ReadableSampleFrames SoundSourceWV::readSampleFramesClamped(
WritableSampleFrames writableSampleFrames) {
const SINT firstFrameIndex = writableSampleFrames.frameIndexRange().start();
if (m_curFrameIndex != firstFrameIndex) {
if (WavpackSeekSample(m_wpc, firstFrameIndex)) {
m_curFrameIndex = firstFrameIndex;
} else {
kLogger.warning()
<< "Could not seek to first frame index"
<< firstFrameIndex;
m_curFrameIndex = WavpackGetSampleIndex(m_wpc);
return ReadableSampleFrames(IndexRange::between(m_curFrameIndex, m_curFrameIndex));
}
}
DEBUG_ASSERT(m_curFrameIndex == firstFrameIndex);
const SINT numberOfFramesTotal = writableSampleFrames.frameLength();
static_assert(sizeof(CSAMPLE) == sizeof(int32_t),
"CSAMPLE and int32_t must have the same size");
CSAMPLE* pOutputBuffer = writableSampleFrames.writableData();
SINT unpackCount = WavpackUnpackSamples(m_wpc,
reinterpret_cast<int32_t*>(pOutputBuffer), numberOfFramesTotal);
DEBUG_ASSERT(unpackCount >= 0);
DEBUG_ASSERT(unpackCount <= numberOfFramesTotal);
if (!(WavpackGetMode(m_wpc) & MODE_FLOAT)) {
// signed integer -> float
const SINT sampleCount = frames2samples(unpackCount);
for (SINT i = 0; i < sampleCount; ++i) {
const int32_t sampleValue =
*reinterpret_cast<int32_t*>(pOutputBuffer);
*pOutputBuffer++ = CSAMPLE(sampleValue) * m_sampleScaleFactor;
}
}
const auto resultRange = IndexRange::forward(m_curFrameIndex, unpackCount);
m_curFrameIndex += unpackCount;
return ReadableSampleFrames(
resultRange,
SampleBuffer::ReadableSlice(
writableSampleFrames.writableData(),
frames2samples(unpackCount)));
}
ReadableSampleFrames SoundSourceFLAC::readSampleFramesClamped(
WritableSampleFrames writableSampleFrames) {
const SINT firstFrameIndex = writableSampleFrames.frameIndexRange().start();
if (m_curFrameIndex != firstFrameIndex) {
// Seek to the new position
SINT seekFrameIndex = firstFrameIndex;
int retryCount = 0;
// NOTE(uklotzde): This loop avoids unnecessary seek operations.
// If the file is decoded from the beginning to the end during
// continuous playback no seek operations are necessary. This
// may hide rare seek errors that we have observed in some "flaky"
// FLAC files. The retry strategy implemented by this loop tries
// to solve these issues when randomly seeking through such a file.
while ((seekFrameIndex != m_curFrameIndex) &&
(retryCount <= kSeekErrorMaxRetryCount)) {
// Discard decoded sample data before seeking
m_sampleBuffer.clear();
invalidateCurFrameIndex();
if (FLAC__stream_decoder_seek_absolute(m_decoder, seekFrameIndex)) {
// Success: Set the new position
m_curFrameIndex = seekFrameIndex;
DEBUG_ASSERT(FLAC__STREAM_DECODER_SEEK_ERROR != FLAC__stream_decoder_get_state(m_decoder));
} else {
// Failure
kLogger.warning()
<< "Seek error at" << seekFrameIndex
<< "in file" << m_file.fileName();
if (FLAC__STREAM_DECODER_SEEK_ERROR == FLAC__stream_decoder_get_state(m_decoder)) {
// Flush the input stream of the decoder according to the
// documentation of FLAC__stream_decoder_seek_absolute()
if (!FLAC__stream_decoder_flush(m_decoder)) {
kLogger.warning()
<< "Failed to flush input buffer of the FLAC decoder after seek failure"
<< "in file" << m_file.fileName();
invalidateCurFrameIndex();
// ...and abort
return ReadableSampleFrames(
IndexRange::between(
m_curFrameIndex,
m_curFrameIndex));
}
}
if (frameIndexMin() < seekFrameIndex) {
// The next seek position should start at a preceding sample block.
