/* Copyright (C) 2000-2002 Paul Davis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #ifndef __ardour_route_h__ #define __ardour_route_h__ #include #include #include #include #include #include #include #include #include #include #include #include "pbd/fastlog.h" #include "pbd/xml++.h" #include "pbd/undo.h" #include "pbd/stateful.h" #include "pbd/controllable.h" #include "pbd/destructible.h" #include "ardour/ardour.h" #include "ardour/gain_control.h" #include "ardour/instrument_info.h" #include "ardour/io.h" #include "ardour/libardour_visibility.h" #include "ardour/types.h" #include "ardour/mute_master.h" #include "ardour/route_group_member.h" #include "ardour/graphnode.h" #include "ardour/automatable.h" #include "ardour/unknown_processor.h" namespace ARDOUR { class Amp; class DelayLine; class Delivery; class IOProcessor; class Panner; class PannerShell; class PortSet; class Processor; class RouteGroup; class Send; class InternalReturn; class MonitorProcessor; class Pannable; class CapturingProcessor; class InternalSend; class LIBARDOUR_API Route : public SessionObject, public Automatable, public RouteGroupMember, public GraphNode, public boost::enable_shared_from_this { public: typedef std::list > ProcessorList; enum Flag { Auditioner = 0x1, MasterOut = 0x2, MonitorOut = 0x4 }; Route (Session&, std::string name, Flag flags = Flag(0), DataType default_type = DataType::AUDIO); virtual ~Route(); virtual int init (); boost::shared_ptr input() const { return _input; } boost::shared_ptr output() const { return _output; } ChanCount n_inputs() const { return _input->n_ports(); } ChanCount n_outputs() const { return _output->n_ports(); } bool active() const { return _active; } void set_active (bool yn, void *); static std::string ensure_track_or_route_name(std::string, Session &); std::string comment() { return _comment; } void set_comment (std::string str, void *src); bool set_name (const std::string& str); static void set_name_in_state (XMLNode &, const std::string &, bool rename_playlist = true); uint32_t order_key () const; bool has_order_key () const; void set_order_key (uint32_t); bool is_auditioner() const { return _flags & Auditioner; } bool is_master() const { return _flags & MasterOut; } bool is_monitor() const { return _flags & MonitorOut; } 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, int declick, bool& need_butler); virtual int no_roll (pframes_t nframes, framepos_t start_frame, framepos_t end_frame, bool state_changing); virtual int silent_roll (pframes_t nframes, framepos_t start_frame, framepos_t end_frame, bool& need_butler); virtual bool can_record() { return false; } virtual void set_record_enabled (bool /*yn*/, PBD::Controllable::GroupControlDisposition) {} virtual bool record_enabled() const { return false; } virtual void set_record_safe (bool /*yn*/, PBD::Controllable::GroupControlDisposition) {} 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 () {} virtual void non_realtime_locate (framepos_t); virtual void set_pending_declick (int); /* end of vfunc-based API */ void shift (framepos_t, framecnt_t); void set_gain (gain_t val, PBD::Controllable::GroupControlDisposition); void inc_gain (gain_t delta); void set_trim (gain_t val, PBD::Controllable::GroupControlDisposition); void set_mute_points (MuteMaster::MutePoint); MuteMaster::MutePoint mute_points () const; bool muted () const; void set_mute (bool yn, PBD::Controllable::GroupControlDisposition); bool muted_by_others() const; /* controls use set_solo() to modify this route's solo state */ void set_solo (bool yn, PBD::Controllable::GroupControlDisposition group_override = PBD::Controllable::UseGroup); bool soloed () const { return self_soloed () || soloed_by_others (); } 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; } bool soloed_by_others_downstream () const { return _soloed_by_others_downstream; } bool self_soloed () const { return _self_solo; } void set_solo_isolated (bool yn, PBD::Controllable::GroupControlDisposition group_override = PBD::Controllable::UseGroup); bool