/[svn]/linuxsampler/trunk/src/engines/AbstractEngineChannel.cpp

Diff of /linuxsampler/trunk/src/engines/AbstractEngineChannel.cpp

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-revision 2382 by persson,
Sun Dec  2 16:30:42 2012 UTC
+revision 2948 by schoenebeck,
Fri Jul 15 15:29:04 2016 UTC
 Line 5
   *   Copyright (C) 2003,2004 by Benno Senoner and Christian Schoenebeck    *
   *   Copyright (C) 2005-2008 Christian Schoenebeck                         *
   *   Copyright (C) 2009-2012 Christian Schoenebeck and Grigor Iliev        *
+  *   Copyright (C) 2012-2016 Christian Schoenebeck and Andreas Persson     *
   *                                                                         *
   *   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  *
-Line 34 
 namespace LinuxSampler {
+Line 35 
 namespace LinuxSampler {
      {
          pEngine      = NULL;
          pEvents      = NULL; // we allocate when we retrieve the right Engine object
+         delayedEvents.pList = NULL;
          pEventQueue  = new RingBuffer<Event,false>(CONFIG_MAX_EVENTS_PER_FRAGMENT, 0);
          InstrumentIdx  = -1;
          InstrumentStat = -1;
-Line 41 
 namespace LinuxSampler {
+Line 43 
 namespace LinuxSampler {
          pChannelRight = NULL;
          AudioDeviceChannelLeft  = -1;
          AudioDeviceChannelRight = -1;
-         pMidiInputPort = NULL;
          midiChannel = midi_chan_all;
          ResetControllers();
          PortamentoMode = false;
          PortamentoTime = CONFIG_PORTAMENTO_TIME_DEFAULT;
+         pScript = NULL;
      }
      AbstractEngineChannel::~AbstractEngineChannel() {
-Line 100 
 namespace LinuxSampler {
+Line 102 
 namespace LinuxSampler {
      void AbstractEngineChannel::Reset() {
          if (pEngine) pEngine->DisableAndLock();
-         ResetInternal();
+         ResetInternal(false/*don't reset engine*/);
          ResetControllers();
          if (pEngine) {
              pEngine->Enable();
-Line 128 
 namespace LinuxSampler {
+Line 130 
 namespace LinuxSampler {
      /**
       * This method is not thread safe!
       */
-     void AbstractEngineChannel::ResetInternal() {
+     void AbstractEngineChannel::ResetInternal(bool bResetEngine) {
          CurrentKeyDimension = 0;
          PortamentoPos = -1.0f; // no portamento active yet
+         // delete all active instrument script events
+         if (pScript) pScript->resetEvents();
+         // free all delayed MIDI events
+         delayedEvents.clear();
          // delete all input events
          pEventQueue->init();
-         if (pEngine) pEngine->ResetInternal();
+         if (bResetEngine && pEngine) pEngine->ResetInternal();
          // status of engine channel has changed, so set notify flag
          bStatusChanged = true;
-Line 192 
 namespace LinuxSampler {
+Line 200 
 namespace LinuxSampler {
       * device from other threads than the lscp thread.
