408 lines
14 KiB
C++
408 lines
14 KiB
C++
/*
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* Copyright (C) 2014-2018 Paul Davis <paul@linuxaudiosystems.com>
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* Copyright (C) 2014-2018 Robin Gareus <robin@gareus.org>
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
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*/
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#ifndef __libbackend_dummy_audiobackend_h__
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#define __libbackend_dummy_audiobackend_h__
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#include <cstdint>
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#include <string>
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#include <vector>
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#include <map>
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#include <memory>
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#include <set>
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#include <pthread.h>
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#include <ltc.h>
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#include "pbd/natsort.h"
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#include "pbd/ringbuffer.h"
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#include "ardour/types.h"
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#include "ardour/audio_backend.h"
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#include "ardour/dsp_load_calculator.h"
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#include "ardour/port_engine_shared.h"
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namespace ARDOUR {
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class DummyAudioBackend;
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namespace DummyMidiData {
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typedef struct _MIDISequence {
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float beat_time;
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uint8_t size;
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uint8_t event[3];
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} MIDISequence;
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};
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class DummyMidiEvent : public BackendMIDIEvent {
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public:
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DummyMidiEvent (const pframes_t timestamp, const uint8_t* data, size_t size);
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DummyMidiEvent (const DummyMidiEvent& other);
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~DummyMidiEvent ();
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size_t size () const { return _size; };
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pframes_t timestamp () const { return _timestamp; };
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const uint8_t* data () const { return _data; };
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private:
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size_t _size;
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pframes_t _timestamp;
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uint8_t *_data;
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};
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typedef std::vector<std::shared_ptr<DummyMidiEvent> > DummyMidiBuffer;
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class DummyPort : public BackendPort {
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protected:
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DummyPort (DummyAudioBackend &b, const std::string&, PortFlags);
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public:
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virtual ~DummyPort ();
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void next_period () { _gen_cycle = false; }
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protected:
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/* random number generator */
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void setup_random_number_generator ();
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inline float randf ();
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inline uint32_t randi ();
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uint32_t _rseed;
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/* engine time */
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pframes_t pulse_position () const;
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// signal generator
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volatile bool _gen_cycle;
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Glib::Threads::Mutex generator_lock;
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private:
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AudioBackend& _engine;
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}; // class DummyPort
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class DummyAudioPort : public DummyPort {
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public:
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DummyAudioPort (DummyAudioBackend &b, const std::string&, PortFlags);
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~DummyAudioPort ();
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DataType type () const { return DataType::AUDIO; };
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Sample* buffer () { return _buffer; }
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const Sample* const_buffer () const { return _buffer; }
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void* get_buffer (pframes_t nframes);
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enum GeneratorType {
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Silence,
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DC05,
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Demolition,
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UniformWhiteNoise,
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GaussianWhiteNoise,
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PinkNoise,
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PonyNoise,
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SineWave,
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SineWaveOctaves,
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SquareWave,
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KronekerDelta,
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SineSweep,
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SineSweepSwell,
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SquareSweep,
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SquareSweepSwell,
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OneHz,
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LTC,
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Loopback,
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};
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std::string setup_generator (GeneratorType const, float const, int, int);
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void fill_wavetable (const float* d, size_t n_samples) { assert(_wavetable != 0); memcpy(_wavetable, d, n_samples * sizeof(float)); }
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void midi_to_wavetable (DummyMidiBuffer const * const src, size_t n_samples);
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private:
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Sample _buffer[8192];
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// signal generator ('fake' physical inputs)
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void generate (const pframes_t n_samples);
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GeneratorType _gen_type;
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// generator buffers
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// pink-noise filters
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float _b0, _b1, _b2, _b3, _b4, _b5, _b6;
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// generated sinf() samples
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Sample * _wavetable;
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uint32_t _gen_period;
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uint32_t _gen_offset;
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uint32_t _gen_perio2;
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uint32_t _gen_count2;
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// gaussian noise generator
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float grandf ();
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bool _pass;
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float _rn1;
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// LTC generator
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LTCEncoder* _ltc;
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PBD::RingBuffer<Sample>* _ltcbuf;
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float _ltc_spd;
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float _ltc_rand;
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}; // class DummyAudioPort
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class DummyMidiPort : public DummyPort {
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public:
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DummyMidiPort (DummyAudioBackend &b, const std::string&, PortFlags);
