/* Part of DML (Digital Music Laboratory)
	Copyright 2014-2015 Samer Abdallah, University of London
	 
	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 library; if not, write to the Free Software
	Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
*/

:- module(audio_ui, []).

:- use_module(cp_application('config-enabled/dml_permission')).

:- use_module(library(thread_pool)).
:- use_module(library(http/html_write)).
:- use_module(library(http/html_head)).
:- use_module(library(http/http_dispatch)).
:- use_module(library(http/http_parameters)).
:- use_module(library(dcg_core)).
:- use_module(library(swipe)).
:- use_module(library(decoration)).
:- use_module(library(rdfutils)).
:- use_module(library(httpfiles)).
:- use_module(library(dsp)).

:- use_module(library(musicbrainz), [mb_id_uri/3]).
:- use_module(library(spotify/spotify), [spotify_player//2]).
:- use_module(library(spotify/echotools), [mb_to_spotify/2]).
:- use_module(library(spotify/spotools)).

:- use_module(components(matlab)).
:- use_module(components(audio)).

:- use_module(cliopatria(hooks)).

:- set_prolog_flag(double_quotes,string).

:- http_handler(api(audio/get), audio_get, [chunked,spawn(audio)]).
:- http_handler(api(audio/spectrogram), spectrogram_handler, []).
:- http_handler(root(dml/audio/spectrogram/window), spectrogram_window, []).
:- http_handler(root(dml/audio/spotify), spotify_handler, []).
% :- http_handler(api(audio/mpc), audio_mpc, []).

:- setting(audio_decoration,oneof([link,player]),player,"Decoration for AudioFile URIs").
:- setting(specgram_color_map,ground,hot,"Matlab colour map for spectrograms").
% :- setting(mpd_host,atom,m5,"Name of MPD host").

:- rdf_meta reply_audio_stream(r,+,+).

% Disabled: was causing excessive scraping of BL pages to get audio links.
% decoration:resource_decoration(URI,Link) -->
%    {  setof(URL-Fmt,audio_link(URI,URL,Fmt),URLS), !,
%       setting(audio_decoration,Decoration)
%    },
%    audio_decoration(Decoration,l(URLS),Link).

decoration:resource_decoration(URI,Link) -->
   {  bagof(URL-Fmt,audio_link(URI,URL,Fmt),URLS), !,
      setting(audio_decoration,Decoration)
   },
   audio_decoration(Decoration,URLS,Link).

decoration:resource_view(URI,_) -->
   { mb_id_uri(recording,MBID,URI)
   ; rdf(URI,mo:publication_of,Recording),
     mb_id_uri(recording,MBID,Recording)
   },
   { http_link_to_id(spotify_handler,[mbid(MBID)],SpotifyURL)},
   html( [ iframe([ name=spotify, seamless=seamless, src=SpotifyURL, allowtransparency=true
                  , style="border:0px solid #ccc;width:320px;height:80px"
                  ], [])
         % , iframe([name=spotifyPlayer,seamless=seamless,width=320,height=80,
         %           frameborder=0,allowtransparency=true],[])   
         , br([])
         ]).
   
decoration:resource_view(URI,_) -->
   % !!! HACK: force scraping for BL items here..
   {rdf(URI,dml:blpage,_) -> ignore(bl_p2r:scrape_audio_link(URI,_)); true},
   if( bagof(URL-Fmt,audio_link(URI,URL,Fmt),AudioLinks), audio_player(AudioLinks)),
   if( (audio_file(URI,_,_); audio_link(URI,_,_)), html(div(\spectrogram(URI,[height(6)])))).

