// Copyright (c) 2017-2020, Mudita Sp. z.o.o. All rights reserved.
// For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md
#include <cstdio>
#include <Utils.hpp>
#include "Decoder.hpp"
#include "decoderMP3.hpp"
#include "decoderFLAC.hpp"
#include "decoderWAV.hpp"
#include "fileref.h"
#include "tag.h"
#include "tfilestream.h"
namespace audio
{
Decoder::Decoder(const char *fileName)
: filePath(fileName), workerBuffer(std::make_unique<int16_t[]>(workerBufferSize)), tag(std::make_unique<Tags>())
{
fd = std::fopen(fileName, "r");
if (fd == NULL) {
return;
}
std::fseek(fd, 0, SEEK_END);
fileSize = std::ftell(fd);
std::rewind(fd);
}
Decoder::~Decoder()
{
if (audioWorker) {
audioWorker->close();
}
if (fd) {
std::fclose(fd);
}
}
std::unique_ptr<Tags> Decoder::fetchTags()
{
if (fd) {
auto inPos = std::ftell(fd);
std::rewind(fd);
TagLib::FileStream fileStream(fd);
TagLib::FileRef tagReader(&fileStream);
if (!tagReader.isNull() && tagReader.tag()) {
TagLib::Tag *tags = tagReader.tag();
TagLib::AudioProperties *properties = tagReader.audioProperties();
tag->title = tags->title().to8Bit();
tag->artist = tags->artist().to8Bit();
tag->album = tags->album().to8Bit();
tag->genre = tags->genre().to8Bit();
tag->year = std::to_string(tags->year());
tag->total_duration_s = properties->length();
tag->duration_min = tag->total_duration_s / utils::secondsInMinute;
tag->duration_hour = tag->duration_min / utils::secondsInMinute;
tag->duration_sec = tag->total_duration_s % utils::secondsInMinute;
tag->sample_rate = properties->sampleRate();
tag->num_channel = properties->channels();
tag->bitrate = properties->bitrate();
}
std::rewind(fd);
fetchTagsSpecific();
std::fseek(fd, inPos, SEEK_SET);
}
tag->filePath.append(filePath);
// If title tag empty fill it with raw file name
if (tag->title.size() == 0) {
if (const auto pos = filePath.rfind("/"); pos == std::string::npos) {
tag->title.append(filePath);
}
else {
tag->title.append(&filePath[pos + 1]);
}
}
return std::make_unique<Tags>(*tag);
}
std::unique_ptr<Decoder> Decoder::Create(const char *file)
{
std::unique_ptr<Decoder> dec;
if ((strstr(file, ".wav") != NULL) || (strstr(file, ".WAV") != NULL)) {
dec = std::make_unique<decoderWAV>(file);
}
else if ((strstr(file, ".mp3") != NULL) || (strstr(file, ".MP3") != NULL)) {
dec = std::make_unique<decoderMP3>(file);
}
else if ((strstr(file, ".flac") != NULL) || (strstr(file, ".FLAC") != NULL)) {
dec = std::make_unique<decoderFLAC>(file);
}
else {
return nullptr;
}
if (!dec->isInitialized) {
return nullptr;
}
else {
return dec;
}
}
void Decoder::convertmono2stereo(int16_t *pcm, uint32_t samplecount)
{
uint32_t i = 0, j = 0;
memset(workerBuffer.get(), 0, workerBufferSize * sizeof(int16_t));
for (; j < samplecount; j++) {
workerBuffer[i++] = pcm[j];
workerBuffer[i++] = pcm[j];
}
memcpy(pcm, &workerBuffer[0], samplecount * 2 * sizeof(int16_t));
}
void Decoder::startDecodingWorker(Stream &audioStream, DecoderWorker::EndOfFileCallback endOfFileCallback)
{
if (!audioWorker) {
audioWorker = std::make_unique<DecoderWorker>(audioStream, this, endOfFileCallback);
audioWorker->init();
audioWorker->run();
}
else {
LOG_DEBUG("AudioWorker already running.");
}
}
void Decoder::stopDecodingWorker()
{
if (audioWorker) {
audioWorker->close();
}
audioWorker = nullptr;
}
} // namespace audio