/*** This file is part of snapcast Copyright (C) 2014-2020 Johannes Pohl This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . ***/ #ifndef PCM_CHUNK_H #define PCM_CHUNK_H #include "common/sample_format.hpp" #include "message.hpp" #include "wire_chunk.hpp" #include namespace msg { /** * Piece of PCM data with SampleFormat information * Has information about "when" recorded (start) and duration * frames can be read with "readFrames", which will also change the start time */ class PcmChunk : public WireChunk { public: PcmChunk(const SampleFormat& sampleFormat, size_t ms) : WireChunk(sampleFormat.rate * sampleFormat.frameSize * ms / 1000), format(sampleFormat), idx_(0) { } PcmChunk(const PcmChunk& pcmChunk) : WireChunk(pcmChunk), format(pcmChunk.format), idx_(0) { } PcmChunk() : WireChunk(), idx_(0) { } ~PcmChunk() override = default; #if 0 template int readFrames(void* outputBuffer, const std::chrono::duration& duration) { auto us = std::chrono::microseconds(duration).count(); auto frames = (us * 48000) / std::micro::den; // return readFrames(outputBuffer, (us * 48000) / std::micro::den); return frames; } #endif int readFrames(void* outputBuffer, size_t frameCount) { // logd << "read: " << frameCount << ", total: " << (wireChunk->length / format.frameSize) << ", idx: " << idx;// << std::endl; int result = frameCount; if (idx_ + frameCount > (payloadSize / format.frameSize)) result = (payloadSize / format.frameSize) - idx_; // logd << ", from: " << format.frameSize*idx << ", to: " << format.frameSize*idx + format.frameSize*result; if (outputBuffer != nullptr) memcpy((char*)outputBuffer, (char*)(payload) + format.frameSize * idx_, format.frameSize * result); idx_ += result; // logd << ", new idx: " << idx << ", result: " << result << ", wireChunk->length: " << wireChunk->length << ", format.frameSize: " << format.frameSize // << "\n";//std::endl; return result; } int seek(int frames) { if ((frames < 0) && (-frames > (int)idx_)) frames = -idx_; idx_ += frames; if (idx_ > getFrameCount()) idx_ = getFrameCount(); return idx_; } chronos::time_point_clk start() const override { return chronos::time_point_clk(chronos::sec(timestamp.sec) + chronos::usec(timestamp.usec) + chronos::usec((chronos::usec::rep)(1000000. * ((double)idx_ / (double)format.rate)))); } inline chronos::time_point_clk end() const { return start() + durationLeft(); } template inline T duration() const { return std::chrono::duration_cast(chronos::nsec((chronos::nsec::rep)(1000000 * getFrameCount() / format.msRate()))); } template inline T durationLeft() const { return std::chrono::duration_cast(chronos::nsec((chronos::nsec::rep)(1000000 * (getFrameCount() - idx_) / format.msRate()))); } inline bool isEndOfChunk() const { return idx_ >= getFrameCount(); } inline size_t getFrameCount() const { return (payloadSize / format.frameSize); } inline size_t getSampleCount() const { return (payloadSize / format.sampleSize); } SampleFormat format; private: uint32_t idx_; }; } // namespace msg #endif