#include "stream.h" #include #include #include using namespace std; Stream::Stream() : sleep(0), median(0), shortMedian(0), lastUpdate(0), latencyMs(0) { pBuffer = new DoubleBuffer(1000); pShortBuffer = new DoubleBuffer(200); pMiniBuffer = new DoubleBuffer(10); pCardBuffer = new DoubleBuffer(50); bufferMs = 500; } void Stream::setBufferLen(size_t bufferLenMs) { bufferMs = bufferLenMs; } void Stream::addChunk(Chunk* chunk) { chunks.push(shared_ptr(chunk)); } void Stream::getSilentPlayerChunk(short* outputBuffer, unsigned long framesPerBuffer) { memset(outputBuffer, 0, sizeof(short)*framesPerBuffer * CHANNELS); } void Stream::setLatency(size_t latency) { latencyMs = latency; } time_point_ms Stream::getNextPlayerChunk(short* outputBuffer, unsigned long framesPerBuffer, int correction) { if (!chunk) chunk = chunks.pop(); time_point_ms tp = chunk->timePoint(); int read = 0; int toRead = framesPerBuffer*CHANNELS + correction*PLAYER_CHUNK_MS_SIZE; short* buffer; if (correction != 0) { int msBuffer = floor(framesPerBuffer*2 / PLAYER_CHUNK_MS_SIZE); if (abs(correction) > msBuffer / 2) correction = copysign(msBuffer / 2, correction); buffer = (short*)malloc(toRead * sizeof(short)); } else buffer = outputBuffer; while (read < toRead) { read += chunk->read(buffer + read, toRead - read); if (chunk->isEndOfChunk()) chunk = chunks.pop(); } if (correction != 0) { float factor = (float)toRead / (float)(framesPerBuffer*CHANNELS); std::cout << "correction: " << correction << ", factor: " << factor << "\n"; for (size_t n=0; nadd(age); pMiniBuffer->add(age); pShortBuffer->add(age); } void Stream::resetBuffers() { pBuffer->clear(); pMiniBuffer->clear(); pShortBuffer->clear(); } void Stream::getPlayerChunk(short* outputBuffer, double outputBufferDacTime, unsigned long framesPerBuffer) { //cout << "framesPerBuffer: " << framesPerBuffer << "\tms: " << framesPerBuffer*2 / PLAYER_CHUNK_MS_SIZE << "\t" << PLAYER_CHUNK_SIZE << "\n"; int msBuffer = floor(framesPerBuffer*2 / PLAYER_CHUNK_MS_SIZE); int ticks = 0; long currentTick = getTickCount(); if (lastTick == 0) lastTick = currentTick; ticks = currentTick - lastTick; lastTick = currentTick; int cardBuffer = 0; if (ticks > 1) pCardBuffer->add(ticks); if (pCardBuffer->full()) cardBuffer = pCardBuffer->percentil(90); int correction = 0; if (sleep != 0) { resetBuffers(); if (sleep < -10) { // std::cerr << "Sleep: " << sleep << "\n"; sleep += msBuffer; if (sleep > -msBuffer/2) sleep = 0; getSilentPlayerChunk(outputBuffer, framesPerBuffer); return; } else if (sleep > 10) { // for (size_t i=0; igetAge() - bufferMs << "\n"; while (true)// (int i=0; i<(int)(round((float)sleep / (float)PLAYER_CHUNK_MS)) + 1; ++i) { int age = Chunk::getAge(getNextPlayerChunk(outputBuffer, framesPerBuffer)) - bufferMs + latencyMs; // age += 4*cardBuffer; if (age < msBuffer / 2) break; } sleep = 0; return; } else if (sleep < 0) { ++sleep; correction = -1; } else if (sleep > 0) { --sleep; correction = 1; } } int age = Chunk::getAge(getNextPlayerChunk(outputBuffer, framesPerBuffer, correction)) - bufferMs - latencyMs;// + outputBufferDacTime*1000; if (outputBufferDacTime < 1) age += outputBufferDacTime*1000; // if (pCardBuffer->full()) // age += 4*cardBuffer; // cout << age << "\t" << framesPerBuffer << "\t" << msBuffer << "\t" << ticks << "\t" << cardBuffer << "\t" << outputBufferDacTime*1000 << "\n"; if (sleep == 0) { if (pBuffer->full() && (abs(median) <= 10) && (abs(median) > 1)) { cout << "pBuffer->full() && (abs(median) <= 10) && (abs(median) > 1): " << abs(median) << "\n"; sleep = median; } else if (pShortBuffer->full() && (abs(shortMedian) <= 10) && (abs(shortMedian) > 5)) { cout << "pShortBuffer->full() && (abs(shortMedian) <= 10) && (abs(shortMedian) > 5): " << abs(shortMedian) << "\n"; sleep = shortMedian; } if (pShortBuffer->full() && (abs(shortMedian) > 10)) { cout << "pShortBuffer->full() && (abs(shortMedian) > 10): " << abs(shortMedian) << "\n"; sleep = shortMedian; } else if (pMiniBuffer->full() && (abs(age) > 50) && (abs(pMiniBuffer->mean()) > 50)) { cout << "pMiniBuffer->full() && (abs(age) > 50) && (abs(pMiniBuffer->mean()) > 50): " << abs(age) << "\n"; sleep = pMiniBuffer->mean(); } } if (sleep != 0) std::cerr << "Sleep: " << sleep << "\n"; // std::cerr << "Chunk: " << age << "\t" << outputBufferDacTime*1000 << "\n"; if (ticks > 2) { // cout << age << "\n"; updateBuffers(age); } time_t now = time(NULL); if (now != lastUpdate) { lastUpdate = now; median = pBuffer->median(); shortMedian = pShortBuffer->mean(); std::cerr << "Chunk: " << age << "\t" << pMiniBuffer->mean() << "\t" << shortMedian << "\t" << median << /*"\tmean: " << pBuffer->mean() <<*/ "\t" << pBuffer->size() << "\t" << cardBuffer << "\t" << outputBufferDacTime*1000 << "\n"; } }