solo_isolated() const; void set_solo_safe (bool yn, PBD::Controllable::GroupControlDisposition group_override = PBD::Controllable::UseGroup); bool solo_safe() const; void set_listen (bool yn, PBD::Controllable::GroupControlDisposition group_override = PBD::Controllable::UseGroup); bool listening_via_monitor () const; void enable_monitor_send (); void set_phase_invert (uint32_t, bool yn); void set_phase_invert (boost::dynamic_bitset<>); bool phase_invert (uint32_t) const; boost::dynamic_bitset<> phase_invert () const; void set_denormal_protection (bool yn); bool denormal_protection() const; void set_meter_point (MeterPoint, bool force = false); 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() const { return _amp; } boost::shared_ptr trim() const { return _trim; } PeakMeter& peak_meter() { return *_meter.get(); } const PeakMeter& peak_meter() const { return *_meter.get(); } boost::shared_ptr shared_peak_meter() const { return _meter; } boost::shared_ptr delay_line() const { return _delayline; } void flush_processors (); void foreach_processor (boost::function)> method) { Glib::Threads::RWLock::ReaderLock lm (_processor_lock); for (ProcessorList::iterator i = _processors.begin(); i != _processors.end(); ++i) { method (boost::weak_ptr (*i)); } } boost::shared_ptr nth_processor (uint32_t n) { Glib::Threads::RWLock::ReaderLock lm (_processor_lock); ProcessorList::iterator i; for (i = _processors.begin(); i != _processors.end() && n; ++i, --n) {} if (i == _processors.end()) { return boost::shared_ptr (); } else { return *i; } } boost::shared_ptr processor_by_id (PBD::ID) const; boost::shared_ptr nth_plugin (uint32_t n) const; boost::shared_ptr nth_send (uint32_t n) const; bool has_io_processor_named (const std::string&); ChanCount max_processor_streams () const { return processor_max_streams; } std::list unknown_processors () const; /* special processors */ boost::shared_ptr monitor_send() const { return _monitor_send; } boost::shared_ptr main_outs() const { return _main_outs; } boost::shared_ptr internal_return() const { return _intreturn; } boost::shared_ptr monitor_control() const { return _monitor_control; } boost::shared_ptr internal_send_for (boost::shared_ptr target) const; void add_internal_return (); void add_send_to_internal_return (InternalSend *); void remove_send_from_internal_return (InternalSend *); void listen_position_changed (); boost::shared_ptr add_export_point(/* Add some argument for placement later */); /** A record of the stream configuration at some point in the processor list. * Used to return where and why an processor list configuration request failed. */ struct ProcessorStreams { ProcessorStreams(size_t i=0, ChanCount c=ChanCount()) : index(i), count(c) {} uint32_t index; ///< Index of processor where configuration failed ChanCount count; ///< Input requested of processor }; int add_processor (boost::shared_ptr, Placement placement, ProcessorStreams* err = 0, bool activation_allowed = true); int add_processor_by_index (boost::shared_ptr, int, ProcessorStreams* err = 0, bool activation_allowed = true); int add_processor (boost::shared_ptr, boost::shared_ptr, ProcessorStreams* err = 0, bool activation_allowed = true); int add_processors (const ProcessorList&, boost::shared_ptr, ProcessorStreams* err = 0); boost::shared_ptr before_processor_for_placement (Placement); boost::shared_ptr before_processor_for_index (int); bool processors_reorder_needs_configure (const ProcessorList& new_order); int remove_processor (boost::shared_ptr, 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); void disable_processors (Placement); void disable_processors (); void disable_plugins (Placement); void disable_plugins (); void ab_plugins (bool forward); void clear_processors (Placement); void all_visible_processors_active (bool); framecnt_t set_private_port_latencies (bool playback) const; void set_public_port_latencies (framecnt_t, bool playback) const; framecnt_t update_signal_latency(); virtual void set_latency_compensation (framecnt_t); void set_user_latency (framecnt_t); framecnt_t initial_delay() const { return _initial_delay; } framecnt_t signal_latency() const { return _signal_latency; } PBD::Signal0 active_changed; PBD::Signal0 phase_invert_changed; PBD::Signal0 denormal_protection_changed; PBD::Signal1 listen_changed; PBD::Signal2 solo_changed; PBD::Signal0 solo_safe_changed; PBD::Signal0 solo_isolated_changed; PBD::Signal0 comment_changed; PBD::Signal0 mute_changed; PBD::Signal0 mute_points_changed; /** track numbers - assigned by session * nubers > 0 indicate tracks (audio+midi) * nubers < 0 indicate busses * zero is reserved for unnumbered special busses. * */ PBD::Signal0 track_number_changed; int64_t track_number() const { return _track_number; } void set_track_number(int64_t tn) { if (tn == _track_number) { return; } _track_number = tn; track_number_changed(); PropertyChanged (ARDOUR::Properties::name); } /** the processors have changed; the parameter indicates what changed */ PBD::Signal1 processors_changed; PBD::Signal1 record_enable_changed; /** the metering point has changed */ PBD::Signal0 meter_change; PBD::Signal0 signal_latency_changed; PBD::Signal0 initial_delay_changed; /** Emitted with the process lock held */ PBD::Signal0 io_changed; /* gui's call this for their own purposes. */ PBD::Signal2 gui_changed; /* stateful */ XMLNode& get_state(); virtual int set_state (const XMLNode&, int version); virtual XMLNode& get_template(); XMLNode& get_processor_state (); virtual void set_processor_state (const XMLNode&); int save_as_template (const std::string& path, const std::string& name); PBD::Signal1 SelectedChanged; int add_aux_send (boost::shared_ptr, boost::shared_ptr); void remove_aux_or_listen (boost::shared_ptr); /** * return true if this route feeds the first argument via at least one * (arbitrarily long) signal pathway. */ bool feeds (boost::shared_ptr, bool* via_send_only = 0); /** * return true if this route feeds the first argument directly, via * either its main outs or a send. This is checked by the actual * connections, rather than by what the graph is currently doing. */ bool direct_feeds_according_to_reality (boost::shared_ptr, bool* via_send_only = 0); /** * return true if this route feeds the first argument directly, via * either its main outs or a send, according to the graph that * is currently being processed. */ bool direct_feeds_according_to_graph (boost::shared_ptr, bool* via_send_only = 0); struct FeedRecord { boost::weak_ptr r; bool sends_only; FeedRecord (boost::shared_ptr rp, bool sendsonly) : r (rp) , sends_only (sendsonly) {} }; struct FeedRecordCompare { bool operator() (const FeedRecord& a, const FeedRecord& b) const { return a.r < b.r; } }; typedef std::set FedBy; const FedBy& fed_by() const { return _fed_by; } void clear_fed_by (); bool add_fed_by (boost::shared_ptr, bool sends_only); /* Controls (not all directly owned by the Route) */ boost::shared_ptr get_control (const Evoral::Parameter& param); class RouteAutomationControl : public AutomationControl { public: RouteAutomationControl (const std::string& name, AutomationType atype, boost::shared_ptr alist, boost::shared_ptr route); RouteAutomationControl (const std::string& name, AutomationType atype, const ParameterDescriptor& descriptor, boost::shared_ptr alist, boost::shared_ptr route); protected: friend class Route; void route_set_value (double val) { AutomationControl::set_value (val, Controllable::NoGroup); } boost::weak_ptr _route; }; class GainControllable : public GainControl { public: GainControllable (Session& session, AutomationType type, boost::shared_ptr route); void set_value (double val, PBD::Controllable::GroupControlDisposition group_override) { boost::shared_ptr r = _route.lock(); if (r) { /* Route must mediate group control */ r->set_control ((AutomationType) parameter().type(), val, group_override); } } protected: friend class Route; void route_set_value (double val) { GainControl::set_value (val, Controllable::NoGroup); } boost::weak_ptr _route; }; class SoloControllable : public RouteAutomationControl { public: