// // OutputNode.m // Cog // // Created by Vincent Spader on 8/2/05. // Copyright 2005 Vincent Spader. All rights reserved. // #import "OutputNode.h" #import "AudioPlayer.h" #import "BufferChain.h" #import "OutputCoreAudio.h" #import "Logging.h" @implementation OutputNode - (void)setup { amountPlayed = 0.0; paused = YES; started = NO; output = [[OutputCoreAudio alloc] initWithController:self]; [output setup]; } - (void)seek:(double)time { // [output pause]; [self resetBuffer]; amountPlayed = time; } - (void)process { paused = NO; [output start]; } - (void)pause { paused = YES; [output pause]; } - (void)resume { paused = NO; [output resume]; } - (void)incrementAmountPlayed:(double)seconds { amountPlayed += seconds; } - (void)resetAmountPlayed { amountPlayed = 0; } - (void)endOfInputPlayed { [controller endOfInputPlayed]; } - (BOOL)chainQueueHasTracks { return [controller chainQueueHasTracks]; } - (double)secondsBuffered { return [buffer listDuration]; } - (AudioChunk *)readChunk:(size_t)amount { @autoreleasepool { [self setPreviousNode:[[controller bufferChain] finalNode]]; AudioChunk *ret = [super readChunk:amount]; /* if (n == 0) { DLog(@"Output Buffer dry!"); } */ return ret; } } - (double)amountPlayed { return amountPlayed; } - (AudioStreamBasicDescription)format { return format; } - (uint32_t)config { return config; } - (void)setFormat:(AudioStreamBasicDescription *)f channelConfig:(uint32_t)channelConfig { format = *f; config = channelConfig; // Calculate a ratio and add to double(seconds) instead, as format may change // double oldSampleRatio = sampleRatio; BufferChain *bufferChain = [controller bufferChain]; if(bufferChain) { ConverterNode *converter = [bufferChain converter]; if(converter) { // This clears the resampler buffer, but not the input buffer // We also have to jump the play position ahead accounting for // the data we are flushing amountPlayed += [[converter buffer] listDuration]; AudioStreamBasicDescription inf = [bufferChain inputFormat]; uint32_t config = [bufferChain inputConfig]; format.mChannelsPerFrame = inf.mChannelsPerFrame; format.mBytesPerFrame = ((inf.mBitsPerChannel + 7) / 8) * format.mChannelsPerFrame; format.mBytesPerPacket = format.mBytesPerFrame * format.mFramesPerPacket; channelConfig = config; [converter setOutputFormat:format outputConfig:channelConfig]; [converter inputFormatDidChange:[bufferChain inputFormat] inputConfig:[bufferChain inputConfig]]; } } } - (void)close { [output stop]; output = nil; } - (void)setVolume:(double)v { [output setVolume:v]; } - (void)setShouldContinue:(BOOL)s { [super setShouldContinue:s]; // if (s == NO) // [output stop]; } - (BOOL)isPaused { return paused; } - (void)beginEqualizer:(AudioUnit)eq { [controller beginEqualizer:eq]; } - (void)refreshEqualizer:(AudioUnit)eq { [controller refreshEqualizer:eq]; } - (void)endEqualizer:(AudioUnit)eq { [controller endEqualizer:eq]; } - (void)sustainHDCD { [output sustainHDCD]; } - (void)restartPlaybackAtCurrentPosition { [controller restartPlaybackAtCurrentPosition]; } @end