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from test.support import TESTFN, unlink
import wave
import unittest
nchannels = 2
sampwidth = 2
framerate = 8000
nframes = 100
class TestWave(unittest.TestCase):
def setUp(self):
self.f = None
def tearDown(self):
if self.f is not None:
self.f.close()
unlink(TESTFN)
def test_it(self, test_rounding=False):
self.f = wave.open(TESTFN, 'wb')
self.f.setnchannels(nchannels)
self.f.setsampwidth(sampwidth)
if test_rounding:
self.f.setframerate(framerate - 0.1)
else:
self.f.setframerate(framerate)
self.f.setnframes(nframes)
output = b'\0' * nframes * nchannels * sampwidth
self.f.writeframes(output)
self.f.close()
self.f = wave.open(TESTFN, 'rb')
self.assertEqual(nchannels, self.f.getnchannels())
self.assertEqual(sampwidth, self.f.getsampwidth())
self.assertEqual(framerate, self.f.getframerate())
self.assertEqual(nframes, self.f.getnframes())
self.assertEqual(self.f.readframes(nframes), output)
def test_fractional_framerate(self):
"""
Addresses [ 1512791 ] module wave does no rounding
Floating point framerates should be rounded, rather than truncated.
"""
self.test_it(test_rounding=True)
def test_issue7681(self):
self.f = wave.open(TESTFN, 'wb')
self.f.setnchannels(nchannels)
self.f.setsampwidth(sampwidth)
self.f.setframerate(framerate)
# Don't call setnframes, make _write_header divide to figure it out
output = b'\0' * nframes * nchannels * sampwidth
self.f.writeframes(output)
def test_getparams(self):
self.f = wave.open(TESTFN, 'wb')
self.f.setnchannels(nchannels)
self.f.setsampwidth(sampwidth)
self.f.setframerate(framerate)
self.f.close()
self.f = wave.open(TESTFN, 'rb')
params = self.f.getparams()
self.assertEqual(params.nchannels, self.f.getnchannels())
self.assertEqual(params.nframes, self.f.getnframes())
self.assertEqual(params.sampwidth, self.f.getsampwidth())
self.assertEqual(params.framerate, self.f.getframerate())
self.assertEqual(params.comptype, self.f.getcomptype())
self.assertEqual(params.compname, self.f.getcompname())
def test_wave_write_context_manager_calls_close(self):
# Close checks for a minimum header and will raise an error
# if it is not set, so this proves that close is called.
with self.assertRaises(wave.Error):
with wave.open(TESTFN, 'wb') as f:
pass
with self.assertRaises(wave.Error):
with open(TESTFN, 'wb') as testfile:
with wave.open(testfile):
pass
def test_context_manager_with_open_file(self):
with open(TESTFN, 'wb') as testfile:
with wave.open(testfile) as f:
f.setnchannels(nchannels)
f.setsampwidth(sampwidth)
f.setframerate(framerate)
self.assertFalse(testfile.closed)
with open(TESTFN, 'rb') as testfile:
with wave.open(testfile) as f:
self.assertFalse(f.getfp().closed)
params = f.getparams()
self.assertEqual(params.nchannels, nchannels)
self.assertEqual(params.sampwidth, sampwidth)
self.assertEqual(params.framerate, framerate)
self.assertIsNone(f.getfp())
self.assertFalse(testfile.closed)
def test_context_manager_with_filename(self):
# If the file doesn't get closed, this test won't fail, but it will
# produce a resource leak warning.
with wave.open(TESTFN, 'wb') as f:
f.setnchannels(nchannels)
f.setsampwidth(sampwidth)
f.setframerate(framerate)
with wave.open(TESTFN) as f:
self.assertFalse(f.getfp().closed)
params = f.getparams()
self.assertEqual(params.nchannels, nchannels)
self.assertEqual(params.sampwidth, sampwidth)
self.assertEqual(params.framerate, framerate)
self.assertIsNone(f.getfp())
if __name__ == '__main__':
unittest.main()
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