/* 

   Copyright (C) Arnaud Houdelette		2012-2014
   Copyright (C) Emmanuel Langlois		2012-2014

   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.
   
   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, see <http://www.gnu.org/licenses/>.
*/
using System;
using System.Runtime.InteropServices;
using System.Collections.Generic;
using System.Linq;
using System.Text.RegularExpressions;

namespace DMX2
{
	public class MidiEventProvider : IEventProvider, IDisposable
	{
		/// <summary>
		/// Etat interne des evenements midi paginés.
		/// </summary>
		readonly Dictionary<string,internalEventDesc> eventlist = new Dictionary<string, internalEventDesc> ();

		/// <summary>
		/// Liste des peripheriques connus (presents ou non)
		/// </summary>
		readonly Dictionary<string,MidiDevice> knowndevices = new Dictionary<string,MidiDevice> ();		

		/// <summary>
		/// Liste des ports connectés avec feedback
		/// </summary>
		readonly List<int> feedbacksources = new List<int> ();

		//static readonly Dictionary<int,MidiDev> srcidToDev = new Dictionary<int, MidiDev>();
		readonly List<byte> unpaginatedchannels = new List<byte> ();

		/// <summary>
		/// Derniere valeur connue pour une evenement sur source donnée : 
		/// Soit recue, soit envoyée (feedback / changement de page)
		/// </summary>
		readonly Dictionary<int,byte> lastValueOfSrc = new Dictionary<int, byte> ();
	//	EventData last;
		internalEventDesc levent = null;
		bool guirefreshflag = false;
		uint page = 1;
		uint maxpage = 8;

		protected bool use14b = false;
		protected int max14bValue = 100;
		byte[] fbTmpData = new byte[512];
		uint pageUpCC = 127;
		uint pageDownCC = 126;

		int eventmidiport;

		public uint CurrentPage {
			get {
				return page;
			}
			set {
				if (value < 1 || value > maxpage)
					return;
				page = value;
				Refresh ();
			}
		}
		public uint PageUpCC {
			get {
				return pageUpCC;
			}
			set {
				pageUpCC = value;
			}
		}
		public uint PageDownCC {
			get {
				return pageDownCC;
			}
			set {
				pageDownCC = value;
			}
		}

		public uint Maxpage {
			get {
				return maxpage;
			}
			set {
				maxpage = value;
			}
		}
		public List<byte> UnpaginatedChannels {
			get {
				return unpaginatedchannels;
			}
		}

		public bool Use14bCC {
			get {
				return use14b;
			}
			set {
				use14b = value;
			}
		}
		public int Max14bValue {
			get {
				return max14bValue;
			}
			set {
				max14bValue = value;
			}
		}

		public bool GuiRefreshFlag {
			get {
				if (guirefreshflag) {
					guirefreshflag = false;
					return true;
				}
				return false;
			}
		}

		public void ConnectDevice (string name)
		{
			knowndevices.Add (name, new MidiDevice (name));
			AutoConnect ();			
		}

		public void RefreshFeedback (string name)
		{
			foreach (int port in knowndevices[name].ConnectedPorts) {
				if (knowndevices [name].HasFeedback) {
					if (!feedbacksources.Contains (port))
						feedbacksources.Add (port);
				} else {
					if (feedbacksources.Contains (port))
						feedbacksources.Remove (port);
				}
			}
		}

		public void DisconnectDevice (MidiEventProvider.MidiDevice dev)
		{
			if (!knowndevices.ContainsKey (dev.Name))
				return;
			knowndevices.Remove (dev.Name);

			foreach (int connectedport in dev.ConnectedPorts) {
				int client = connectedport >> 8;
				int port = connectedport & 0xFF;
				AlsaSeqLib.Deconnecte (eventmidiport, client, port);
			}
		}

		public bool IsKnownDevice (string name)
		{
			return knowndevices.ContainsKey (name);
		}

		public IEnumerable<MidiDevice> KnownDevices {
			get {
				return knowndevices.Values;
			}
		}

		public MidiEventProvider (EventManager manager)
		{
#if DEBUG
			MidiDevice dev = new MidiDevice("VMPK Input:VMPK Input");
			dev.HasFeedback = true;
			knowndevices.Add(dev.Name,dev);
			dev = new MidiDevice("VMPK Output:VMPK Output");
			dev.HasFeedback = true;
			knowndevices.Add(dev.Name,dev);
#endif
			manager.RegisterProvider (this);
			//AlsaSeqLib.Init ();

			eventmidiport = AlsaSeqLib.CreatePort ("event_prov_in_out");
	
