snapcast/stream.cpp

#include "stream.h"
#include "timeUtils.h"
#include <iostream>
#include <string.h>
#include <unistd.h>

Stream::Stream() : sleep(0), median(0), shortMedian(0), lastUpdate(0)
{
	pBuffer = new DoubleBuffer<int>(15000 / PLAYER_CHUNK_MS);
	pShortBuffer = new DoubleBuffer<int>(5000 / PLAYER_CHUNK_MS);
	pLock = new std::unique_lock<std::mutex>(mtx);
	bufferMs = 500;
}


void Stream::setBufferLen(size_t bufferLenMs)
{
	bufferMs = bufferLenMs;
}


void Stream::addChunk(Chunk* chunk)
{
	Chunk* c = new Chunk(*chunk);
//	mutex.lock();
	chunks.push_back(c);
//	mutex.unlock();
	cv.notify_all();
}


Chunk* Stream::getNextChunk()
{
	Chunk* chunk = NULL;
	if (chunks.empty())
		cv.wait(*pLock);

//	mutex.lock();
	chunk = chunks.front();
//	mutex.unlock();
	return chunk;
}


void Stream::getSilentPlayerChunk(short* outputBuffer)
{
	memset(outputBuffer, 0, sizeof(short)*PLAYER_CHUNK_SIZE);
}


timeval Stream::getNextPlayerChunk(short* outputBuffer, int correction)
{
	Chunk* chunk = getNextChunk();
	timeval tv = getTimeval(chunk);

	if (correction != 0)
	{
		int factor = ceil((float)PLAYER_CHUNK_MS / (float)abs(correction));
		std::cerr << "Correction: " << correction << ", factor: " << factor << "\n";
		size_t idx(chunk->idx);
		size_t samples(0);
		for (size_t n=0; n<PLAYER_CHUNK_SIZE/2; ++n)
		{
			*(outputBuffer + 2*n) = chunk->payload[idx];
			*(outputBuffer + 2*n+1) = chunk->payload[idx + 1];
			if (n % factor == 0)
			{
				if (correction < 0)
				{
					samples += 4;
					idx += 4;
				}
			}
			else
			{
				samples += 2;
				idx += 2;
			}
			if (idx >= WIRE_CHUNK_SIZE)
			{
//std::cerr << "idx >= WIRE_CHUNK_SIZE: " << idx << "\t" << WIRE_CHUNK_SIZE << "\n";
				chunks.pop_front();
				delete chunk;
				chunk = getNextChunk();
				idx -= WIRE_CHUNK_SIZE;
			}
		}
//std::cerr << "Idx: " << chunk->idx << " => " << idx+2 << "\t" << WIRE_CHUNK_SIZE << "\t" << PLAYER_CHUNK_SIZE/2 << "\n";
		chunk->idx = idx;
//timeval chunkTv = getTimeval(chunk);

		timeval nextTv = tv;
		addMs(nextTv, samples / PLAYER_CHUNK_MS_SIZE);
		setTimeval(chunk, nextTv);
//timeval tvLater = getTimeval(chunk);
std::cerr << "Diff: " << diff_ms(nextTv, tv) << "\t" << chunk->idx / PLAYER_CHUNK_MS_SIZE << "\n";
//std::cerr << timeToStr(tv) << "\n" << timeToStr(chunkTv) << "\n" << timeToStr(tvLater) << "\n";
		return tv;
	}


	size_t missing = PLAYER_CHUNK_SIZE;// + correction*PLAYER_CHUNK_MS_SIZE;
	if (chunk->idx + PLAYER_CHUNK_SIZE > WIRE_CHUNK_SIZE)
	{
//std::cerr << "chunk->idx + PLAYER_CHUNK_SIZE >= WIRE_CHUNK_SIZE: " << chunk->idx + PLAYER_CHUNK_SIZE << " >= " << WIRE_CHUNK_SIZE << "\n";
		if (outputBuffer != NULL)
			memcpy(outputBuffer, &chunk->payload[chunk->idx], sizeof(int16_t)*(WIRE_CHUNK_SIZE - chunk->idx));
		missing = chunk->idx + PLAYER_CHUNK_SIZE - WIRE_CHUNK_SIZE;
//		mutex.lock();
		chunks.pop_front();
//		mutex.unlock();
		delete chunk;
		
