Standard practice is to use a c style array for manipulating an array of audio. This is because if you have to use an Objective-c container object with obj-c messaging to access each element, the performance will be bad, and as you note, the number of samples with audio can be quite large.
This is especially true for real time processing such as processing audio samples that live in the system audio io callback, which have to do the job within a certain number of milliseconds or the sound will cut out.
What you could do is define a struct (or even an objective c class) that has the audio buffer array as well as info elements like size, number of channels, etc, to wrap it together for you in one location. That way when you access the buffer, you don't need to get into obj-c efficiency issues, and you still have the buffer specification info available.
Here's an example:
typedef struct filter_buffer {
uint16_t* buffer;
int channels;
int num_frames;
} filter_buffer;
You then just need a call that initializes it.
You could do something with objective-c like:
@interface FilterBuffer : NSObject
{
uint16_t* buffer;
int channels;
int num_frames;
}
-initWithBuffer:(unit16_t*)buf channels:(int)c numFrames:(int)n;
...//accessors etc
@end
@implementation FilterBuffer
-initWithBuffer:(unit16_t*)buf channels:(int)c numFrames:(int)n
{
if ((self = [super init)) {
buffer = buf;
channels = c;
num_frames = n;
}
return self;
}
...
@end
}