			AlsaSeqLib.ConnectFrom (eventmidiport,AlsaSeqLib.SND_SEQ_CLIENT_SYSTEM, AlsaSeqLib.SND_SEQ_PORT_SYSTEM_ANNOUNCE);

			AutoConnect ();
		}

		void AutoConnect ()
		{
			foreach (var cli in AlsaSeqLib.EnumClients()) {
				foreach (var p in cli.Ports) {
					PortDetected (cli, p);
				}
			}
		}

		void  PortDetected (AlsaSeqLib.Client cli, AlsaSeqLib.Port p)
		{
			// Execute a chaque 'apparition' d'un port midi

			// teste si connection auto au port et connecte si besoin

			guirefreshflag = true;

			string fullportname = cli.Name + ':' + p.Name;
			if (knowndevices.ContainsKey (fullportname)) {
				int srcid = p.ClientId << 8 + p.PortId;
				if (knowndevices [fullportname].ConnectedPorts.Contains (srcid))
					return;

				AlsaSeqLib.Connect (eventmidiport,p);
			}
		}

		void PortConnect (AlsaSeqLib.snd_seq_connect_t cn, bool connect)
		{
			int clientId, portId;
			if (cn.dest.client == AlsaSeqLib.ClientId) {
				clientId = cn.sender.client;
				portId = cn.sender.port;
			} else {
				clientId = cn.dest.client;
				portId = cn.dest.port;
			}

			int srcid = clientId << 8 + portId;
			if (connect) {
				string fpname = AlsaSeqLib.GetClientByID (clientId).Name + ":" + AlsaSeqLib.GetPortByIDs (clientId, portId).Name;
				if (!knowndevices.ContainsKey (fpname))
					return;
				if (knowndevices [fpname].ConnectedPorts.Contains (srcid))
					return;
				knowndevices [fpname].ConnectedPorts.Add (srcid);
				if (knowndevices [fpname].HasFeedback)
					feedbacksources.Add (srcid);
				guirefreshflag = true;

				//srcidToDev[srcid] = knowndevices [fpname];

				return;
			}

			foreach (var dev in knowndevices.Values) {
				if (dev.ConnectedPorts.Contains (srcid)) {
					/*if(srcidToDev.ContainsKey(srcid))
						srcidToDev.Remove(srcid);*/
					dev.ConnectedPorts.Remove (srcid);
					guirefreshflag = true;
					return;
				}
			}

		}

		static int CombineHash (int hash1, int hash2)
		{
			unchecked {
				return hash1 * 33 + hash2;
			}
		}

		protected bool HasFeedback (int source)
		{
			return feedbacksources.Contains (source);
		}

		public void SendEvent (AlsaSeqLib.snd_seq_event_t ev)
		{
			ev.source.port =(byte) eventmidiport;
			AlsaSeqLib.SendEventToSubscribers (ev);
		}

		public void Refresh ()
		{
			foreach (var ievent in eventlist.Values) {
				if (ievent.Page == page) {
					ievent.SendFeedback();
					foreach (int src in feedbacksources) {
						int lnvk = CombineHash (src, ievent.MidiEvCode);
						if (ievent.LastKnownValue != -1)
							lastValueOfSrc [lnvk] = (byte)ievent.LastKnownValue;
					}
				}
			}
		}

		#region IEventProvider implementation



		bool IEventProvider.Bind (string eventId)
		{
			// On indique a l'EventManager qu'on traite, si l'ID commence par 'MIDI-'
			if (! eventId.StartsWith ("MIDI-"))
				return false;

			if (! eventlist.ContainsKey (eventId)) {
				Match res = regexEventID.Match (eventId);
				if (!res.Success)
					return false;
				uint _page = uint.Parse (res.Groups ["page"].Value);
				int _evHC = res.Groups ["id"].Value.GetHashCode ();
				midiFeedbackSender sender = null;

				res = regexCtrlEventID.Match (eventId);
				if (res.Success) {
					byte chan = byte.Parse (res.Groups ["chan"].Value);
					uint param = uint.Parse (res.Groups ["param"].Value);
					sender = new midiCCFbSender (this, chan, param);
				} else if ((res = regexPbEventID.Match (eventId)).Success){
					byte chan = byte.Parse (res.Groups ["chan"].Value);
					sender = new midiPBFbSender (this, chan);
				}
				eventlist.Add (eventId, new internalEventDesc (eventId, _page, _evHC,sender));
			}

			eventlist [eventId].Bound = true;
			return true;
		}

		void IEventProvider.Unbind (string eventId)
		{
			if (! eventlist.ContainsKey (eventId))
				return;
			eventlist [eventId].Bound = false;
			return;
		}