SoloControllable (std::string name, boost::shared_ptr); void set_value (double, PBD::Controllable::GroupControlDisposition group_override); void set_value_unchecked (double); double get_value () const; private: void _set_value (double, PBD::Controllable::GroupControlDisposition group_override); }; struct MuteControllable : public RouteAutomationControl { public: MuteControllable (std::string name, boost::shared_ptr); void set_value (double, PBD::Controllable::GroupControlDisposition group_override); void set_value_unchecked (double); double get_value () const; /* Pretend to change value, but do not affect actual route mute. */ void set_superficial_value(bool muted); private: boost::weak_ptr _route; void _set_value (double, PBD::Controllable::GroupControlDisposition group_override); }; class LIBARDOUR_API PhaseControllable : public RouteAutomationControl { public: PhaseControllable (std::string name, boost::shared_ptr); void set_value (double, PBD::Controllable::GroupControlDisposition group_override); /* currently no automation, so no need for set_value_unchecked() */ void set_channel (uint32_t); double get_value () const; uint32_t channel() const; private: uint32_t _current_phase; void _set_value (double, PBD::Controllable::GroupControlDisposition group_override); }; class LIBARDOUR_API SoloIsolateControllable : public RouteAutomationControl { public: SoloIsolateControllable (std::string name, boost::shared_ptr); void set_value (double, PBD::Controllable::GroupControlDisposition group_override); /* currently no automation, so no need for set_value_unchecked() */ double get_value () const; private: void _set_value (double, PBD::Controllable::GroupControlDisposition group_override); static ParameterDescriptor get_descriptor (); }; class LIBARDOUR_API SoloSafeControllable : public RouteAutomationControl { public: SoloSafeControllable (std::string name, boost::shared_ptr); void set_value (double, PBD::Controllable::GroupControlDisposition group_override); /* currently no automation, so no need for set_value_unchecked() */ double get_value () const; private: void _set_value (double, PBD::Controllable::GroupControlDisposition group_override); static ParameterDescriptor get_descriptor (); }; void set_control (AutomationType, double val, PBD::Controllable::GroupControlDisposition group_override); boost::shared_ptr solo_control() const { return _solo_control; } boost::shared_ptr mute_control() const { return _mute_control; } boost::shared_ptr mute_master() const { return _mute_master; } boost::shared_ptr phase_control() const { return _phase_control; } boost::shared_ptr solo_isolate_control() const { return _solo_isolate_control; } boost::shared_ptr solo_safe_control() const { return _solo_safe_control; } boost::shared_ptr monitoring_control() const { /* tracks override this to provide actual monitoring control; busses have no possible choices except input monitoring. */ return boost::shared_ptr (); } /* 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 panner() const; /* may return null */ boost::shared_ptr panner_shell() const; boost::shared_ptr gain_control() const; boost::shared_ptr pannable() const; boost::shared_ptr trim_control() const; /** Return the first processor that accepts has at least one MIDI input and at least one audio output. In the vast majority of cases, this will be "the instrument". This does not preclude other MIDI->audio processors later in the processing chain, but that would be a special case not covered by this utility function. */ boost::shared_ptr the_instrument() const; InstrumentInfo& instrument_info() { return _instrument_info; } /* "well-known" controls for panning. Any or all of these may return * null. */ boost::shared_ptr pan_azimuth_control() const; boost::shared_ptr pan_elevation_control() const; boost::shared_ptr pan_width_control() const; boost::shared_ptr pan_frontback_control() const; boost::shared_ptr pan_lfe_control() const; /* "well-known" controls for an EQ in this route. Any or all may * be null. eq_band_cnt() must return 0 if there is