       */
      AudioOutputDevice* AbstractEngineChannel::GetAudioOutputDeviceSafe() {
-         EngineMutex.Lock();
+         LockGuard lock(EngineMutex);
-         AudioOutputDevice* res = GetAudioOutputDevice();
+         return GetAudioOutputDevice();
-         EngineMutex.Unlock();
-         return res;
      }
      void AbstractEngineChannel::SetOutputChannel(uint EngineAudioChannel, uint AudioDeviceChannel) {
-Line 230 
 namespace LinuxSampler {
+Line 236 
 namespace LinuxSampler {
          }
      }
+     void AbstractEngineChannel::Connect(MidiInputPort* pMidiPort) {
+         if (!pMidiPort) return;
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         // check if connection already exists
+         for (int i = 0; i < connections->size(); ++i)
+             if ((*connections)[i] == pMidiPort)
+                 return; // to avoid endless recursion
+         connections->add(pMidiPort);
+         // inform MIDI port about this new connection
+         pMidiPort->Connect(this, MidiChannel());
+     }
+     void AbstractEngineChannel::Disconnect(MidiInputPort* pMidiPort) {
+         if (!pMidiPort) return;
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         for (int i = 0; i < connections->size(); ++i) {
+             if ((*connections)[i] == pMidiPort) {
+                 connections->remove(i);
+                 // inform MIDI port about this disconnection
+                 pMidiPort->Disconnect(this);
+                 return;
+             }
+         }
+     }
+     void AbstractEngineChannel::DisconnectAllMidiInputPorts() {
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         ArrayList<MidiInputPort*> clonedList = *connections;
+         connections->clear();
+         for (int i = 0; i < clonedList.size(); ++i) clonedList[i]->Disconnect(this);
+     }
+     uint AbstractEngineChannel::GetMidiInputPortCount() {
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         return connections->size();
+     }
+     MidiInputPort* AbstractEngineChannel::GetMidiInputPort(uint index) {
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         return (index < connections->size()) ? (*connections)[index] : NULL;
+     }
+     // deprecated (just for API backward compatibility) - may be removed in future
      void AbstractEngineChannel::Connect(MidiInputPort* pMidiPort, midi_chan_t MidiChannel) {
-         if (!pMidiPort || pMidiPort == this->pMidiInputPort) return;
+         if (!pMidiPort) return;
-         DisconnectMidiInputPort();
-         this->pMidiInputPort = pMidiPort;
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
-         this->midiChannel    = MidiChannel;
+         // check against endless recursion
+         if (connections->size() == 1 && (*connections)[0] == pMidiPort && this->midiChannel == MidiChannel)
+             return;
+         if (!isValidMidiChan(MidiChannel))
+             throw MidiInputException("Invalid MIDI channel (" + ToString(int(MidiChannel)) + ")");
+         this->midiChannel = MidiChannel;
+         // disconnect all currently connected MIDI ports
+         ArrayList<MidiInputPort*> clonedList = *connections;
+         connections->clear();
+         for (int i = 0; i < clonedList.size(); ++i)
+             clonedList[i]->Disconnect(this);
+         // connect the new port
+         connections->add(pMidiPort);
          pMidiPort->Connect(this, MidiChannel);
      }
+     // deprecated (just for API backward compatibility) - may be removed in future
      void AbstractEngineChannel::DisconnectMidiInputPort() {
-         MidiInputPort* pOldPort = this->pMidiInputPort;
+         DisconnectAllMidiInputPorts();
-         this->pMidiInputPort = NULL;
-         if (pOldPort) pOldPort->Disconnect(this);
      }
+     // deprecated (just for API backward compatibility) - may be removed in future
      MidiInputPort* AbstractEngineChannel::GetMidiInputPort() {
-         return pMidiInputPort;
+         return GetMidiInputPort(0);
      }
      midi_chan_t AbstractEngineChannel::MidiChannel() {
          return midiChannel;
      }
+     void AbstractEngineChannel::SetMidiChannel(midi_chan_t MidiChannel) {
+         if (this->midiChannel == MidiChannel) return;
+         if (!isValidMidiChan(MidiChannel))
+             throw MidiInputException("Invalid MIDI channel (" + ToString(int(MidiChannel)) + ")");
+         this->midiChannel = MidiChannel;
+         Sync< ArrayList<MidiInputPort*> > connections = midiInputs.back();
+         ArrayList<MidiInputPort*> clonedList = *connections;
+         DisconnectAllMidiInputPorts();
+         for (int i = 0; i < clonedList.size(); ++i) Connect(clonedList[i]);
+     }
      void AbstractEngineChannel::Connect(VirtualMidiDevice* pDevice) {
          // double buffer ... double work ...