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~DummyMidiPort ();
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DataType type () const { return DataType::MIDI; };
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void* get_buffer (pframes_t nframes);
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const DummyMidiBuffer * const_buffer () const { return &_buffer; }
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std::string setup_generator (int, float const);
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void set_loopback (DummyMidiBuffer const * const src);
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private:
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DummyMidiBuffer _buffer;
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DummyMidiBuffer _loopback;
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// midi event generator ('fake' physical inputs)
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void midi_generate (const pframes_t n_samples);
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float _midi_seq_spb; // samples per beat
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int64_t _midi_seq_time;
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uint32_t _midi_seq_pos;
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DummyMidiData::MIDISequence const * _midi_seq_dat;
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}; // class DummyMidiPort
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class DummyAudioBackend : public AudioBackend, public PortEngineSharedImpl
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{
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public:
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DummyAudioBackend (AudioEngine& e, AudioBackendInfo& info);
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~DummyAudioBackend ();
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bool is_running () const { return _running; }
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/* AUDIOBACKEND API */
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std::string name () const;
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bool is_realtime () const;
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bool requires_driver_selection() const { return true; }
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std::string driver_name () const;
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std::vector<std::string> enumerate_drivers () const;
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int set_driver (const std::string&);
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std::vector<DeviceStatus> enumerate_devices () const;
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std::vector<float> available_sample_rates (const std::string& device) const;
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std::vector<uint32_t> available_buffer_sizes (const std::string& device) const;
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bool can_change_sample_rate_when_running () const;
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bool can_change_buffer_size_when_running () const;
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bool can_measure_systemic_latency () const { return true; }
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int set_device_name (const std::string&);
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int set_sample_rate (float);
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int set_buffer_size (uint32_t);
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int set_interleaved (bool yn);
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int set_systemic_input_latency (uint32_t);
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int set_systemic_output_latency (uint32_t);
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int set_systemic_midi_input_latency (std::string const, uint32_t) { return 0; }
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int set_systemic_midi_output_latency (std::string const, uint32_t) { return 0; }
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int reset_device () { return 0; };
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/* Retrieving parameters */
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std::string device_name () const;
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float sample_rate () const;
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uint32_t buffer_size () const;
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bool interleaved () const;
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uint32_t systemic_input_latency () const;
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uint32_t systemic_output_latency () const;
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uint32_t systemic_midi_input_latency (std::string const) const { return 0; }
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uint32_t systemic_midi_output_latency (std::string const) const { return 0; }
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/* External control app */
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std::string control_app_name () const { return std::string (); }
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void launch_control_app () {}
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/* MIDI */
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std::vector<std::string> enumerate_midi_options () const;
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int set_midi_option (const std::string&);
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std::string midi_option () const;
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std::vector<DeviceStatus> enumerate_midi_devices () const {
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return std::vector<AudioBackend::DeviceStatus> ();
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}
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int set_midi_device_enabled (std::string const, bool) {
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return 0;
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}
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bool midi_device_enabled (std::string const) const {
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return true;
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}
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bool can_set_systemic_midi_latencies () const {
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return false;
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}
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/* State Control */
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protected:
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int _start (bool for_latency_measurement);
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public:
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int stop ();
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int freewheel (bool);
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float dsp_load () const;
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size_t raw_buffer_size (DataType t);
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/* Process time */
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samplepos_t sample_time ();
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samplepos_t sample_time_at_cycle_start ();
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pframes_t samples_since_cycle_start ();
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int create_process_thread (boost::function<void()> func);
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int join_process_threads ();
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bool in_process_thread ();
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uint32_t process_thread_count ();
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void update_latencies ();
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/* PORTENGINE API */
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void* private_handle () const;
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const std::string& my_name () const;
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/* PortEngine API - forwarded to PortEngineSharedImpl */
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bool port_is_physical (PortEngine::PortHandle ph) const { return PortEngineSharedImpl::port_is_physical (ph); }
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void get_physical_outputs (DataType type, std::vector<std::string>& results) { PortEngineSharedImpl::get_physical_outputs (type, results); }
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void get_physical_inputs (DataType type, std::vector<std::string>& results) { PortEngineSharedImpl::get_physical_inputs (type, results); }
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ChanCount n_physical_outputs () const { return PortEngineSharedImpl::n_physical_outputs (); }
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ChanCount n_physical_inputs () const { return PortEngineSharedImpl::n_physical_inputs (); }
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uint32_t port_name_size () const { return PortEngineSharedImpl::port_name_size(); }
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int set_port_name (PortEngine::PortHandle ph, const std::string& name) { return PortEngineSharedImpl::set_port_name (ph, name); }
