virtual MonitorState monitoring_state () const;
virtual MeterState metering_state () const;
-
+
/* these are the core of the API of a Route. see the protected sections as well */
virtual int roll (pframes_t nframes, framepos_t start_frame, framepos_t end_frame,
virtual void set_record_enabled (bool /*yn*/, void * /*src*/) {}
virtual bool record_enabled() const { return false; }
+ virtual void set_record_safe (bool yn, void *src) {}
+ virtual bool record_safe () const {return false; }
virtual void nonrealtime_handle_transport_stopped (bool abort, bool did_locate, bool flush_processors);
virtual void realtime_handle_transport_stopped () {}
virtual void realtime_locate () {}
void set_gain (gain_t val, void *src);
void inc_gain (gain_t delta, void *src);
+ void set_trim (gain_t val, void *src);
+ void inc_trim (gain_t delta, void *src);
+
void set_mute_points (MuteMaster::MutePoint);
MuteMaster::MutePoint mute_points () const;
bool muted () const;
void set_mute (bool yn, void* src);
-
+
+ bool muted_by_others() const;
+
/* controls use set_solo() to modify this route's solo state
*/
- void set_solo (bool yn, void *src);
+ void set_solo (bool yn, void *src, bool group_override = false);
bool soloed () const { return self_soloed () || soloed_by_others (); }
- void cancel_solo_after_disconnect (bool upstream);
+ void clear_all_solo_state ();
bool soloed_by_others () const { return _soloed_by_others_upstream||_soloed_by_others_downstream; }
bool soloed_by_others_upstream () const { return _soloed_by_others_upstream; }
void set_solo_safe (bool yn, void *src);
bool solo_safe() const;
- void set_listen (bool yn, void* src);
+ void set_listen (bool yn, void* src, bool group_override = false);
bool listening_via_monitor () const;
void enable_monitor_send ();
bool denormal_protection() const;
void set_meter_point (MeterPoint, bool force = false);
- MeterPoint meter_point() const { return _meter_point; }
- void meter ();
+ bool apply_processor_changes_rt ();
+ void emit_pending_signals ();
+ MeterPoint meter_point() const { return _pending_meter_point; }
void set_meter_type (MeterType t) { _meter_type = t; }
MeterType meter_type() const { return _meter_type; }
/* Processors */
boost::shared_ptr<Amp> amp() const { return _amp; }
+ boost::shared_ptr<Amp> trim() const { return _trim; }
PeakMeter& peak_meter() { return *_meter.get(); }
const PeakMeter& peak_meter() const { return *_meter.get(); }
boost::shared_ptr<PeakMeter> shared_peak_meter() const { return _meter; }
void foreach_processor (boost::function<void(boost::weak_ptr<Processor>)> method) {
Glib::Threads::RWLock::ReaderLock lm (_processor_lock);
for (ProcessorList::iterator i = _processors.begin(); i != _processors.end(); ++i) {
- if (boost::dynamic_pointer_cast<UnknownProcessor> (*i)) {
- break;
- }
method (boost::weak_ptr<Processor> (*i));
}
}
int add_processors (const ProcessorList&, boost::shared_ptr<Processor>, ProcessorStreams* err = 0);
boost::shared_ptr<Processor> before_processor_for_placement (Placement);
boost::shared_ptr<Processor> before_processor_for_index (int);
+ bool processors_reorder_needs_configure (const ProcessorList& new_order);
int remove_processor (boost::shared_ptr<Processor>, ProcessorStreams* err = 0, bool need_process_lock = true);
int remove_processors (const ProcessorList&, ProcessorStreams* err = 0);
int reorder_processors (const ProcessorList& new_order, ProcessorStreams* err = 0);
PBD::Signal0<void> active_changed;
PBD::Signal0<void> phase_invert_changed;
PBD::Signal0<void> denormal_protection_changed;
- PBD::Signal1<void,void*> listen_changed;
- PBD::Signal2<void,bool,void*> solo_changed;
+ PBD::Signal2<void,void*,bool> listen_changed;
+ PBD::Signal3<void,bool,void*,bool> solo_changed;
PBD::Signal1<void,void*> solo_safe_changed;
PBD::Signal1<void,void*> solo_isolated_changed;
PBD::Signal1<void,void*> comment_changed;
public:
SoloControllable (std::string name, boost::shared_ptr<Route>);
void set_value (double);
+ void set_value_unchecked (double);
double get_value () const;
private:
public:
MuteControllable (std::string name, boost::shared_ptr<Route>);
void set_value (double);
+ void set_value_unchecked (double);
double get_value () const;
/* Pretend to change value, but do not affect actual route mute. */
boost::weak_ptr<Route> _route;
};
+ class PhaseControllable : public AutomationControl {
+ public:
+ PhaseControllable (std::string name, boost::shared_ptr<Route>);
+ void set_value (double);
+ void set_channel (int);
+ double get_value () const;
+ int channel() const;
+
+ private:
+ boost::weak_ptr<Route> _route;
+ int _current_phase;
+ };
+
+
boost::shared_ptr<SoloControllable> solo_control() const {
return _solo_control;
}
return _mute_master;
}
+ boost::shared_ptr<PhaseControllable> phase_control() const {
+ return _phase_control;
+ }
+
/* Route doesn't own these items, but sub-objects that it does own have them
and to make UI code a bit simpler, we provide direct access to them
here.
