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AudioDelay.h
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AudioDelay.h
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/*
* AudioDelay.h
*
* This file is part of Mozzi.
*
* Copyright 2012-2024 Tim Barrass and the Mozzi Team
*
* Mozzi is licensed under the GNU Lesser General Public Licence (LGPL) Version 2.1 or later.
*
*/
#ifndef AUDIODELAY_H_
#define AUDIODELAY_H_
/** Audio delay line for comb filter, flange, chorus and short echo effects.
@tparam NUM_BUFFER_SAMPLES is the length of the delay buffer in samples. This should
be a power of two. The largest delay you'll fit in an atmega328 will be 512
cells, which at 16384 Hz sample rate is 31 milliseconds. More of a flanger or a
doubler than an echo. The amount of memory available for delays on other chips will vary.
AudioDelay() doesn't have feedback. If you want feedback, use AudioDelayFeedback().
@tparam the type of numbers to use for the signal in the delay. The default is int8_t, but int could be useful
when adding manual feedback. When using int, the input should be limited to 15 bits width, ie. -16384 to 16383.
*/
template <unsigned int NUM_BUFFER_SAMPLES, class T = int8_t>
class AudioDelay
{
private:
T delay_array[NUM_BUFFER_SAMPLES];
unsigned int _write_pos;
unsigned int _delaytime_cells;
public:
/** Constructor.
*/
AudioDelay(): _write_pos(0)
{}
/** Constructor.
@param delaytime_cells delay time expressed in cells.
For example, 128 cells delay at MOZZI_AUDIO_RATE would produce a time delay of 128/16384 = 0.0078125 s = 7.8 ms
Put another way, num_cells = delay_seconds * MOZZI_AUDIO_RATE.
*/
AudioDelay(unsigned int delaytime_cells): _write_pos(0), _delaytime_cells(delaytime_cells)
{}
/** Input a value to the delay and retrieve the signal in the delay line at the position delaytime_cells.
@param in_value the signal input.
@param delaytime_cells sets the delay time in terms of cells in the delay buffer.
*/
inline
T next(T in_value, unsigned int delaytime_cells)
{
++_write_pos &= (NUM_BUFFER_SAMPLES - 1);
unsigned int read_pos = (_write_pos - delaytime_cells) & (NUM_BUFFER_SAMPLES - 1);
// why does delay jump if I read it before writing?
delay_array[_write_pos] = in_value; // write to buffer
T delay_sig = delay_array[read_pos] ; // read the delay buffer
return (T)delay_sig;
}
/** Input a value to the delay and retrieve the signal in the delay line at the position delaytime_cells.
@param in_value the signal input.
*/
inline
T next(T in_value)
{
++_write_pos &= (NUM_BUFFER_SAMPLES - 1);
unsigned int read_pos = (_write_pos - _delaytime_cells) & (NUM_BUFFER_SAMPLES - 1);
// why does delay jump if I read it before writing?
delay_array[_write_pos] = in_value; // write to buffer
T delay_sig = delay_array[read_pos] ; // read the delay buffer
return delay_sig;
}
/** Set the delay time, measured in cells.
@param delaytime_cells how many cells to delay the input signal by.
*/
inline
void set(unsigned int delaytime_cells){
_delaytime_cells = delaytime_cells;
}
/** Retrieve the signal in the delay line at the position delaytime_cells.
It doesn't change the stored internal value of _delaytime_cells.
@param delaytime_cells indicates the delay time in terms of cells in the delay buffer.
*/
inline
T read(unsigned int delaytime_cells)
{
unsigned int read_pos = (_write_pos - delaytime_cells) & (NUM_BUFFER_SAMPLES - 1);
return delay_array[read_pos];
}
// /** Input a value to the delay but don't advance the write position, change the delay time or retrieve the output signal.
// This can be useful for manually adding feedback to the delay line, "behind" the advancing write head.
// @param input the signal input.
// */
// inline
// void writeFeedback(T input)
// {
// delay_array[_write_pos] = input;
// }
};
/**
@example 09.Delays/AudioDelay/AudioDelay.ino
This is an example of how to use the AudioDelay class.
*/
#endif // #ifndef AUDIODELAY_H_