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std::string get_port_name (PortEngine::PortHandle ph) const { return PortEngineSharedImpl::get_port_name (ph); }
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PortFlags get_port_flags (PortEngine::PortHandle ph) const { return PortEngineSharedImpl::get_port_flags (ph); }
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PortEngine::PortPtr get_port_by_name (std::string const & name) const { return PortEngineSharedImpl::get_port_by_name (name); }
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int get_port_property (PortEngine::PortHandle ph, const std::string& key, std::string& value, std::string& type) const { return PortEngineSharedImpl::get_port_property (ph, key, value, type); }
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int set_port_property (PortEngine::PortHandle ph, const std::string& key, const std::string& value, const std::string& type) { return PortEngineSharedImpl::set_port_property (ph, key, value, type); }
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int get_ports (const std::string& port_name_pattern, DataType type, PortFlags flags, std::vector<std::string>& results) const { return PortEngineSharedImpl::get_ports (port_name_pattern, type, flags, results); }
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DataType port_data_type (PortEngine::PortHandle ph) const { return PortEngineSharedImpl::port_data_type (ph); }
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PortEngine::PortPtr register_port (const std::string& shortname, ARDOUR::DataType type, ARDOUR::PortFlags flags) { return PortEngineSharedImpl::register_port (shortname, type, flags); }
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void unregister_port (PortHandle ph) { if (!_running) return; PortEngineSharedImpl::unregister_port (ph); }
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int connect (const std::string& src, const std::string& dst) { return PortEngineSharedImpl::connect (src, dst); }
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int disconnect (const std::string& src, const std::string& dst) { return PortEngineSharedImpl::disconnect (src, dst); }
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int connect (PortEngine::PortHandle ph, const std::string& other) { return PortEngineSharedImpl::connect (ph, other); }
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int disconnect (PortEngine::PortHandle ph, const std::string& other) { return PortEngineSharedImpl::disconnect (ph, other); }
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int disconnect_all (PortEngine::PortHandle ph) { return PortEngineSharedImpl::disconnect_all (ph); }
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bool connected (PortEngine::PortHandle ph, bool process_callback_safe) { return PortEngineSharedImpl::connected (ph, process_callback_safe); }
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bool connected_to (PortEngine::PortHandle ph, const std::string& other, bool process_callback_safe) { return PortEngineSharedImpl::connected_to (ph, other, process_callback_safe); }
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bool physically_connected (PortEngine::PortHandle ph, bool process_callback_safe) { return PortEngineSharedImpl::physically_connected (ph, process_callback_safe); }
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int get_connections (PortEngine::PortHandle ph, std::vector<std::string>& results, bool process_callback_safe) { return PortEngineSharedImpl::get_connections (ph, results, process_callback_safe); }
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/* MIDI */
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int midi_event_get (pframes_t& timestamp, size_t& size, uint8_t const** buf, void* port_buffer, uint32_t event_index);
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int midi_event_put (void* port_buffer, pframes_t timestamp, const uint8_t* buffer, size_t size);
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uint32_t get_midi_event_count (void* port_buffer);
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void midi_clear (void* port_buffer);
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/* Monitoring */
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bool can_monitor_input () const;
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int request_input_monitoring (PortHandle, bool);
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int ensure_input_monitoring (PortHandle, bool);
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bool monitoring_input (PortHandle);
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/* Latency management */
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void set_latency_range (PortHandle, bool for_playback, LatencyRange);
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LatencyRange get_latency_range (PortHandle, bool for_playback);
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/* Getting access to the data buffer for a port */
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void* get_buffer (PortHandle, pframes_t);
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void* main_process_thread ();
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static size_t max_buffer_size() {return _max_buffer_size;}
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private:
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enum MidiPortMode {
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MidiNoEvents,
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MidiGenerator,
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MidiOneHz,
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MidiLoopback,
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MidiToAudio,
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};
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struct DriverSpeed {
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std::string name;
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float speedup;
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bool realtime;
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DriverSpeed (const std::string& n, float s, bool r = false) : name (n), speedup (s), realtime (r) {}
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};
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std::string _instance_name;
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static std::vector<std::string> _midi_options;
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static std::vector<AudioBackend::DeviceStatus> _device_status;
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static std::vector<DummyAudioBackend::DriverSpeed> _driver_speed;
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bool _running;
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bool _freewheel;
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bool _freewheeling;
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bool _realtime;
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float _speedup;
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std::string _device;
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float _samplerate;
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size_t _samples_per_period;
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float _dsp_load;
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DSPLoadCalculator _dsp_load_calc;
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static size_t _max_buffer_size;
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uint32_t _n_inputs;
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uint32_t _n_outputs;
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uint32_t _n_midi_inputs;
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uint32_t _n_midi_outputs;
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MidiPortMode _midi_mode;
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uint32_t _systemic_input_latency;
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uint32_t _systemic_output_latency;
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samplecnt_t _processed_samples;
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pthread_t _main_thread;
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/* process threads */
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static void* dummy_process_thread (void *);
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std::vector<pthread_t> _threads;
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struct ThreadData {
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DummyAudioBackend* engine;
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boost::function<void ()> f;
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size_t stacksize;
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ThreadData (DummyAudioBackend* e, boost::function<void ()> fp, size_t stacksz)
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: engine (e) , f (fp) , stacksize (stacksz) {}
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};
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/* port engine */
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int register_system_ports ();
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BackendPort* port_factory (std::string const & name, ARDOUR::DataType type, ARDOUR::PortFlags);
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}; // class DummyAudioBackend
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} // namespace
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#endif /* __libbackend_dummy_audiobackend_h__ */
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