%% spectrogram_window(+Request) is det.
%  Returns an HTML page containing spectrogram of the the requested URI over the
%  requested time range, with controls for moving forwards or backwards in the
%  signal and for zooming in or out.
spectrogram_window(Request) :-
   http_parameters(Request,
      [ uri(URI,  [ optional(false), description("URI of audio file")]) 
      , offset(O, [ number, optional(true), default(0), description("Offset in seconds")])
      , length(L, [ number, optional(true), default(60), description("Length of extract in seconds")])
      , width(W,  [ number, optional(true), default(15)])
      , height(H, [ number, optional(true), default(8)])
      ],
      [form_data(Params)]),
   setting(specgram_color_map,CM),
   seqmap(remove_option, [offset(_),length(_),format(_)], Params, Params2),

   (  rdf_number(URI,beets:length,Dur)
   ;  rdf_number(URI,mazurka:duration,Dur)
   ;  rdf(Sig,mo:sampled_version_of,URI),
      rdf_number(Sig,mo:duration,Millis),
      Dur is Millis/1000.0
   ;  Dur = 36000000
   ),
   OffsetPrev is max(0,O-L),
   OffsetNext is min(Dur-L,O+L), 
   LZoomIn is L/2,            OffsetZoomIn is O+L/4,
   LZoomOut0 is min(Dur,L*2), OffsetZoomOut is max(0,O-L/2),
   (  OffsetZoomOut + LZoomOut0 > Dur 
   -> LZoomOut is Dur-OffsetZoomOut
   ;  LZoomOut is LZoomOut0
   ),

   http_link_to_id(spectrogram_window, [offset(OffsetPrev), length(L) | Params2], URLPrev),
   http_link_to_id(spectrogram_window, [offset(OffsetNext), length(L) | Params2], URLNext),
   http_link_to_id(spectrogram_window, [offset(OffsetZoomIn), length(LZoomIn) | Params2], ZoomIn),
   http_link_to_id(spectrogram_window, [offset(OffsetZoomOut), length(LZoomOut) | Params2], ZoomOut),
   http_link_to_id(spectrogram_window, [offset(0), length(60) | Params2], Home),

   reply_html_page(cliopatria(bare),[title("Spectrogram viewer")],
      [ \html_requires(font_awesome)
      , \figure( spectrogram(URI,O,L), W, H, 
                 [ format(png), color_map(CM) | Params2])
      , div(style="display:inline-block;vertical_align:middle",
         [  a(href=Home,    i(class='fa fa-home',[])), br([]) 
         ,  a(href=ZoomIn,  i(class='fa fa-plus',[])), br([])
         ,  a(href=ZoomOut, i(class='fa fa-minus',[])), br([])
         ,  a(href=URLPrev, i(class='fa fa-chevron-left',[])), br([]) 
         ,  a(href=URLNext, i(class='fa fa-chevron-right',[]))
         ])
      ],
      [stable]).

remove_option(Opt,O1,O2) :- select_option(Opt,O1,O2,_).

%% spectrogram_handler(+Request) is det.
%  Returns an image file containing a spectrogram of the requested URI over
%  a given time window.
spectrogram_handler(Request) :-
   http_parameters(Request,
      [ uri(URI,  [ optional(false), description("URI of audio file")]) 
      , offset(O, [ number, optional(true), default(0), description("Offset in seconds")])
      , length(L, [ number, optional(true), default(60), description("Length of extract in seconds")])
      ],
      [form_data(Params)]),
   select(uri(_),Params,P1),
   Code=dsp:spectrogram(URI,O,L),
   term_to_atom(Code,CodeAtom),
   http_link_to_id(api_matlab:figure_render,[code(CodeAtom)|P1],URL),
   http_redirect(see_other,URL,Request).

%% spotify_handler(+Request) is det.
%  Looks up a Spotify track URLs for the given Musicbrainz recording ID. 
%  If one is found, then returns an HTML page containing just a Spotify
%  player component for all the Spotify tracks. If no tracks are found,
%  then an HTML page containing a message is returned.
spotify_handler(Request) :-
   http_parameters(Request,
      [ mbid(MBID,  [ optional(false), description("MusicBrainz recording ID")]) 
      ]),
   with_output_to(string(_),findall(S,mb_to_spotify(MBID,S),SpotifyURIs)),
   Head=[title("Spotify tracks for MBZ recording ~w"-MBID)],
   (  SpotifyURIs=[] 
   -> reply_html_page(cliopatria(bare),Head,html(h3('Not found on Spotify')),[stable])
   ;  reply_html_page(cliopatria(bare),Head, 
         \spotify_player(tracks('RecordingTracks',SpotifyURIs),[width(320),height(80)]),[stable])
   ).