no EQ present. * Passing an @param band value >= eq_band_cnt() will guarantee the * return of a null ptr (or an empty string for eq_band_name()). */ uint32_t eq_band_cnt () const; std::string eq_band_name (uint32_t) const; boost::shared_ptr eq_gain_controllable (uint32_t band) const; boost::shared_ptr eq_freq_controllable (uint32_t band) const; boost::shared_ptr eq_q_controllable (uint32_t band) const; boost::shared_ptr eq_shape_controllable (uint32_t band) const; boost::shared_ptr eq_enable_controllable () const; boost::shared_ptr eq_hpf_controllable () const; /* "well-known" controls for a compressor in this route. Any or all may * be null. */ boost::shared_ptr comp_enable_controllable () const; boost::shared_ptr comp_threshold_controllable () const; boost::shared_ptr comp_speed_controllable () const; boost::shared_ptr comp_mode_controllable () const; boost::shared_ptr comp_makeup_controllable () const; boost::shared_ptr comp_redux_controllable () const; /* @param mode must be supplied by the comp_mode_controllable(). All other values * result in undefined behaviour */ std::string comp_mode_name (uint32_t mode) const; /* @param mode - as for comp mode name. This returns the name for the * parameter/control accessed via comp_speed_controllable(), which can * be mode dependent. */ std::string comp_speed_name (uint32_t mode) const; /* "well-known" controls for sends to well-known busses in this route. Any or all may * be null. * * In Mixbus, these are the sends that connect to the mixbusses. * In Ardour, these are user-created sends that connect to user-created * Aux busses. */ boost::shared_ptr send_level_controllable (uint32_t n) const; boost::shared_ptr send_enable_controllable (uint32_t n) const; /* for the same value of @param n, this returns the name of the send * associated with the pair of controllables returned by the above two methods. */ std::string send_name (uint32_t n) const; /* well known control that enables/disables sending to the master bus. * * In Ardour, this returns null. * In Mixbus, it will return a suitable control, or null depending on * the route. */ boost::shared_ptr master_send_enable_controllable () const; void protect_automation (); enum { /* These numbers are taken from MIDI Machine Control, which can only control up to 317 tracks without doing sysex segmentation. */ MasterBusRemoteControlID = 318, MonitorBusRemoteControlID = 319, }; void set_remote_control_id (uint32_t id, bool notify_class_listeners = true); uint32_t remote_control_id () const; void set_remote_control_id_explicit (uint32_t order_key); /* for things concerned about *this* route's RID */ PBD::Signal0 RemoteControlIDChanged; /* for things concerned about *any* route's RID changes */ static PBD::Signal0 RemoteControlIDChange; static PBD::Signal0 SyncOrderKeys; bool has_external_redirects() const; /* can only be executed by a route for which is_monitor() is true (i.e. the monitor out) */ void monitor_run (framepos_t start_frame, framepos_t end_frame, pframes_t nframes, int declick); protected: friend class Session; void catch_up_on_solo_mute_override (); void mod_solo_by_others_upstream (int32_t); void mod_solo_by_others_downstream (int32_t); void curve_reallocate (); virtual void set_block_size (pframes_t nframes); protected: virtual framecnt_t check_initial_delay (framecnt_t nframes, framepos_t&) { return nframes; } void fill_buffers_with_input (BufferSet& bufs, boost::shared_ptr io, pframes_t nframes); void passthru (BufferSet&, framepos_t start_frame, framepos_t end_frame, pframes_t nframes, int declick); virtual void write_out_of_band_data (BufferSet& /* bufs */, framepos_t /* start_frame */, framepos_t /* end_frame */, framecnt_t /* nframes */) {} virtual void process_output_buffers (BufferSet& bufs, framepos_t start_frame, framepos_t end_frame, pframes_t nframes, int declick, bool gain_automation_ok); virtual void bounce_process (BufferSet& bufs, framepos_t start_frame, framecnt_t nframes, boost::shared_ptr endpoint, bool include_endpoint, bool for_export, bool for_freeze); framecnt_t