          {
-Line 287 
 namespace LinuxSampler {
+Line 374 
 namespace LinuxSampler {
       */
      void AbstractEngineChannel::SendNoteOn(uint8_t Key, uint8_t Velocity, uint8_t MidiChannel) {
          if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent();
              event.Type                = Event::type_note_on;
              event.Param.Note.Key      = Key;
-Line 324 
 namespace LinuxSampler {
+Line 415 
 namespace LinuxSampler {
              dmsg(1,("EngineChannel::SendNoteOn(): negative FragmentPos! Seems MIDI driver is buggy!"));
          }
          else if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent(FragmentPos);
              event.Type                = Event::type_note_on;
              event.Param.Note.Key      = Key;
-Line 356 
 namespace LinuxSampler {
+Line 451 
 namespace LinuxSampler {
       */
      void AbstractEngineChannel::SendNoteOff(uint8_t Key, uint8_t Velocity, uint8_t MidiChannel) {
          if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent();
              event.Type                = Event::type_note_off;
              event.Param.Note.Key      = Key;
-Line 393 
 namespace LinuxSampler {
+Line 492 
 namespace LinuxSampler {
              dmsg(1,("EngineChannel::SendNoteOff(): negative FragmentPos! Seems MIDI driver is buggy!"));
          }
          else if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent(FragmentPos);
              event.Type                = Event::type_note_off;
              event.Param.Note.Key      = Key;
-Line 424 
 namespace LinuxSampler {
+Line 527 
 namespace LinuxSampler {
       */
      void AbstractEngineChannel::SendPitchbend(int Pitch, uint8_t MidiChannel) {
          if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event             = pEngine->pEventGenerator->CreateEvent();
              event.Type              = Event::type_pitchbend;
              event.Param.Pitch.Pitch = Pitch;
-Line 449 
 namespace LinuxSampler {
+Line 556 
 namespace LinuxSampler {
              dmsg(1,("AbstractEngineChannel::SendPitchBend(): negative FragmentPos! Seems MIDI driver is buggy!"));
          }
          else if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event             = pEngine->pEventGenerator->CreateEvent(FragmentPos);
              event.Type              = Event::type_pitchbend;
              event.Param.Pitch.Pitch = Pitch;
-Line 470 
 namespace LinuxSampler {
+Line 581 
 namespace LinuxSampler {
       */
      void AbstractEngineChannel::SendControlChange(uint8_t Controller, uint8_t Value, uint8_t MidiChannel) {
          if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent();
              event.Type                = Event::type_control_change;
              event.Param.CC.Controller = Controller;
-Line 497 
 namespace LinuxSampler {
+Line 612 
 namespace LinuxSampler {
              dmsg(1,("AbstractEngineChannel::SendControlChange(): negative FragmentPos! Seems MIDI driver is buggy!"));
          }
          else if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
              Event event               = pEngine->pEventGenerator->CreateEvent(FragmentPos);
              event.Type                = Event::type_control_change;
              event.Param.CC.Controller = Controller;
-Line 508 
 namespace LinuxSampler {
+Line 627 
 namespace LinuxSampler {
          }
      }
+     void AbstractEngineChannel::SendChannelPressure(uint8_t Value, uint8_t MidiChannel) {
+         if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
+             Event event = pEngine->pEventGenerator->CreateEvent();
+             event.Type                          = Event::type_channel_pressure;
+             event.Param.ChannelPressure.Controller = CTRL_TABLE_IDX_AFTERTOUCH; // required for instrument scripts
+             event.Param.ChannelPressure.Value   = Value;
+             event.Param.ChannelPressure.Channel = MidiChannel;
+             event.pEngineChannel                = this;
+             if (this->pEventQueue->write_space() > 0) this->pEventQueue->push(&event);
+             else dmsg(1,("AbstractEngineChannel: Input event queue full!"));
+         }
+     }
+     void AbstractEngineChannel::SendChannelPressure(uint8_t Value, uint8_t MidiChannel, int32_t FragmentPos) {
+         if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
+             Event event = pEngine->pEventGenerator->CreateEvent(FragmentPos);
+             event.Type                          = Event::type_channel_pressure;
+             event.Param.ChannelPressure.Controller = CTRL_TABLE_IDX_AFTERTOUCH; // required for instrument scripts
