Esempio n. 1
0
void
MediaAudioTest::testCreation() {
  const int32_t numSamples = 1024;
  const int32_t sampleRate = 22050;
  const int32_t channels = 8;
  const AudioChannel::Layout layout = AudioChannel::CH_LAYOUT_7POINT1;
  const AudioFormat::Type format = AudioFormat::SAMPLE_FMT_S16P;

  // now let's test invalid methods.
  RefPointer<MediaAudio> audio;

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(MediaAudio::make(-1, sampleRate, channels, layout, format),
        HumbleInvalidArgument);
  }

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(MediaAudio::make(numSamples, -1, channels, layout, format),
        HumbleInvalidArgument);
  }

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(MediaAudio::make(numSamples, sampleRate, -1, layout, format),
        HumbleInvalidArgument);
  }

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(MediaAudio::make(numSamples, sampleRate, channels + 1, layout,
        format), HumbleInvalidArgument);
  }

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(MediaAudio::make(numSamples, sampleRate, channels, layout,
        AudioFormat::SAMPLE_FMT_NONE), HumbleInvalidArgument);
  }

  // And this should be valid
  audio = MediaAudio::make(numSamples, sampleRate, channels + 1,
      AudioChannel::CH_LAYOUT_UNKNOWN, format);
  TS_ASSERT(audio);

  audio = MediaAudio::make(numSamples, sampleRate, channels, layout, format);
  TS_ASSERT(audio);

  // now let's try getting the data
  RefPointer<Buffer> buf;

  TS_ASSERT_EQUALS(numSamples, audio->getMaxNumSamples());
  TS_ASSERT_EQUALS(numSamples, audio->getNumSamples());
  TS_ASSERT(!audio->isComplete());
  TS_ASSERT_EQUALS(channels, audio->getChannels());
  TS_ASSERT_EQUALS(channels, audio->getNumDataPlanes());
  TS_ASSERT_EQUALS(layout, audio->getChannelLayout());
  TS_ASSERT_EQUALS(sampleRate, audio->getSampleRate());
  TS_ASSERT_EQUALS(format, audio->getFormat());

  {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);

    TS_ASSERT_THROWS(
        audio->setNumSamples(audio->getMaxNumSamples()+1),
        HumbleInvalidArgument);
    TS_ASSERT_THROWS(audio->setNumSamples(-1), HumbleInvalidArgument);
    TS_ASSERT_THROWS(audio->setNumSamples(0), HumbleInvalidArgument);
  }

  audio->setNumSamples(1);
  TS_ASSERT_EQUALS(1, audio->getNumSamples());
  audio->setComplete(true);
  TS_ASSERT(audio->isComplete());

  for (int i = 0; i < channels; i++) {
    buf = audio->getData(i);
    TS_ASSERT(buf);
    TS_ASSERT_EQUALS(audio->getDataPlaneSize(i),
        audio->getNumSamples()*AudioFormat::getBytesPerSample(audio->getFormat())*(audio->isPlanar()?1:audio->getChannels()));
  }
  // now let's try packed audio
  audio = MediaAudio::make(numSamples, sampleRate, channels, layout,
      AudioFormat::getPackedSampleFormat(format));
  TS_ASSERT(audio);
  TS_ASSERT_EQUALS(AudioFormat::getPackedSampleFormat(format),
      audio->getFormat());
  TS_ASSERT_EQUALS(channels, audio->getChannels());
  TS_ASSERT_EQUALS(1, audio->getNumDataPlanes());

  buf = audio->getData(0);
  TS_ASSERT(buf);
  for (int i = 1; i < channels; i++) {
    LoggerStack stack;
    stack.setGlobalLevel(Logger::LEVEL_ERROR, false);
    TS_ASSERT_THROWS(audio->getData(i), HumbleInvalidArgument);
  }

}
Esempio n. 2
0
void
MediaAudioTest::testCopy() {
  const int32_t numSamples = 155; // I choose an odd number because HV will align up to 32
  const int32_t sampleRate = 22050;
  const int32_t channels = 15; // choose a large # of channels to make sure we expand the Frame
  const AudioChannel::Layout layout = AudioChannel::CH_LAYOUT_UNKNOWN;
  const AudioFormat::Type format = AudioFormat::SAMPLE_FMT_DBLP;

  int32_t bufSize = AudioFormat::getBufferSizeNeeded(numSamples, channels,
      format);
  // test that there is rounding up
  int32_t minSize = AudioFormat::getBytesPerSample(format) * numSamples
      * channels;
  TS_ASSERT_LESS_THAN(minSize, bufSize);

  RefPointer<Buffer> src = Buffer::make(0, bufSize);
  double* srcData = (double*) src->getBytes(0, bufSize);

  // now, let's go nuts!
  for (size_t i = 0; i < bufSize / sizeof(double); i++) {
    srcData[i] = i;
  }

  RefPointer<MediaAudio> audio;
  audio = MediaAudio::make(src.value(), numSamples, sampleRate, channels,
      layout, format);
  TS_ASSERT(audio);

  TS_ASSERT_EQUALS(channels, audio->getNumDataPlanes());

  bool tests[] =
    { true, false };
  for (size_t i = 0; i < sizeof(tests) / sizeof(*tests); i++) {

    // now let's make a copy
    RefPointer<MediaAudio> copy = MediaAudio::make(audio.value(), tests[i]);

    TS_ASSERT_EQUALS(copy->getMaxNumSamples(), audio->getMaxNumSamples());
    TS_ASSERT_EQUALS(copy->getNumSamples(), audio->getNumSamples());
    TS_ASSERT_EQUALS(copy->getChannels(), audio->getChannels());
    TS_ASSERT_EQUALS(copy->getNumDataPlanes(), audio->getNumDataPlanes());
    TS_ASSERT_EQUALS(copy->getChannelLayout(), audio->getChannelLayout());
    TS_ASSERT_EQUALS(copy->getSampleRate(), audio->getSampleRate());
    TS_ASSERT_EQUALS(copy->getFormat(), audio->getFormat());

    for (int32_t j = 0; j < audio->getNumDataPlanes(); j++) {
      RefPointer<Buffer> srcBuf = audio->getData(j);
      RefPointer<Buffer> dstBuf = copy->getData(j);

      int32_t planeSize = srcBuf->getBufferSize();
      TS_ASSERT_EQUALS(planeSize, dstBuf->getBufferSize());

      uint8_t* srcBytes = (uint8_t*) srcBuf->getBytes(0, planeSize);
      uint8_t* dstBytes = (uint8_t*) dstBuf->getBytes(0, planeSize);
      if (tests[i]) {
        for (int32_t k = 0; k < planeSize; k++) {
          // should be byte-by-byte the same
          TS_ASSERT_EQUALS(srcBytes[k], dstBytes[k]);
        }
      } else {
        TS_ASSERT_EQUALS(srcBytes, dstBytes);
      }
    }
  }

}