// Copyright (c) 2017-2022, Mudita Sp. z.o.o. All rights reserved. // For licensing, see https://github.com/mudita/MuditaOS/LICENSE.md #define DR_MP3_IMPLEMENTATION #define DR_MP3_NO_STDIO #include "decoderMP3.hpp" #include namespace audio { decoderMP3::decoderMP3(const std::string &filePath) : Decoder(filePath) { if (fileSize == 0) { return; } mp3 = std::make_unique(); drmp3_init(mp3.get(), drmp3_read, drmp3_seek, this, nullptr); if (mp3 == nullptr) { LOG_ERROR("Unable to initialize MP3 decoder"); return; } chanNumber = mp3->channels; sampleRate = mp3->sampleRate; // NOTE: Always convert to S16LE as internal format bitsPerSample = 16; isInitialized = true; } decoderMP3::~decoderMP3() { drmp3_uninit(mp3.get()); } void decoderMP3::setPosition(float pos) { if (!isInitialized) { LOG_ERROR("MP3 decoder not initialized"); return; } auto totalFramesCount = drmp3_get_pcm_frame_count(mp3.get()); drmp3_seek_to_pcm_frame(mp3.get(), totalFramesCount * pos); position = static_cast(totalFramesCount) * pos / static_cast(sampleRate); } std::uint32_t decoderMP3::decode(std::uint32_t samplesToRead, std::int16_t *pcmData) { std::uint32_t samplesRead = drmp3_read_pcm_frames_s16(mp3.get(), samplesToRead / chanNumber, reinterpret_cast(pcmData)); if (samplesRead > 0) { position += static_cast(samplesRead) / static_cast(sampleRate); } return samplesRead * chanNumber; } size_t decoderMP3::drmp3_read(void *pUserData, void *pBufferOut, size_t bytesToRead) { const auto decoderContext = reinterpret_cast(pUserData); return std::fread(pBufferOut, 1, bytesToRead, decoderContext->fd); } drmp3_bool32 decoderMP3::drmp3_seek(void *pUserData, int offset, drmp3_seek_origin origin) { const auto decoderContext = reinterpret_cast(pUserData); const int seekError = std::fseek(decoderContext->fd, offset, origin == drmp3_seek_origin_start ? SEEK_SET : SEEK_CUR); return (seekError == 0) ? DRMP3_TRUE : DRMP3_FALSE; } } // namespace audio