		Gtk.Menu IEventProvider.GetProviderSubMenu (EventManager.EventMenuData state, Gtk.ButtonPressEventHandler handler)
		{
			Gtk.Menu retmenu = new Gtk.Menu ();

			if (levent != null) {												// Creation du sous menu "Dernier"
				/*Gtk.MenuItem lmenuitem = new Gtk.MenuItem ("Dernier");
				retmenu.Add (lmenuitem);
				Gtk.Menu lmenu = new Gtk.Menu ();
				lmenuitem.Submenu = lmenu;*/
				Gtk.MenuItem item = new Gtk.MenuItem (GetDescription (levent.InternalName));
				item.Data [EventManager.EventIdKey] = levent.InternalName;
				item.Data [EventManager.StateKey] = state;
				item.ButtonPressEvent += handler;
				retmenu.Add (item);
			}

			Gtk.MenuItem evmenuitem = new Gtk.MenuItem ("Events");				// Creation du sous menu "Events"
			retmenu.Add (evmenuitem);
			Gtk.Menu evmenu = new Gtk.Menu ();
			evmenuitem.Submenu = evmenu;

			List<string> sortedKeys = eventlist.Keys.ToList ();		// On recupere des IDs 
			sortedKeys.Sort ();										// et on les trie

			foreach (string key in sortedKeys) {
				internalEventDesc evt = eventlist [key];
				Gtk.MenuItem item = new Gtk.MenuItem (GetDescription (evt.InternalName));
				item.Data [EventManager.EventIdKey] = evt.InternalName;
				item.Data [EventManager.StateKey] = state;
				item.ButtonPressEvent += handler;
				evmenu.Add (item);
			}

			return retmenu;

		}

		void IEventProvider.ProcessEvents (EventManagerCallback callback)
		{
			AlsaSeqLib.snd_seq_event_t evS;
			uint evpage;

			// Tant qu'il y des evenements midi en attente
			while (AlsaSeqLib.GetEvent(out evS)) {
				Console.WriteLine(string.Format ("event {0}", evS.type) );	
				string id = null; 
				int value = 0;
				byte channel = 255;

				switch (evS.type) {
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PORT_SUBSCRIBED:	// Connection d'un périph midi
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PORT_UNSUBSCRIBED:
					PortConnect (
						evS.data_connect,
						evS.type == AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PORT_SUBSCRIBED
					);
					continue;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_CONTROLLER:
					if (evS.data_ev_ctrl.param == pageUpCC && evS.data_ev_ctrl.value > 0) {
						CurrentPage++;
						continue;
					}

					if (evS.data_ev_ctrl.param == pageDownCC && evS.data_ev_ctrl.value > 0) {
						CurrentPage--;
						continue;
					}

					channel = evS.data_ev_ctrl.channel;

					if (use14b && evS.data_ev_ctrl.param < 64) {
						long msbAddr;
						if (evS.data_ev_ctrl.param < 32) {
							msbAddr = evS.data_ev_ctrl.channel * 32 + evS.data_ev_ctrl.param;
							fbTmpData [msbAddr] = (byte)evS.data_ev_ctrl.value;
							continue;
						}
						evS.data_ev_ctrl.param -= 32;
						msbAddr = evS.data_ev_ctrl.channel * 32 + evS.data_ev_ctrl.param;
						value = ((fbTmpData [msbAddr] << 7) ^ evS.data_ev_ctrl.value);
						value = 255 * value / max14bValue;
						if (value > 255) value = 255;
					} else {
						value = 255 * evS.data_ev_ctrl.value / 127;				// Conversion {0,127} => {0,255}
					}
					id = string.Format ("CTRL-C{0}P{1}", evS.data_ev_ctrl.channel, evS.data_ev_ctrl.param);
					break;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_NOTEON:
					id = string.Format ("NOTE-C{0}N{1}", evS.data_ev_note.channel, evS.data_ev_note.note);
					channel = evS.data_ev_note.channel;
					value = 255;
					break;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_NOTEOFF:
					id = string.Format ("NOTE-C{0}N{1}", evS.data_ev_note.channel, evS.data_ev_note.note);
					channel = evS.data_ev_note.channel;
					value = 0; 
					break;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PITCHBEND:
					id = string.Format ("PB-C{0}", evS.data_ev_ctrl.channel);
					channel = evS.data_ev_ctrl.channel;
					value = ((evS.data_ev_ctrl.value + 7000) * 255 / 14000);
					if (value < 0)
						value = 0;
					if (value > 255)
						value = 255;
					break;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PGMCHANGE:
					CurrentPage = (uint)evS.data_ev_ctrl.value;
					continue;
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PORT_START:
					PortDetected (
						AlsaSeqLib.GetClientByID (evS.data_addr.client),
						AlsaSeqLib.GetPortByIDs (evS.data_addr.client, evS.data_addr.port)
					);
					continue;

