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CLK/Outputs/Speaker.hpp

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//
// Speaker.hpp
// Clock Signal
//
// Created by Thomas Harte on 12/01/2016.
// Copyright © 2016 Thomas Harte. All rights reserved.
//
#ifndef Speaker_hpp
#define Speaker_hpp
#include <stdint.h>
#include <stdio.h>
#include <time.h>
#include "../SignalProcessing/Stepper.hpp"
namespace Outputs {
class Speaker {
public:
class Delegate {
public:
virtual void speaker_did_complete_samples(Speaker *speaker, const int16_t *buffer, int buffer_size) = 0;
};
void set_output_rate(int cycles_per_second, int buffer_size)
{
_output_cycles_per_second = cycles_per_second;
if(_buffer_size != buffer_size)
{
delete[] _buffer_in_progress;
_buffer_in_progress = new int16_t[buffer_size];
_buffer_size = buffer_size;
}
set_needs_updated_filter_coefficients();
}
void set_output_quality(int number_of_taps)
{
_number_of_taps = number_of_taps;
set_needs_updated_filter_coefficients();
}
void set_delegate(Delegate *delegate)
{
_delegate = delegate;
}
void set_input_rate(int cycles_per_second)
{
_input_cycles_per_second = cycles_per_second;
set_needs_updated_filter_coefficients();
}
Speaker() : _buffer_in_progress_pointer(0) {}
protected:
int16_t *_buffer_in_progress;
int _buffer_size;
int _buffer_in_progress_pointer;
int _number_of_taps;
bool _coefficients_are_dirty;
Delegate *_delegate;
SignalProcessing::Stepper *_stepper;
int _input_cycles_per_second, _output_cycles_per_second;
void set_needs_updated_filter_coefficients()
{
_coefficients_are_dirty = true;
}
};
template <class T> class Filter: public Speaker {
public:
void run_for_cycles(int input_cycles)
{
if(_coefficients_are_dirty) update_filter_coefficients();
// _periodic_cycles += input_cycles;
// time_t time_now = time(nullptr);
// if(time_now > _periodic_start)
// {
// printf("input audio samples: %d\n", _periodic_cycles);
// printf("output audio samples: %d\n", _periodic_output);
// _periodic_cycles = 0;
// _periodic_output = 0;
// _periodic_start = time_now;
// }
// point sample for now, as a temporary measure
input_cycles += _input_cycles_carry;
while(input_cycles > 0)
{
// get a sample for the current location
static_cast<T *>(this)->get_samples(1, &_buffer_in_progress[_buffer_in_progress_pointer]);
_buffer_in_progress_pointer++;
// announce to delegate if full
if(_buffer_in_progress_pointer == _buffer_size)
{
_buffer_in_progress_pointer = 0;
if(_delegate)
{
_delegate->speaker_did_complete_samples(this, _buffer_in_progress, _buffer_size);
}
}
// determine how many source samples to step
uint64_t steps = _stepper->step();
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if(steps > 1)
static_cast<T *>(this)->skip_samples((unsigned int)(steps-1));
input_cycles -= steps;
// _periodic_output ++;
}
_input_cycles_carry = input_cycles;
}
Filter() {} // _periodic_cycles(0), _periodic_start(0)
private:
// time_t _periodic_start;
// int _periodic_cycles;
// int _periodic_output;
SignalProcessing::Stepper *_stepper;
int _input_cycles_carry;
void update_filter_coefficients()
{
_coefficients_are_dirty = false;
_buffer_in_progress_pointer = 0;
delete _stepper;
_stepper = new SignalProcessing::Stepper((uint64_t)_input_cycles_per_second, (uint64_t)_output_cycles_per_second);
}
};
}
#endif /* Speaker_hpp */