boost::shared_ptr<PannerShell> panner_shell() const;
boost::shared_ptr<AutomationControl> gain_control() const;
boost::shared_ptr<Pannable> pannable() const;
+ boost::shared_ptr<AutomationControl> trim_control() const;
/**
Return the first processor that accepts has at least one MIDI input
void protect_automation ();
- enum {
+ enum {
/* These numbers are taken from MIDI Machine Control,
which can only control up to 317 tracks without
doing sysex segmentation.
bool _active;
framecnt_t _signal_latency;
framecnt_t _signal_latency_at_amp_position;
+ framecnt_t _signal_latency_at_trim_position;
framecnt_t _initial_delay;
framecnt_t _roll_delay;
boost::shared_ptr<MonitorProcessor> _monitor_control;
boost::shared_ptr<Pannable> _pannable;
+ enum {
+ EmitNone = 0x00,
+ EmitMeterChanged = 0x01,
+ EmitMeterVisibilityChange = 0x02,
+ EmitRtProcessorChange = 0x04
+ };
+
+ ProcessorList _pending_processor_order;
+ gint _pending_process_reorder; // atomic
+ gint _pending_signals; // atomic
+
Flag _flags;
int _pending_declick;
MeterPoint _meter_point;
+ MeterPoint _pending_meter_point;
MeterType _meter_type;
boost::dynamic_bitset<> _phase_invert;
bool _self_solo;
uint32_t _soloed_by_others_upstream;
uint32_t _soloed_by_others_downstream;
- uint32_t _solo_isolated;
+ bool _solo_isolated;
+ uint32_t _solo_isolated_by_upstream;
+
+ void mod_solo_isolated_by_upstream (bool, void*);
bool _denormal_protection;
boost::shared_ptr<SoloControllable> _solo_control;
boost::shared_ptr<MuteControllable> _mute_control;
boost::shared_ptr<MuteMaster> _mute_master;
+ boost::shared_ptr<PhaseControllable> _phase_control;
virtual void act_on_mute () {}
virtual void maybe_declick (BufferSet&, framecnt_t, int);
boost::shared_ptr<Amp> _amp;
+ boost::shared_ptr<Amp> _trim;
boost::shared_ptr<PeakMeter> _meter;
boost::shared_ptr<DelayLine> _delayline;
bool _initial_io_setup;
int configure_processors_unlocked (ProcessorStreams*);
+ bool set_meter_point_unlocked ();
+ void apply_processor_order (const ProcessorList& new_order);
+
std::list<std::pair<ChanCount, ChanCount> > try_configure_processors (ChanCount, ProcessorStreams *);
std::list<std::pair<ChanCount, ChanCount> > try_configure_processors_unlocked (ChanCount, ProcessorStreams *);
Route (Route const &);
void maybe_note_meter_position ();
-
+
/** true if we've made a note of a custom meter position in these variables */
bool _custom_meter_position_noted;
/** the processor that came after the meter when it was last set to a custom position,
or 0.
*/
boost::weak_ptr<Processor> _processor_after_last_custom_meter;
- /** true if the last custom meter position was at the end of the processor list */
- bool _last_custom_meter_was_at_end;
void reset_instrument_info ();