// By subtracting max. blocksize from the current seek position it
// is guaranteed that the targeted sample blocks of subsequent seek
// operations will differ.
DEBUG_ASSERT(0 < m_maxBlocksize);
seekFrameIndex -= m_maxBlocksize;
if (seekFrameIndex < frameIndexMin()) {
seekFrameIndex = frameIndexMin();
}
} else {
// We have already reached the beginning of the file
// and cannot move the seek position backwards any
// further!
break; // exit loop
}
}
}
// Decoding starts before the actual target position
DEBUG_ASSERT(m_curFrameIndex <= firstFrameIndex);
const auto precedingFrames =
IndexRange::between(m_curFrameIndex, firstFrameIndex);
if (!precedingFrames.empty() &&
(precedingFrames != readSampleFramesClamped(WritableSampleFrames(precedingFrames)).frameIndexRange())) {
kLogger.warning()
<< "Failed to skip preceding frames"
<< precedingFrames;
// Abort
return ReadableSampleFrames(
IndexRange::between(
m_curFrameIndex,
m_curFrameIndex));
}
}
DEBUG_ASSERT(m_curFrameIndex == firstFrameIndex);
const SINT numberOfSamplesTotal = frames2samples(writableSampleFrames.frameLength());
SINT numberOfSamplesRemaining = numberOfSamplesTotal;
SINT outputSampleOffset = 0;
while (0 < numberOfSamplesRemaining) {
// If our buffer from libflac is empty (either because we explicitly cleared
// it or because we've simply used all the samples), ask for a new buffer
if (m_sampleBuffer.empty()) {
// Save the current frame index
const SINT curFrameIndexBeforeProcessing = m_curFrameIndex;
// Documentation of FLAC__stream_decoder_process_single():
// "Depending on what was decoded, the metadata or write callback
// will be called with the decoded metadata block or audio frame."
// See also: https://xiph.org/flac/api/group__flac__stream__decoder.html#ga9d6df4a39892c05955122cf7f987f856
if (!FLAC__stream_decoder_process_single(m_decoder)) {
kLogger.warning()
<< "Failed to decode FLAC file"
<< m_file.fileName();
break; // abort
}
// After decoding we might first need to skip some samples if the
// decoder complained that it has lost sync for some malformed(?)
// files
if (m_curFrameIndex != curFrameIndexBeforeProcessing) {
if (m_curFrameIndex < curFrameIndexBeforeProcessing) {
kLogger.warning()
<< "Trying to adjust frame index"
<< m_curFrameIndex << "<" << curFrameIndexBeforeProcessing
<< "while decoding FLAC file"
<< m_file.fileName();
const auto skipFrames =
IndexRange::between(m_curFrameIndex, curFrameIndexBeforeProcessing);
if (skipFrames != readSampleFramesClamped(WritableSampleFrames(skipFrames)).frameIndexRange()) {
kLogger.warning()
<< "Failed to skip sample frames"
<< skipFrames
<< "while decoding FLAC file"
<< m_file.fileName();
break; // abort
}
} else {
kLogger.warning()
<< "Unexpected frame index"
<< m_curFrameIndex << ">" << curFrameIndexBeforeProcessing
<< "while decoding FLAC file"
<< m_file.fileName();
break; // abort
}
}
DEBUG_ASSERT(curFrameIndexBeforeProcessing == m_curFrameIndex);
}
if (m_sampleBuffer.empty()) {
break; // EOF
}
const SINT numberOfSamplesRead =
std::min(m_sampleBuffer.readableLength(), numberOfSamplesRemaining);
const SampleBuffer::ReadableSlice readableSlice(
m_sampleBuffer.shrinkForReading(numberOfSamplesRead));
