from test.support import findfile, run_unittest, TESTFN, unlink import unittest import os import io import struct import aifc class AIFCTest(unittest.TestCase): def setUp(self): self.f = self.fout = None self.sndfilepath = findfile('Sine-1000Hz-300ms.aif') def tearDown(self): if self.f is not None: self.f.close() if self.fout is not None: try: self.fout.close() except (aifc.Error, AttributeError): pass unlink(TESTFN) unlink(TESTFN + '.aiff') def test_skipunknown(self): #Issue 2245 #This file contains chunk types aifc doesn't recognize. self.f = aifc.open(self.sndfilepath) def test_params(self): f = self.f = aifc.open(self.sndfilepath) self.assertEqual(f.getfp().name, self.sndfilepath) self.assertEqual(f.getnchannels(), 2) self.assertEqual(f.getsampwidth(), 2) self.assertEqual(f.getframerate(), 48000) self.assertEqual(f.getnframes(), 14400) self.assertEqual(f.getcomptype(), b'NONE') self.assertEqual(f.getcompname(), b'not compressed') self.assertEqual( f.getparams(), (2, 2, 48000, 14400, b'NONE', b'not compressed'), ) def test_read(self): f = self.f = aifc.open(self.sndfilepath) self.assertEqual(f.readframes(0), b'') self.assertEqual(f.tell(), 0) self.assertEqual(f.readframes(2), b'\x00\x00\x00\x00\x0b\xd4\x0b\xd4') f.rewind() pos0 = f.tell() self.assertEqual(pos0, 0) self.assertEqual(f.readframes(2), b'\x00\x00\x00\x00\x0b\xd4\x0b\xd4') pos2 = f.tell() self.assertEqual(pos2, 2) self.assertEqual(f.readframes(2), b'\x17t\x17t"\xad"\xad') f.setpos(pos2) self.assertEqual(f.readframes(2), b'\x17t\x17t"\xad"\xad') f.setpos(pos0) self.assertEqual(f.readframes(2), b'\x00\x00\x00\x00\x0b\xd4\x0b\xd4') with self.assertRaises(aifc.Error): f.setpos(-1) with self.assertRaises(aifc.Error): f.setpos(f.getnframes() + 1) def test_write(self): f = self.f = aifc.open(self.sndfilepath) fout = self.fout = aifc.open(TESTFN, 'wb') fout.aifc() fout.setparams(f.getparams()) for frame in range(f.getnframes()): fout.writeframes(f.readframes(1)) fout.close() fout = self.fout = aifc.open(TESTFN, 'rb') f.rewind() self.assertEqual(f.getparams(), fout.getparams()) self.assertEqual(f.readframes(5), fout.readframes(5)) def test_compress(self): f = self.f = aifc.open(self.sndfilepath) fout = self.fout = aifc.open(TESTFN, 'wb') fout.aifc() fout.setnchannels(f.getnchannels()) fout.setsampwidth(f.getsampwidth()) fout.setframerate(f.getframerate()) fout.setcomptype(b'ULAW', b'foo') for frame in range(f.getnframes()): fout.writeframes(f.readframes(1)) fout.close() self.assertLess( os.stat(TESTFN).st_size, os.stat(self.sndfilepath).st_size*0.75, ) fout = self.fout = aifc.open(TESTFN, 'rb') f.rewind() self.assertEqual(f.getparams()[0:3], fout.getparams()[0:3]) self.assertEqual(fout.getcomptype(), b'ULAW') self.assertEqual(fout.getcompname(), b'foo') def test_close(self): class Wrapfile(object): def __init__(self, file): self.file = open(file, 'rb') self.closed = False def close(self): self.file.close() self.closed = True def __getattr__(self, attr): return getattr(self.file, attr) testfile = Wrapfile(self.sndfilepath) f = self.f = aifc.open(testfile) self.assertEqual(testfile.closed, False) f.close() self.assertEqual(testfile.closed, True) def test_write_header_comptype_sampwidth(self): for comptype in (b'ULAW', b'ulaw', b'ALAW', b'alaw', b'G722'): fout = aifc.open(io.BytesIO(), 'wb') fout.setnchannels(1) fout.setframerate(1) fout.setcomptype(comptype, b'') fout.close() self.assertEqual(fout.getsampwidth(), 2) fout.initfp(None) def