+             event.Param.ChannelPressure.Value   = Value;
+             event.Param.ChannelPressure.Channel = MidiChannel;
+             event.pEngineChannel                = this;
+             if (this->pEventQueue->write_space() > 0) this->pEventQueue->push(&event);
+             else dmsg(1,("AbstractEngineChannel: Input event queue full!"));
+         }
+     }
+     void AbstractEngineChannel::SendPolyphonicKeyPressure(uint8_t Key, uint8_t Value, uint8_t MidiChannel) {
+         if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
+             Event event = pEngine->pEventGenerator->CreateEvent();
+             event.Type                       = Event::type_note_pressure;
+             event.Param.NotePressure.Key     = Key;
+             event.Param.NotePressure.Value   = Value;
+             event.Param.NotePressure.Channel = MidiChannel;
+             event.pEngineChannel             = this;
+             if (this->pEventQueue->write_space() > 0) this->pEventQueue->push(&event);
+             else dmsg(1,("AbstractEngineChannel: Input event queue full!"));
+         }
+     }
+     void AbstractEngineChannel::SendPolyphonicKeyPressure(uint8_t Key, uint8_t Value, uint8_t MidiChannel, int32_t FragmentPos) {
+         if (pEngine) {
+             // protection in case there are more than 1 MIDI input threads sending MIDI events to this EngineChannel
+             LockGuard g;
+             if (hasMultipleMIDIInputs()) g = LockGuard(MidiInputMutex);
+             Event event = pEngine->pEventGenerator->CreateEvent(FragmentPos);
+             event.Type                       = Event::type_note_pressure;
+             event.Param.NotePressure.Key     = Key;
+             event.Param.NotePressure.Value   = Value;
+             event.Param.NotePressure.Channel = MidiChannel;
+             event.pEngineChannel             = this;
+             if (this->pEventQueue->write_space() > 0) this->pEventQueue->push(&event);
+             else dmsg(1,("AbstractEngineChannel: Input event queue full!"));
+         }
+     }
+     bool AbstractEngineChannel::applyTranspose(Event* event) {
+         if (event->Type != Event::type_note_on && event->Type != Event::type_note_off)
+             return true; // event OK (not a note event, nothing to do with it here)
+         //HACK: we should better add the transpose value only to the most mandatory places (like for retrieving the region and calculating the tuning), because otherwise voices will unintendedly survive when changing transpose while playing
+         const int k = event->Param.Note.Key + GlobalTranspose;
+         if (k < 0 || k > 127)
+             return false; // bad event, drop it
+         event->Param.Note.Key = k;
+         return true; // event OK
+     }
      /**
       * Copy all events from the engine channel's input event queue buffer to
       * the internal event list. This will be done at the beginning of each
-Line 544 
 namespace LinuxSampler {
+Line 745 
 namespace LinuxSampler {
                              event.Param.Note.Key      = devEvent.Arg1;
                              event.Param.Note.Velocity = devEvent.Arg2;
                              event.Param.Note.Channel  = channel;
+                             // apply transpose setting to (note on/off) event
+                             if (!applyTranspose(&event))
+                                 continue; // note value is out of range, so drop this event
+                             // assign a new note to this note-on event
+                             if (!pEngine->LaunchNewNote(this, &event))
+                                 continue; // failed launching new note, so drop this event
                              break;
                          case VirtualMidiDevice::EVENT_TYPE_NOTEOFF:
                              event.Type = Event::type_note_off;
                              event.Param.Note.Key      = devEvent.Arg1;
                              event.Param.Note.Velocity = devEvent.Arg2;
                              event.Param.Note.Channel  = channel;
+                             if (!applyTranspose(&event))
+                                 continue; // note value is out of range, so drop this event
                              break;
                          case VirtualMidiDevice::EVENT_TYPE_CC:
-                             event.Type = Event::type_control_change;
+                             switch (devEvent.Arg1) {
-                             event.Param.CC.Controller = devEvent.Arg1;
+                                 case 0: // bank select MSB ...