				/*case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_CLOCK:
				case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_SENSING:
					continue;*/
				
				default:
					id = null;
#if DEBUG
						Console.WriteLine(string.Format ("event {0}", evS.type) );	
						Info.Publish(string.Format ("event {0}", evS.type) );	// On affiche les evenements inconnus
#endif
					continue;
				}

				if (id != null) {
					// Hashcode de l'ev Midi, non pagine
					int evHC = id.GetHashCode ();
					int srcid = evS.source.client << 8 + evS.source.port;
					int lnvk = CombineHash (srcid, evHC);

					if (channel == 255 || unpaginatedchannels.Contains (channel))
						evpage = 0;
					else
						evpage = page;

					// Construction de l'ID evenement
					id = string.Format ("MIDI-PAGE{0}-{1}", evpage, id);
			
					// Creation de l'objet interne si innexistant
					if (!eventlist.ContainsKey (id)) {
						switch (evS.type) {
							// TODO : Pitchbend feedback
						case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_CONTROLLER:
							eventlist.Add (id, new internalEventDesc (id, evpage, evHC, 
							                  new midiCCFbSender(this,channel,evS.data_ev_ctrl.param))
							           );
							break;
						case AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PITCHBEND:
							eventlist.Add (id, new internalEventDesc (id, evpage, evHC, 
							                 new midiPBFbSender(this,channel))
							               );
							break;
						default:
							eventlist.Add (id, new internalEventDesc (id, evpage, evHC, null));
							break;
						}
					}
					levent = eventlist [id];					//Dernier Evenement recu conserve pour menu

					if (!lastValueOfSrc.ContainsKey (lnvk)) {
						lastValueOfSrc [lnvk] = (byte)value;
					} else if (lastValueOfSrc [lnvk] == (byte)value)
						continue;

					EventData evData = new EventData ();		
					evData.id = id;
					evData.value = (byte)value;
					evData.prev_value = lastValueOfSrc [lnvk];
					/*if (evData.Equals (last))
						continue;	*/	
					//last = evData;

					eventlist [id].CallEvent (callback, evData);

					/*if (eventlist [id].Bound) {
						callback (evData);
					}*/

					lastValueOfSrc [lnvk] = (byte)value;
					eventlist [id].LastKnownValue = (byte)value;

				}
			}
		}

		string IEventProvider.MenuName {
			get {
				return "Midi";
			}
		}

		static System.Text.RegularExpressions.Regex regexEventID = new System.Text.RegularExpressions.Regex (
			@"MIDI-PAGE(?<page>\d+)-(?<id>.+)",
			System.Text.RegularExpressions.RegexOptions.Compiled);

		static System.Text.RegularExpressions.Regex regexCtrlEventID = new System.Text.RegularExpressions.Regex (
			@"MIDI-PAGE(?<page>\d+)-CTRL-C(?<chan>\d+)P(?<param>\d+)",
			System.Text.RegularExpressions.RegexOptions.Compiled);
		static System.Text.RegularExpressions.Regex regexPbEventID = new System.Text.RegularExpressions.Regex (
			@"MIDI-PAGE(?<page>\d+)-PB-C(?<chan>\d+)",
			System.Text.RegularExpressions.RegexOptions.Compiled);
		static System.Text.RegularExpressions.Regex regexNoteEventID = new System.Text.RegularExpressions.Regex (
			@"MIDI-PAGE(?<page>\d+)-NOTE-C(?<chan>\d+)N(?<note>\d+)",
			System.Text.RegularExpressions.RegexOptions.Compiled);

