cog/Audio/Visualization/VisualizationController.m

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//
// VisualizationController.m
// CogAudio Framework
//
// Created by Christopher Snowhill on 2/12/22.
//
#import "VisualizationController.h"
#import <Accelerate/Accelerate.h>
#import "fft.h"
@implementation VisualizationController
static VisualizationController *_sharedController = nil;
+ (VisualizationController *)sharedController {
@synchronized(self) {
if(!_sharedController) {
_sharedController = [[VisualizationController alloc] init];
}
}
return _sharedController;
}
- (id)init {
self = [super init];
if(self) {
visAudio = NULL;
latency = 0;
}
return self;
}
- (void)dealloc {
fft_free();
}
- (void)postSampleRate:(double)sampleRate {
@synchronized(self) {
if(self->sampleRate != sampleRate) {
self->sampleRate = sampleRate;
int visAudioSize = (int)(sampleRate * 45.0);
void *visAudio = realloc(self->visAudio, visAudioSize * sizeof(float));
if(visAudio && visAudioSize) {
if(visAudioSize > self->visAudioSize) {
bzero(((float *)visAudio) + self->visAudioSize, sizeof(float) * (visAudioSize - self->visAudioSize));
}
self->visAudio = visAudio;
self->visAudioSize = visAudioSize;
visAudioCursor %= visAudioSize;
}
}
}
}
- (void)postVisPCM:(const float *)inPCM amount:(int)amount {
@synchronized(self) {
int samplesRead = 0;
while(amount > 0) {
int amountToCopy = (int)(visAudioSize - visAudioCursor);
if(amountToCopy > amount) amountToCopy = amount;
cblas_scopy(amountToCopy, inPCM + samplesRead, 1, visAudio + visAudioCursor, 1);
visAudioCursor = visAudioCursor + amountToCopy;
if(visAudioCursor >= visAudioSize) visAudioCursor -= visAudioSize;
amount -= amountToCopy;
samplesRead += amountToCopy;
}
}
}
- (void)postLatency:(double)latency {
self->latency = latency;
assert(latency < 45.0);
}
- (double)readSampleRate {
@synchronized(self) {
return sampleRate;
}
}
- (void)copyVisPCM:(float *)outPCM visFFT:(float *)outFFT latencyOffset:(double)latency {
if(!outPCM && !outFFT) return;
if(!visAudio || !visAudioSize) {
if(outPCM) bzero(outPCM, sizeof(float) * 4096);
if(outFFT) bzero(outFFT, sizeof(float) * 2048);
return;
}
float tempPCM[4096];
if(!outPCM) outPCM = &tempPCM[0];
@synchronized(self) {
if(!sampleRate) {
bzero(outPCM, 4096 * sizeof(float));
if(outFFT) {
bzero(outFFT, 2048 * sizeof(float));
}
return;
}
int latencySamples = (int)(sampleRate * (self->latency + latency));
if(latencySamples < 4096) latencySamples = 4096;
int readCursor = visAudioCursor - latencySamples;
int samples = 4096;
int samplesRead = 0;
while(readCursor < 0)
readCursor += visAudioSize;
while(readCursor >= visAudioSize)
readCursor -= visAudioSize;
while(samples > 0) {
int samplesToRead = (int)(visAudioSize - readCursor);
if(samplesToRead > samples) samplesToRead = samples;
cblas_scopy(samplesToRead, visAudio + readCursor, 1, outPCM + samplesRead, 1);
samplesRead += samplesToRead;
readCursor += samplesToRead;
samples -= samplesToRead;
if(readCursor >= visAudioSize) readCursor -= visAudioSize;
}
}
if(outFFT) {
fft_calculate(outPCM, outFFT, 2048);
}
}
@end