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Arbitrateor/src/GroovePlayer.cpp

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/*
* Copyright (C) 2017 Kevin Whitaker <eyecreate@gmail.com>
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*
*/
#include "GroovePlayer.h"
#include "db/UserAction.h"
#include <Wt/WLogger>
#include <Wt/WServer>
#include <Wt/WApplication>
#include "WebInterface.h"
#include <locale>
#include <Wt/WLogger>
#include <Wt/Dbo/Transaction>
#include <groovefingerprinter/fingerprinter.h>
std::filesystem::path GroovePlayer::musicScanDir = "";
GroovePlayer::GroovePlayer(std::string dbFile) : sqliteConnection(dbFile)
{
sqlSession.setConnection(this->sqliteConnection);
sqlSession.mapClass<User>("user");
sqlSession.mapClass<AudioTrack>("tracks");
sqlSession.mapClass<UserAction>("actions");
try
{
sqlSession.createTables();
} catch(Wt::Dbo::Exception e)
{
Wt::log("info") << "Using Existing DB.";
}
groove_init();
grooveAudioScanner = new std::thread(grooveAudioScannerLoop);
grooveEvents = new std::thread(grooveEventLoop);
}
std::vector<AudioTrack*> GroovePlayer::getNextVoteBatch()
{
//TODO
}
void GroovePlayer::grooveEventLoop()
{
//TODO
}
bool GroovePlayer::addFileToTrackDBIfTagged(std::filesystem::path file)
{
//Now check if tags exist and put into DB.
struct GrooveFile* gfile = groove_file_open(file.c_str());
struct GrooveTag* artist_tag = groove_file_metadata_get(gfile, "artist", nullptr, 0);
struct GrooveTag* album_tag = groove_file_metadata_get(gfile, "album", nullptr, 0);
struct GrooveTag* name_tag = groove_file_metadata_get(gfile, "title", nullptr, 0);
struct GrooveTag* genre_tag = groove_file_metadata_get(gfile, "genre", nullptr, 0);
if(artist_tag == nullptr || album_tag == nullptr || name_tag == nullptr || genre_tag == nullptr)
{
//Only accept song with all metadata for DB.
groove_file_close(gfile);
return false;
}
//Take fingerprint and compare to DB.
struct GrooveFingerprinter* fingerprinter = groove_fingerprinter_create();
struct GrooveFingerprinterInfo info;
struct GroovePlaylist* playlist = groove_playlist_create();
groove_playlist_insert(playlist,gfile,1.0,1.0,nullptr);
groove_fingerprinter_attach(fingerprinter, playlist);
groove_fingerprinter_info_get(fingerprinter, &info, 1);
double trackLen = info.duration;
char* encodedFP;
groove_fingerprinter_encode(info.fingerprint,info.fingerprint_size,&encodedFP);
std::string fingerprint = std::string(encodedFP);
groove_fingerprinter_dealloc(encodedFP);
groove_fingerprinter_free_info(&info);
groove_fingerprinter_detach(fingerprinter);
groove_fingerprinter_destroy(fingerprinter);
groove_playlist_destroy(playlist);
Wt::Dbo::Transaction transaction(getInstance()->sqlSession);
int existing = getInstance()->sqlSession.query<int>("select count(fingerprint) from tracks").where("fingerprint = ?").bind(fingerprint);
if(existing >0)
{
//This track has a duplicate already.
groove_file_close(gfile);
return false;
}
//Add to DB.
AudioTrack* newTrack = new AudioTrack();
newTrack->trackName = groove_tag_value(name_tag);
newTrack->trackAlbumName = groove_tag_value(album_tag);
newTrack->trackArtistName = groove_tag_value(artist_tag);
newTrack->trackGenre = groove_tag_value(genre_tag);
newTrack->trackLengthSeconds = trackLen;
newTrack->trackFingerprint = fingerprint;
newTrack->trackPath = file.string();
getInstance()->sqlSession.add(newTrack);
groove_file_close(gfile);
return true;
}
void GroovePlayer::removeOrphanedTracks()
{
Wt::Dbo::Transaction transaction(getInstance()->sqlSession);
Wt::Dbo::collection<Wt::Dbo::ptr<AudioTrack>> tracks = getInstance()->sqlSession.find<AudioTrack>();
for(Wt::Dbo::collection<Wt::Dbo::ptr<AudioTrack>>::const_iterator i = tracks.begin(); i != tracks.end(); ++i)
{
if(!std::filesystem::exists(std::filesystem::path((*i)->trackPath)))
{
Wt::Dbo::ptr<AudioTrack> item = getInstance()->sqlSession.find<AudioTrack>().where("fingerprint = ?").bind((*i)->trackFingerprint);
Wt::log("info") << (*i)->trackPath + " not found in filesystem. Removed from DB.";
item.remove();
}
}
}
void GroovePlayer::grooveAudioScannerLoop()
{
if(!std::filesystem::exists(musicScanDir))
{
std::filesystem::create_directory(musicScanDir);
Wt::log("info") << "Directory "+std::filesystem::canonical(musicScanDir).string()+" didn't exist, so created.";
} else
{
Wt::log("info") << "Directory "+std::filesystem::canonical(musicScanDir).string()+" exists.";
}
for(std::filesystem::directory_entry p: std::filesystem::directory_iterator(musicScanDir))
{
std::string extensionLowered;
for(auto elem : p.path().extension().string())
{
extensionLowered.push_back(std::tolower(elem));
}
if(extensionLowered == ".mp3") //TODO:think about supporting more than mp3s.
{
if(addFileToTrackDBIfTagged(p.path()))
{
Wt::log("info") << p.path().string() << " was added to DB";
}
}
else
{
Wt::log("info") << p.path().string() + " was not an accepted audio file.";
}
}
//Now check for tracks in DB without a file.
removeOrphanedTracks();
}
//TODO:use this code when sending to UI.
// Wt::WServer::instance()->postAll([]() {
// Wt::WApplication* app = Wt::WApplication::instance();
// if(app != nullptr)
// {
// static_cast<WebInterface*>(app)->updateUIFromServer();
// }
// }
// );
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