% list of Spotify URIs and a Spotify player
% spotify_handler(Request) :-
%    http_parameters(Request,
%       [ mbid(MBID,  [ optional(false), description("MusicBrainz recording ID")]) 
%       ]),
%    with_output_to(string(_),findall([S],mb_to_spotify(MBID,S),SpotifyURIs)),
%    reply_html_page(cliopatria(bare), [title("Spotify tracks for recording")], 
%       table([  thead(td("Spotify URIs"))
%             ,  \seqmap(table_row(spotify_link),SpotifyURIs)
%             ])).

% spotify_link(URI) -->
%    { spotify_player_url(track(URI),[],URL) },
%    html(a([href=URL,target=spotifyPlayer ],URI)).

% table_row(Format,Cells) --> html(tr(\seqmap(td(Format),Cells))).
% td(Format,Cell) --> html(td(\call(Format,Cell))).


% spotify_player(ID) --> 
%    (  {with_output_to(string(_),catch(mb_to_spotify(ID,SPID),_,fail))}
%    -> spotify:spotify_player(SPID,[])
%    ;  html(p("Not found on Spotify"))
%    ).


audio_get(Request) :-
   http_parameters(Request,
      [ uri(URI,  [ optional(false), description("URI of audio file")]) 
      , format(T, [ optional(true), default(original)
                  , oneof([original,ogg,mp3]), description("Audio format") ])
      ]),
   debug(audio_ui,"Requested audio as ~w: ~s",[T,URI]),
   insist(audio_file(URI,In,just(T0))),
   insist(file_permission(In,public), access_denied),
   (  (T=original; T0=T)
   -> debug(audio_ui,"Returing original (~q) file ~q",[T0,In]),
      reply_file(In,T0)
   ;  insist(command(transcode(In,URI,T0,T),Cmd)),
      insist(reply_file(pipe(Cmd),T))
   ).

% audio_mpc(Request) :-
%    http_parameters(Request,
%       [ uri(URI,  [ optional(false), description("URI of audio file")]) 
%       ]),
%    atom_concat('audio:',Rel,URI),
%    setting(mpd_host,MPDHost),
%    run(mpc_insert(MPDHost,Rel) * mpc_next(MPDHost)).

% ----- conversion pipelines -----------

find_script(Name,Path) :- absolute_file_name(dml(scripts/Name),Path,[access(execute)]).

swipe:def(P,Q) :- def(P,Q).

def( mpc_insert(Host,Rel), sh(0>>0, "MPD_HOST=~w ~s ~w",[\Host,@MPC,@Rel])) :- find_script(mpc_insert,MPC).
def( mpc_next(Host), sh(0>>0, "MPD_HOST=~w mpc next",[\Host])).

def( transcode(In,_,T1,T2), sox(In,T1,T2)) :- 
   sox_supported(T1).

def( transcode(In,URI,aac,T2), faad(In,Bits) >> soxraw(af(Bits,C,SR),T2)) :- 
   (  rdf_number(URI,beets:samplerate,SR),
      rdf_number(URI,beets:channels,C)
   ;  rdf(URI,mazurka:pid,_),
      SR=44100, C=2
   ).

def( faad(In,16), sh( 0 >> $audio(raw), "faad -f 2 -w ~s", [In+read])).
def( sox(In,F1,F2), sh( 0 >> $audio(F2), "sox -t ~w ~s -t ~w -",[\F1,In+read,\F2])).
def( soxraw(AF,Fmt), sh( $audio(raw) >> $audio(Fmt), F,[\Rate,\Bits,\Chans,\Fmt])) :-
   F="sox -t raw -r ~d -b ~d -e signed -c ~d - -t ~w -", 
   AF=af(Bits,Chans,Rate).

sox_supported(mp3).
sox_supported(wav).
sox_supported(ogg).
sox_supported(au).
sox_supported(aiff).

:- initialization 
      current_thread_pool(audio), !;
      thread_pool_create(audio, 20, [local(100), global(100), trail(100), backlog(100)]).