		string GetDescription (string eventId)
		{
			if (!eventlist.ContainsKey (eventId))
				return null;

			var res = regexCtrlEventID.Match (eventId);
			if (res.Success) {
				uint page = uint.Parse (res.Groups ["page"].Value);
				byte chan = byte.Parse (res.Groups ["chan"].Value);
				uint param = uint.Parse (res.Groups ["param"].Value);
				return string.Format ("Page {2} => Control-Change C({0}) Param-{1}", chan + 1, param, page);
			}
			res = regexPbEventID.Match (eventId);
			if (res.Success) {
				uint page = uint.Parse (res.Groups ["page"].Value);
				byte chan = byte.Parse (res.Groups ["chan"].Value);
				return string.Format ("Page {1} => PitchBend C({0})", chan + 1, page);
			}
			res = regexNoteEventID.Match (eventId);
			if (res.Success) {
				uint page = uint.Parse (res.Groups ["page"].Value);
				byte chan = byte.Parse (res.Groups ["chan"].Value);
				byte note = byte.Parse (res.Groups ["note"].Value);
				return string.Format ("Page {2} => Note C({0}) Note-{1}", chan + 1, note, page);
			}
			return eventId;
		}

		IFeedbackInfo IEventProvider.GetFeedbackInfo (string eventId)
		{
			if (!eventlist.ContainsKey (eventId))
				return null;

			return new midifeedbackinfo (this, eventlist [eventId]);

		}

		#endregion		


		#region IDisposable implementation

		bool disposed = false;

		~MidiEventProvider ()
		{
			Dispose ();
		}

		public void Dispose ()
		{
			if (disposed)
				return;
			disposed = true;
			//AlsaSeqLib.Close();
			AlsaSeqLib.DeletePort(eventmidiport);
		}
		#endregion

		public void Save (System.Xml.XmlElement parent)
		{
			System.Xml.XmlElement el = parent.OwnerDocument.CreateElement ("Midi");
			parent.AppendChild (el);
			el.SetAttribute ("maxpage", maxpage.ToString ());
			el.SetAttribute ("pageUpCC", pageUpCC.ToString ());
			el.SetAttribute ("pageDownCC", pageDownCC.ToString ());
			el.SetAttribute ("fourteenbits", use14b?"true":"false");
			el.SetAttribute ("max14b", max14bValue.ToString ());

			System.Xml.XmlElement xmlEl;
			foreach (MidiDevice dev in knowndevices.Values) {
				el.AppendChild (xmlEl = parent.OwnerDocument.CreateElement ("MidiDev"));
				xmlEl.SetAttribute ("name", dev.Name);
				xmlEl.SetAttribute ("feedback", dev.HasFeedback.ToString ());
			}

			foreach (byte ch in unpaginatedchannels) {
				el.AppendChild (xmlEl = parent.OwnerDocument.CreateElement ("UPC"));
				xmlEl.SetAttribute ("ch", ch.ToString ());
			}

		}

		public void Load (System.Xml.XmlElement el)
		{
			if (el == null)
				return;
			maxpage = uint.Parse (el.TryGetAttribute ("maxpage", "8"));
			pageUpCC = uint.Parse (el.TryGetAttribute ("pageUpCC", "127"));
			pageDownCC = uint.Parse (el.TryGetAttribute ("pageDownCC", "126"));
			use14b = el.TryGetAttribute ("fourteenbits", string.Empty).Equals ("true");
			max14bValue = int.Parse (el.TryGetAttribute ("max14b", "255"));

			foreach (var xd in el.GetElementsByTagName("MidiDev")) {
				System.Xml.XmlElement xdev = xd as System.Xml.XmlElement;
				string name = xdev.GetAttribute ("name");
				if (!knowndevices.ContainsKey (name))
					knowndevices.Add (name, new MidiDevice (name));
				knowndevices [name].HasFeedback = bool.Parse (xdev.TryGetAttribute ("feedback", "false"));
			}
			unpaginatedchannels.Clear ();
			foreach (var xu in el.GetElementsByTagName("UPC")) {
				System.Xml.XmlElement xupc = xu as System.Xml.XmlElement;
				unpaginatedchannels.Add (byte.Parse (xupc.GetAttribute ("ch")));
			}