DEBUG_ASSERT(readableSlice.length() == numberOfSamplesRead);
if (writableSampleFrames.writableData()) {
SampleUtil::copy(
writableSampleFrames.writableData(outputSampleOffset),
readableSlice.data(),
readableSlice.length());
outputSampleOffset += numberOfSamplesRead;
}
m_curFrameIndex += samples2frames(numberOfSamplesRead);
numberOfSamplesRemaining -= numberOfSamplesRead;
}
DEBUG_ASSERT(isValidFrameIndex(m_curFrameIndex));
DEBUG_ASSERT(numberOfSamplesTotal >= numberOfSamplesRemaining);
const SINT numberOfSamples = numberOfSamplesTotal - numberOfSamplesRemaining;
return ReadableSampleFrames(
IndexRange::forward(firstFrameIndex, samples2frames(numberOfSamples)),
SampleBuffer::ReadableSlice(
writableSampleFrames.writableData(),
std::min(writableSampleFrames.writableLength(), numberOfSamples)));
}
ReadableSampleFrames SoundSourceOggVorbis::readSampleFramesClamped(
WritableSampleFrames writableSampleFrames) {
const SINT firstFrameIndex = writableSampleFrames.frameIndexRange().start();
if (m_curFrameIndex != firstFrameIndex) {
const int seekResult = ov_pcm_seek(&m_vf, firstFrameIndex);
if (seekResult == 0) {
m_curFrameIndex = firstFrameIndex;
} else {
kLogger.warning() << "Failed to seek file:" << seekResult;
const ogg_int64_t pcmOffset = ov_pcm_tell(&m_vf);
if (0 <= pcmOffset) {
m_curFrameIndex = pcmOffset;
} else {
// Reset to EOF
m_curFrameIndex = frameIndexMax();
}
// Abort
return ReadableSampleFrames(
IndexRange::between(
m_curFrameIndex,
m_curFrameIndex));
}
}
DEBUG_ASSERT(m_curFrameIndex == firstFrameIndex);
const SINT numberOfFramesTotal = writableSampleFrames.frameLength();
CSAMPLE* pSampleBuffer = writableSampleFrames.writableData();
SINT numberOfFramesRemaining = numberOfFramesTotal;
while (0 < numberOfFramesRemaining) {
float** pcmChannels;
int currentSection;
// Use 'long' here, because ov_read_float() returns this type.
// This is an exception from the rule not to any types with
// differing sizes on different platforms.
// https://bugs.launchpad.net/mixxx/+bug/1094143
const long readResult = ov_read_float(&m_vf, &pcmChannels,
numberOfFramesRemaining, ¤tSection);
if (0 < readResult) {
m_curFrameIndex += readResult;
if (pSampleBuffer) {
switch (channelCount()) {
case 1:
for (long i = 0; i < readResult; ++i) {
*pSampleBuffer++ = pcmChannels[0][i];
}
break;
case 2:
for (long i = 0; i < readResult; ++i) {
*pSampleBuffer++ = pcmChannels[0][i];
*pSampleBuffer++ = pcmChannels[1][i];
}
break;
default:
for (long i = 0; i < readResult; ++i) {
for (SINT j = 0; j < channelCount(); ++j) {
*pSampleBuffer++ = pcmChannels[j][i];
}
}
}
}
numberOfFramesRemaining -= readResult;
} else {
kLogger.warning() << "Failed to read from file:" << readResult;
break; // abort
}
}
DEBUG_ASSERT(isValidFrameIndex(m_curFrameIndex));
DEBUG_ASSERT(numberOfFramesTotal >= numberOfFramesRemaining);
const SINT numberOfFrames = numberOfFramesTotal - numberOfFramesRemaining;
return ReadableSampleFrames(
IndexRange::forward(firstFrameIndex, numberOfFrames),
SampleBuffer::ReadableSlice(
writableSampleFrames.writableData(),
std::min(writableSampleFrames.writableLength(), frames2samples(numberOfFrames))));
}