		chunk = getNextChunk();
	}

	if (outputBuffer != NULL)
		memcpy((outputBuffer + PLAYER_CHUNK_SIZE - missing), &chunk->payload[chunk->idx], sizeof(int16_t)*missing);

	timeval nextTv = tv;
	addMs(nextTv, PLAYER_CHUNK_MS);
	setTimeval(chunk, nextTv);
	chunk->idx += missing;
	if (chunk->idx >= WIRE_CHUNK_SIZE)
	{
//		mutex.lock();
		chunks.pop_front();
//		mutex.unlock();
		delete chunk;
	}

	return tv;
}


void Stream::getChunk(short* outputBuffer, double outputBufferDacTime, unsigned long framesPerBuffer)
{
	if (sleep != 0)
	{
		pBuffer->clear();
		pShortBuffer->clear();
		if (sleep < 0)
		{
//			std::cerr << "Sleep: " << sleep << "\n";
			sleep += PLAYER_CHUNK_MS;
			if (sleep > -PLAYER_CHUNK_MS/2)
				sleep = 0;
			getSilentPlayerChunk(outputBuffer);
		}
		else
		{
			for (size_t i=0; i<chunks.size(); ++i)
				std::cerr << "Chunk " << i << ": " << getAge(chunks[i]) - bufferMs << "\n";
			for (int i=0; i<(int)(round((float)sleep / (float)PLAYER_CHUNK_MS)) + 1; ++i)
			{
//				std::cerr << "Sleep: " << sleep << "\n";
				std::cerr << getAge(getNextPlayerChunk(outputBuffer)) - bufferMs << "\t";
				usleep(10);
			}
			sleep = 0;
		}
		return;
	}
	
	int correction(0);
	if (pBuffer->full() && (abs(median) <= PLAYER_CHUNK_MS))
	{
		if (abs(median) > 1)
		{
			correction = -shortMedian;
			pBuffer->clear();
			pShortBuffer->clear();
		}
	} 
	else if (pShortBuffer->full() && (abs(shortMedian) <= PLAYER_CHUNK_MS))
	{
		if (abs(shortMedian) > 3)
		{
			correction = -shortMedian;
			pBuffer->clear();
			pShortBuffer->clear();
		}
	}	

	timeval tv = getNextPlayerChunk(outputBuffer, correction);
	int age = getAge(tv) - bufferMs;// + outputBufferDacTime*1000;
	if (outputBufferDacTime < 1)
		age += outputBufferDacTime*1000;
	pBuffer->add(age);
	pShortBuffer->add(age);
//	std::cerr << "Chunk: " << age << "\t" << outputBufferDacTime*1000 << "\n";

	time_t now = time(NULL);
	if (now != lastUpdate)
	{
		lastUpdate = now;
		median = pBuffer->median();
		shortMedian = pShortBuffer->median();
		if (abs(age) > 100)
			sleep = age;
		else if (pShortBuffer->full() && (abs(shortMedian) > PLAYER_CHUNK_MS))
			sleep = shortMedian;
//		else if (pBuffer->full() && (abs(median) >= PLAYER_CHUNK_MS))//ceil(PLAYER_CHUNK_MS / 2) + 1))//; || (median+1 < -ceil(PLAYER_CHUNK_MS / 2))))
//			sleep = median;
//		else if (pBuffer->full() && (median+1 < -floor(PLAYER_CHUNK_MS / 2)))
//			sleep = median;
//sleep = 0;
		if (sleep != 0)
		{
			std::cerr << "Sleep: " << sleep << "\n";
		}
//sleep = 0;
		std::cerr << "Chunk: " << age << "\t" << shortMedian << "\t" << median << "\t" << pBuffer->size() << "\t" << outputBufferDacTime*1000 << "\n";
	}
}


void Stream::sleepMs(int ms)
{
	if (ms > 0)
		usleep(ms * 1000);
}