-                             event.Param.CC.Value      = devEvent.Arg2;
+                                     SetMidiBankMsb(devEvent.Arg2);
-                             event.Param.CC.Channel    = channel;
+                                     continue; // don't push this event into FIFO
+                                 case 32: // bank select LSB ...
+                                     SetMidiBankLsb(devEvent.Arg2);
+                                     continue; // don't push this event into FIFO
+                                 default: // regular MIDI CC ...
+                                     event.Type = Event::type_control_change;
+                                     event.Param.CC.Controller = devEvent.Arg1;
+                                     event.Param.CC.Value      = devEvent.Arg2;
+                                     event.Param.CC.Channel    = channel;
+                             }
+                             break;
+                         case VirtualMidiDevice::EVENT_TYPE_PITCHBEND:
+                             event.Type = Event::type_pitchbend;
+                             event.Param.Pitch.Pitch = int(devEvent.Arg2 << 7 | devEvent.Arg1) - 8192;
+                             event.Param.Pitch.Channel = channel;
                              break;
+                         case VirtualMidiDevice::EVENT_TYPE_PROGRAM:
+                             SendProgramChange(devEvent.Arg1);
+                             continue; // don't push this event into FIFO
                          default:
                              std::cerr << "AbstractEngineChannel::ImportEvents() ERROR: unknown event type ("
                                        << devEvent.Type << "). This is a bug!";
-Line 588 
 namespace LinuxSampler {
+Line 814 
 namespace LinuxSampler {
                  pEvent->ResetFragmentPos();
                  break;
              }
-             // copy event to internal event list
              if (pEvents->poolIsEmpty()) {
                  dmsg(1,("Event pool emtpy!\n"));
                  break;
              }
+             // apply transpose setting to (note on/off) event
+             if (!applyTranspose(pEvent))
+                 continue; // it's a note event which has a note value out of range, so drop this event
+             // assign a new note to this event (if its a note-on event)
+             if (pEvent->Type == Event::type_note_on)
+                 if (!pEngine->LaunchNewNote(this, pEvent))
+                     continue; // failed launching new note, so drop this event
+             // copy event to internal event list
              *pEvents->allocAppend() = *pEvent;
          }
          eventQueueReader.free(); // free all copied events from input queue
      }
+     /**
+      * Called by real-time instrument script functions to schedule a new event
+      * @a delay microseconds in future.
+      *
+      * @b IMPORTANT: for the supplied @a delay to be scheduled correctly, the
+      * passed @a pEvent must be assigned a valid fragment time within the
+      * current audio fragment boundaries. That fragment time will be used by
+      * this method as basis for interpreting what "now" acutally is, and thus
+      * it will be used as basis for calculating the precise scheduling time
+      * for @a delay. The easiest way to achieve this is by copying a recent
+      * event which happened within the current audio fragment cycle: i.e. the
+      * original event which caused calling this method here.
+      *
+      * @param pEvent - event to be scheduled in future (event data will be copied)
+      * @param delay - amount of microseconds in future (from now) when event shall be processed
+      * @returns unique event ID of scheduled new event, or NULL on error
+      */
+     event_id_t AbstractEngineChannel::ScheduleEventMicroSec(const Event* pEvent, int delay) {
+         dmsg(3,("AbstractEngineChannel::ScheduleEventMicroSec(Event.Type=%d,delay=%d)\n", pEvent->Type, delay));
+         RTList<Event>::Iterator itEvent = pEvents->allocAppend();
+         if (!itEvent) {
+             dmsg(1,("AbstractEngineChannel::ScheduleEventMicroSec(): Event pool emtpy!\n"));
+             return 0;
+         }
+         RTList<ScheduledEvent>::Iterator itNode = delayedEvents.schedulerNodes.allocAppend();
+         if (!itNode) { // scheduler node pool empty ...
