equal, assert_, assert_raises, assert_array_equal, run_module_suite) from scipy.io import wavfile def datafile(fn): return os.path.join(os.path.dirname(__file__), 'data', fn) def test_read_1(): for mmap in [False, True]: with warnings.catch_warnings(): warnings.simplefilter('ignore', wavfile.WavFileWarning) rate, data = wavfile.read(datafile('test-44100Hz-le-1ch-4bytes.wav'), mmap=mmap) assert_equal(rate, 44100) assert_(np.issubdtype(data.dtype, np.int32)) assert_equal(data.shape, (4410,)) del data def test_read_2(): for mmap in [False, True]: rate, data = wavfile.read(datafile('test-8000Hz-le-2ch-1byteu.wav'), mmap=mmap) assert_equal(rate, 8000) assert_(np.issubdtype(data.dtype, np.uint8)) assert_equal(data.shape, (800, 2)) del data def test_read_3(): for mmap in [False, True]: rate, data = wavfile.read(datafile('test-44100Hz-2ch-32bit-float-le.wav'), mmap=mmap) assert_equal(rate, 44100) assert_(np.issubdtype(data.dtype, np.float32)) assert_equal(data.shape, (441, 2)) del data def test_read_4(): for mmap in [False, True]: with warnings.catch_warnings(): warnings.simplefilter('ignore', wavfile.WavFileWarning) rate, data = wavfile.read(datafile('test-48000Hz-2ch-64bit-float-le-wavex.wav'), mmap=mmap) assert_equal(rate, 48000) assert_(np.issubdtype(data.dtype, np.float64)) assert_equal(data.shape, (480, 2)) del data def test_read_5(): for mmap in [False, True]: rate, data = wavfile.read(datafile('test-44100Hz-2ch-32bit-float-be.wav'), mmap=mmap) assert_equal(rate, 44100) assert_(np.issubdtype(data.dtype, np.float32)) assert_(data.dtype.byteorder == '>' or (sys.byteorder == 'big' and data.dtype.byteorder == '=')) assert_equal(data.shape, (441, 2)) del data def test_read_fail(): for mmap in [False, True]: fp = open(datafile('example_1.nc')) assert_raises(ValueError, wavfile.read, fp, mmap=mmap) fp.close() def _check_roundtrip(realfile, rate, dtype, channels): if realfile: fd, tmpfile = tempfile.mkstemp(suffix='.wav') os.close(fd) else: tmpfile = BytesIO() try: data = np.random.rand(100, channels) if channels == 1: data = data[:,0] if dtype.kind == 'f': # The range of the float type should be in [-1, 1] data = data.astype(dtype) else: data = (data*128).astype(dtype) wavfile.write(tmpfile, rate, data) for mmap in [False, True]: rate2, data2 = wavfile.read(tmpfile, mmap=mmap) assert_equal(rate, rate2) assert_(data2.dtype.byteorder in ('<', '=', '|'), msg=data2.dtype) assert_array_equal(data, data2) del data2 finally: if realfile: os.unlink(tmpfile) def test_write_roundtrip(): for realfile in (False, True): for dtypechar in ('i', 'u', 'f', 'g', 'q'): for size in (1, 2, 4, 8): if size == 1 and dtypechar == 'i': # signed 8-bit integer PCM is not allowed continue if size > 1 and dtypechar == 'u': # unsigned > 8-bit integer PCM is not allowed continue if (size == 1 or size == 2) and dtypechar == 'f': # 8- or 16-bit float PCM is not expected continue if dtypechar in 'gq': # no size allowed for these types if size == 1: size = '' else: continue for endianness in ('>', '<'): if size == 1 and endianness == '<': continue for rate in (8000, 32000): for channels in (1, 2, 5): dt = np.dtype('%s%s%s' % (endianness, dtypechar, size)) yield _check_roundtrip, realfile, rate, dt, channels if __name__ == "__main__": run_module_suite()