test_write_markers_values(self): fout = aifc.open(io.BytesIO(), 'wb') self.assertEqual(fout.getmarkers(), None) fout.setmark(1, 0, b'foo1') fout.setmark(1, 1, b'foo2') self.assertEqual(fout.getmark(1), (1, 1, b'foo2')) self.assertEqual(fout.getmarkers(), [(1, 1, b'foo2')]) fout.initfp(None) def test_read_markers(self): fout = self.fout = aifc.open(TESTFN, 'wb') fout.aiff() fout.setparams((1, 1, 1, 1, b'NONE', b'')) fout.setmark(1, 0, b'odd') fout.setmark(2, 0, b'even') fout.writeframes(b'\x00') fout.close() f = self.f = aifc.open(TESTFN, 'rb') self.assertEqual(f.getmarkers(), [(1, 0, b'odd'), (2, 0, b'even')]) self.assertEqual(f.getmark(1), (1, 0, b'odd')) self.assertEqual(f.getmark(2), (2, 0, b'even')) self.assertRaises(aifc.Error, f.getmark, 3) class AIFCLowLevelTest(unittest.TestCase): def test_read_written(self): def read_written(self, what): f = io.BytesIO() getattr(aifc, '_write_' + what)(f, x) f.seek(0) return getattr(aifc, '_read_' + what)(f) for x in (-1, 0, 0.1, 1): self.assertEqual(read_written(x, 'float'), x) for x in (float('NaN'), float('Inf')): self.assertEqual(read_written(x, 'float'), aifc._HUGE_VAL) for x in (b'', b'foo', b'a' * 255): self.assertEqual(read_written(x, 'string'), x) for x in (-0x7FFFFFFF, -1, 0, 1, 0x7FFFFFFF): self.assertEqual(read_written(x, 'long'), x) for x in (0, 1, 0xFFFFFFFF): self.assertEqual(read_written(x, 'ulong'), x) for x in (-0x7FFF, -1, 0, 1, 0x7FFF): self.assertEqual(read_written(x, 'short'), x) for x in (0, 1, 0xFFFF): self.assertEqual(read_written(x, 'ushort'), x) def test_read_raises(self): f = io.BytesIO(b'\x00') self.assertRaises(EOFError, aifc._read_ulong, f) self.assertRaises(EOFError, aifc._read_long, f) self.assertRaises(EOFError, aifc._read_ushort, f) self.assertRaises(EOFError, aifc._read_short, f) def test_write_long_string_raises(self): f = io.BytesIO() with self.assertRaises(ValueError): aifc._write_string(f, b'too long' * 255) def test_wrong_open_mode(self): with self.assertRaises(aifc.Error): aifc.open(TESTFN, 'wrong_mode') def test_read_wrong_form(self): b1 = io.BytesIO(b'WRNG' + struct.pack('>L', 0)) b2 = io.BytesIO(b'FORM' + struct.pack('>L', 4) + b'WRNG') self.assertRaises(aifc.Error, aifc.open, b1) self.assertRaises(aifc.Error, aifc.open, b2) def test_read_no_comm_chunk(self): b = io.BytesIO(b'FORM' + struct.pack('>L', 4) + b'AIFF') self.assertRaises(aifc.Error, aifc.open, b) def test_read_wrong_compression_type(self): b = b'FORM' + struct.pack('>L', 4) + b'AIFC' b += b'COMM' + struct.pack('>LhlhhLL', 23, 0, 0, 0, 0, 0, 0) b += b'WRNG' + struct.pack('B', 0) self.assertRaises(aifc.Error, aifc.open, io.BytesIO(b)) def test_read_wrong_marks(self): b = b'FORM' + struct.pack('>L', 4) + b'AIFF' b += b'COMM' + struct.pack('>LhlhhLL', 18, 0, 0, 0, 0, 0, 0) b += b'SSND' + struct.pack('>L', 8) + b'\x00' * 8 b += b'MARK' + struct.pack('>LhB', 3, 1, 1) with self.assertWarns(UserWarning): f = aifc.open(io.BytesIO(b)) self.assertEqual(f.getmarkers(), None) def test_read_comm_kludge_compname_even(self): b = b'FORM' + struct.pack('>L', 4) + b'AIFC' b += b'COMM' + struct.pack('>LhlhhLL', 18, 0, 0, 0, 0, 0, 0) b += b'NONE' + struct.pack('B', 4) + b'even' + b'\x00' b += b'SSND' + struct.pack('>L', 8) + b'\x00' * 8 with self.assertWarns(UserWarning): f = aifc.open(io.BytesIO(b)) self.assertEqual(f.getcompname(), b'even') def test_read_comm_kludge_compname_odd(self): b = b'FORM' + struct.pack('>L', 4) + b'AIFC' b += b'COMM' + struct.pack('>LhlhhLL', 