// // 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 #include #include "../SignalProcessing/Stepper.hpp" namespace Outputs { class Speaker { public: class Delegate { public: virtual void speaker_did_complete_samples(uint8_t *buffer); }; 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 uint16_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(); } protected: uint16_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 Filter: public Speaker { public: void run_for_cycles(int input_cycles) { if(_coefficients_are_dirty) update_filter_coefficients(); // point sample for now, as a temporary measure while(input_cycles--) { // static_cast(this)->perform_bus_operation(); } } private: SignalProcessing::Stepper *_stepper; 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 */