			AutoConnect ();
		}

		
		class internalEventDesc
		{

			readonly string internalName;
			bool bound = false;
			readonly uint page;
			readonly int midiEvCode;

			readonly midiFeedbackSender fbSender;

			public bool Bound {
				get {
					return bound;
				}
				set {
					bound = value;
				}
			}

			public string InternalName {
				get {
					return internalName;
				}
			}

			public uint Page {
				get {
					return page;
				}
			}

			public int MidiEvCode {
				get {
					return midiEvCode;
				}
			}

			public internalEventDesc (string _id, uint _page, int _evHCode, midiFeedbackSender _evsender)
			{
				internalName = _id;
				page = _page;
				midiEvCode = _evHCode;
				fbSender = _evsender;
			}

			int lastknownvalue = -1;

			public int LastKnownValue {
				get {
					return lastknownvalue;
				}
				set {
					lastknownvalue = value;
				}
			}

			bool nofbflag=false;

			public void SendFeedback ()
			{
				if(fbSender !=null && !nofbflag)
					fbSender.SendFeedback (lastknownvalue);
			}

			public void CallEvent (EventManagerCallback callback, EventData evData)
			{
				nofbflag = true;
				callback (evData);
				nofbflag = false;
			}
		}

		abstract class midiFeedbackSender {
			public abstract void SendFeedback (int value);
		}

		class midiCCFbSender : midiFeedbackSender {
			readonly MidiEventProvider prov;

			AlsaSeqLib.snd_seq_event_t ev;
			AlsaSeqLib.snd_seq_event_t ev2;

			public midiCCFbSender (MidiEventProvider _prov, byte _chan, uint _param){
				prov = _prov;
				ev = new AlsaSeqLib.snd_seq_event_t();
				ev.type = AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_CONTROLLER;
				ev.data_ev_ctrl.channel = _chan;
				ev.data_ev_ctrl.param = _param;
				ev2 = ev;
				ev2.data_ev_ctrl.param += 32;
			}
			public override void SendFeedback (int value)
			{
				if (prov.use14b && ev.data_ev_ctrl.param <32 ) {
					value = value * prov.max14bValue / 255;
					ev.data_ev_ctrl.value = value >> 7;
					ev2.data_ev_ctrl.value = value & 0xFF;
					prov.SendEvent (ev);
					prov.SendEvent (ev2);
				} else {
					ev.data_ev_ctrl.value = value * 127 / 255;
					prov.SendEvent (ev);
				}

			}
		}

		class midiPBFbSender : midiFeedbackSender {
			readonly MidiEventProvider prov;

			AlsaSeqLib.snd_seq_event_t ev;

			public midiPBFbSender (MidiEventProvider _prov, byte _chan){
				prov = _prov;
				ev = new AlsaSeqLib.snd_seq_event_t();
				ev.type = AlsaSeqLib.snd_seq_event_type_t.SND_SEQ_EVENT_PITCHBEND;
				ev.data_ev_ctrl.channel = _chan;

			}
			public override void SendFeedback (int value)
			{ //					value = ((evS.data_ev_ctrl.value + 7000) * 255 / 14000);

				ev.data_ev_ctrl.value = value * 14000 / 255 - 7000;
				prov.SendEvent (ev);
			}
		}

		class midifeedbackinfo : IFeedbackInfo
		{
			MidiEventProvider prov;
			readonly internalEventDesc iev;

			public midifeedbackinfo (MidiEventProvider _prov, internalEventDesc _iev)
			{
				prov = _prov;
				iev = _iev;
			}

			#region IFeedbackInfo implementation
			bool IFeedbackInfo.FeedBack (byte data)
			{

				iev.LastKnownValue = data;

				if (prov.CurrentPage == iev.Page || iev.Page == 0) {
					iev.SendFeedback();
					foreach (int src in prov.feedbacksources) {
						int lnvk = CombineHash (src, iev.MidiEvCode);
						if (iev.LastKnownValue != -1)
							prov.lastValueOfSrc [lnvk] = (byte)iev.LastKnownValue;
					}
				}

				return true;
			}
			#endregion
		}

		public class MidiDevice
		{
			string name;

			public string Name { get { return name; } }

			public bool HasFeedback { get; set; }

			readonly List<int> connected = new List<int> ();

			public List<int> ConnectedPorts {
				get{ return connected;}
			}

			public MidiDevice (string _name)
			{
				name = _name;
			}

		}
	}
}