18, 0, 0, 0, 0, 0, 0) b += b'NONE' + struct.pack('B', 3) + b'odd' b += b'SSND' + struct.pack('>L', 8) + b'\x00' * 8 with self.assertWarns(UserWarning): f = aifc.open(io.BytesIO(b)) self.assertEqual(f.getcompname(), b'odd') def test_write_params_raises(self): fout = aifc.open(io.BytesIO(), 'wb') wrong_params = (0, 0, 0, 0, b'WRNG', '') self.assertRaises(aifc.Error, fout.setparams, wrong_params) self.assertRaises(aifc.Error, fout.getparams) self.assertRaises(aifc.Error, fout.setnchannels, 0) self.assertRaises(aifc.Error, fout.getnchannels) self.assertRaises(aifc.Error, fout.setsampwidth, 0) self.assertRaises(aifc.Error, fout.getsampwidth) self.assertRaises(aifc.Error, fout.setframerate, 0) self.assertRaises(aifc.Error, fout.getframerate) self.assertRaises(aifc.Error, fout.setcomptype, b'WRNG', '') fout.aiff() fout.setnchannels(1) fout.setsampwidth(1) fout.setframerate(1) fout.setnframes(1) fout.writeframes(b'\x00') self.assertRaises(aifc.Error, fout.setparams, (1, 1, 1, 1, 1, 1)) self.assertRaises(aifc.Error, fout.setnchannels, 1) self.assertRaises(aifc.Error, fout.setsampwidth, 1) self.assertRaises(aifc.Error, fout.setframerate, 1) self.assertRaises(aifc.Error, fout.setnframes, 1) self.assertRaises(aifc.Error, fout.setcomptype, b'NONE', '') self.assertRaises(aifc.Error, fout.aiff) self.assertRaises(aifc.Error, fout.aifc) def test_write_params_singles(self): fout = aifc.open(io.BytesIO(), 'wb') fout.aifc() fout.setnchannels(1) fout.setsampwidth(2) fout.setframerate(3) fout.setnframes(4) fout.setcomptype(b'NONE', b'name') self.assertEqual(fout.getnchannels(), 1) self.assertEqual(fout.getsampwidth(), 2) self.assertEqual(fout.getframerate(), 3) self.assertEqual(fout.getnframes(), 0) self.assertEqual(fout.tell(), 0) self.assertEqual(fout.getcomptype(), b'NONE') self.assertEqual(fout.getcompname(), b'name') fout.writeframes(b'\x00' * 4 * fout.getsampwidth() * fout.getnchannels()) self.assertEqual(fout.getnframes(), 4) self.assertEqual(fout.tell(), 4) def test_write_params_bunch(self): fout = aifc.open(io.BytesIO(), 'wb') fout.aifc() p = (1, 2, 3, 4, b'NONE', b'name') fout.setparams(p) self.assertEqual(fout.getparams(), p) fout.initfp(None) def test_write_header_raises(self): fout = aifc.open(io.BytesIO(), 'wb') self.assertRaises(aifc.Error, fout.close) fout.setnchannels(1) self.assertRaises(aifc.Error, fout.close) fout.setsampwidth(1) self.assertRaises(aifc.Error, fout.close) fout.initfp(None) def test_write_header_comptype_raises(self): for comptype in (b'ULAW', b'ulaw', b'ALAW', b'alaw', b'G722'): fout = aifc.open(io.BytesIO(), 'wb') fout.setsampwidth(1) fout.setcomptype(comptype, b'') self.assertRaises(aifc.Error, fout.close) fout.initfp(None) def test_write_markers_raises(self): fout = aifc.open(io.BytesIO(), 'wb') self.assertRaises(aifc.Error, fout.setmark, 0, 0, b'') self.assertRaises(aifc.Error, fout.setmark, 1, -1, b'') self.assertRaises(aifc.Error, fout.setmark, 1, 0, None) self.assertRaises(aifc.Error, fout.getmark, 1) fout.initfp(None) def test_write_aiff_by_extension(self): sampwidth = 2 fout = self.fout = aifc.open(TESTFN + '.aiff', 'wb') fout.setparams((1, sampwidth, 1, 1, b'ULAW', b'')) frames = b'\x00' * fout.getnchannels() * sampwidth fout.writeframes(frames) fout.close() f = self.f = aifc.open(TESTFN + '.aiff', 'rb') self.assertEqual(f.getcomptype(), b'NONE') f.close() def test_main(): run_unittest(AIFCTest) run_unittest(AIFCLowLevelTest) if __name__ == "__main__": unittest.main()