+             dmsg(1,("AbstractEngineChannel::ScheduleEventMicroSec(): ScheduledEvent pool empty!\n"));
+             pEvents->free(itEvent);
+             return 0;
+         }
+         // copy passed event
+         *itEvent = *pEvent;
+         // move copied event to list of delayed events
+         itEvent = itEvent.moveToEndOf(delayedEvents.pList);
+         // connect scheduler node with the copied event
+         itNode->itEvent = itEvent;
+         // add entry to time sorted scheduler queue for copied event
+         pEngine->pEventGenerator->scheduleAheadMicroSec(
+             delayedEvents.queue, *itNode, itEvent->FragmentPos(), delay
+         );
+         //dmsg(5,("ScheduledEvent queue size: %d\n", delayedEvents.queue.size()));
+         return pEvents->getID(itEvent);
+     }
+     /**
+      * Called by real-time instrument script functions to ignore the event
+      * reflected by given event ID. The event will be freed immediately to its
+      * pool and cannot be dereferenced by its old ID anymore. Even if its
+      * allocated back from the Pool later on, it will have a different ID.
+      *
+      * @param id - unique ID of event to be dropped
+      */
+     void AbstractEngineChannel::IgnoreEvent(event_id_t id) {
+         RTList<Event>::Iterator it = pEvents->fromID(id);
+         if (it) pEvents->free(it);
+     }
+     /** @brief Drop the requested event.
+      *
+      * Called by real-time instrument script functions to ignore the event
+      * reflected by the given event @a id. This method detects whether the
+      * passed ID is actually a @c Note ID or a regular @c Event ID and act
+      * accordingly.
+      *
+      * @param id - event id (from script scope)
+      * @see ScriptID
+      */
+     void AbstractEngineChannel::IgnoreEventByScriptID(const ScriptID& id) {
+         switch (id.type()) {
+             case ScriptID::EVENT:
+                 IgnoreEvent( id.eventID() );
+                 break;
+             case ScriptID::NOTE:
+                 IgnoreNote( id.noteID() );
+                 break;
+         }
+     }
+     /** @brief Order resuming of script execution instance "now".
+      *
+      * Called by real-time instrument script function stop_wait() to resume a
+      * script callback currently being suspended (i.e. due to a wait() script
+      * function call).
+      *
+      * @param itCallback - suspended script callback to be resumed
+      * @param now - current scheduler time to be "now"
+      * @param forever - whether this particulare script callback should ignore
+      *                  all subsequent wait*() script function calls
+      */
+     void AbstractEngineChannel::ScheduleResumeOfScriptCallback(RTList<ScriptEvent>::Iterator& itCallback, sched_time_t now, bool forever) {
+         // ignore if invalid iterator was passed
+         if (!itCallback) return;
+         ScriptEvent* pCallback = &*itCallback;
+         // mark this callback to ignore all subsequent built-in wait*() script function calls
+         if (forever) pCallback->ignoreAllWaitCalls = true;
+         // ignore if callback is not in the scheduler queue
+         if (pCallback->currentSchedulerQueue() != &pScript->suspendedEvents) return;
+         // ignore if callback is already scheduled to be resumed "now"
+         if (pCallback->scheduleTime <= now) return;
+         // take it out from the scheduler queue and re-insert callback
+         // to schedule the script callback for resuming execution "now"
+         pScript->suspendedEvents.erase(*pCallback);
+         pCallback->scheduleTime = now + 1;
+         pScript->suspendedEvents.insert(*pCallback);
+     }
      FxSend* AbstractEngineChannel::AddFxSend(uint8_t MidiCtrl, String Name) throw (Exception) {
          if (pEngine) pEngine->DisableAndLock();
          FxSend* pFxSend = new FxSend(this, MidiCtrl, Name);

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Removed from v.2382
 


changed lines


 
Added in v.2948
 Legend:



Removed from v.2382
 


changed lines


 
Added in v.2948
-Removed from v.2382
+Added in v.2948

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