bounce_get_latency (boost::shared_ptr endpoint, bool include_endpoint, bool for_export, bool for_freeze) const; ChanCount bounce_get_output_streams (ChanCount &cc, boost::shared_ptr endpoint, bool include_endpoint, bool for_export, bool for_freeze) const; boost::shared_ptr _input; boost::shared_ptr _output; 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; ProcessorList _processors; mutable Glib::Threads::RWLock _processor_lock; boost::shared_ptr _main_outs; boost::shared_ptr _monitor_send; boost::shared_ptr _intreturn; boost::shared_ptr _monitor_control; boost::shared_ptr _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; bool _solo_isolated; uint32_t _solo_isolated_by_upstream; void mod_solo_isolated_by_upstream (bool); bool _denormal_protection; bool _recordable : 1; bool _silent : 1; bool _declickable : 1; boost::shared_ptr _solo_control; boost::shared_ptr _mute_control; boost::shared_ptr _mute_master; boost::shared_ptr _phase_control; boost::shared_ptr _solo_isolate_control; boost::shared_ptr _solo_safe_control; virtual void act_on_mute () {} std::string _comment; bool _have_internal_generator; bool _solo_safe; DataType _default_type; FedBy _fed_by; InstrumentInfo _instrument_info; virtual ChanCount input_streams () const; protected: virtual XMLNode& state(bool); int configure_processors (ProcessorStreams*); void passthru_silence (framepos_t start_frame, framepos_t end_frame, pframes_t nframes, int declick); void silence (framecnt_t); void silence_unlocked (framecnt_t); ChanCount processor_max_streams; ChanCount processor_out_streams; uint32_t pans_required() const; ChanCount n_process_buffers (); virtual void maybe_declick (BufferSet&, framecnt_t, int); boost::shared_ptr _gain_control; boost::shared_ptr _amp; boost::shared_ptr _trim_control; boost::shared_ptr _trim; boost::shared_ptr _meter; boost::shared_ptr _delayline; boost::shared_ptr the_instrument_unlocked() const; private: int set_state_2X (const XMLNode&, int); void set_processor_state_2X (XMLNodeList const &, int); uint32_t _order_key; bool _has_order_key; uint32_t _remote_control_id; int64_t _track_number; void input_change_handler (IOChange, void *src); void output_change_handler (IOChange, void *src); bool input_port_count_changing (ChanCount); bool output_port_count_changing (ChanCount); bool _in_configure_processors; bool _initial_io_setup; int configure_processors_unlocked (ProcessorStreams*); bool set_meter_point_unlocked (); void apply_processor_order (const ProcessorList& new_order); std::list > try_configure_processors (ChanCount, ProcessorStreams *); std::list > try_configure_processors_unlocked (ChanCount, ProcessorStreams *); bool add_processor_from_xml_2X (const XMLNode&, int); void placement_range (Placement p, ProcessorList::iterator& start, ProcessorList::iterator& end); void set_self_solo (bool yn); void set_mute_master_solo (); void set_processor_positions (); framecnt_t update_port_latencies (PortSet& ports, PortSet& feeders, bool playback, framecnt_t) const; void setup_invisible_processors (); void unpan (); void set_plugin_state_dir (boost::weak_ptr, const std::string&); boost::shared_ptr _capturing_processor; /** A handy class to keep processor state while we attempt a reconfiguration * that may fail. */ class ProcessorState { public: ProcessorState (Route* r) : _route (r) , _processors (r->_processors) , _processor_max_streams (r->processor_max_streams) { } void restore () { _route->_processors = _processors; _route->processor_max_streams = _processor_max_streams; } private: /* this should perhaps be a shared_ptr, but ProcessorStates will not hang around long enough for it to matter. */ Route* _route; ProcessorList _processors; ChanCount _processor_max_streams; }; friend class ProcessorState; /* no copy construction */ 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_after_last_custom_meter; void reset_instrument_info (); void set_remote_control_id_internal (uint32_t id, bool notify_class_listeners = true); }; } // namespace ARDOUR #endif /* __ardour_route_h__ */