void onAlbEventStart(const QXmlAttributes& attrs) { string strDate (convStr(attrs.value("date"))); if (!strDate.empty()) { m_albumInfo.m_strReleased = m_albumInfo.m_strReleased.empty() ? strDate : min(m_albumInfo.m_strReleased, strDate); } string strFormat (convStr(attrs.value("format"))); if (!strFormat.empty() && string::npos == m_albumInfo.m_strFormat.find(strFormat)) { addIfMissing(m_albumInfo.m_strFormat, strFormat); } }
void onAlbArtistNameChar(const string& s) { if (0 == convStr(s).compare("VaRiOuS Artists", Qt::CaseInsensitive)) { m_albumInfo.m_eVarArtists = AlbumInfo::VA_VARIOUS; } else { m_albumInfo.m_strArtist = s; } }
void onRelationStart(const QXmlAttributes& attrs) { if (m_bTargetIsUrl) { QString qstrType (attrs.value("type")); if ("AmazonAsin" == qstrType) { m_albumInfo.m_strAmazonLink = convStr(attrs.value("target")); } else if ("CoverArtLink" == qstrType) { string strUrl (convStr(attrs.value("target"))); if (beginsWith(strUrl, "http://")) { m_albumInfo.m_vstrImageNames.push_back(strUrl); } else { //ttt2 perhaps tell the user qDebug("Unsupported image link"); } } } }
////////////////////////////////////////////////////////////////////////////////////////////// // // // Main function // // // ////////////////////////////////////////////////////////////////////////////////////////////// int main(void) { //Test int last_nombre = 4; char str[64] = "Test de String..."; unsigned char distanceActuel = 0; //Variables protocole de liaison de donnée char trame_a_envoye = 0, trame_complete = 0, trameRX[NBROCTET], trameTX[NBROCTET]; //Initial configuration setup_oscillator(); config(); //Init fifo fifo_init(); radio_dir(TRM_RX); //Module en réception //Display welcome screen: ToDo #ifdef USE_GLCD GLCD_Bitmap((char*)Base1, 0, 0, 128, 64); #endif //Test // index = 0; // while(1) // { // // result = get_offset(dirty_buf[index], dirty_buf[index + 1], flag); // result = get_flag(flag); // Nop(); // clean_buffer(result, 16); // Nop(); // } //Main loop while (1) { #ifdef AUTO routine_auto(&trame_a_envoye, &trame_complete, trameTX, trameRX); #endif #ifdef BORNE routine_borne(&trame_a_envoye, &trame_complete, trameTX, trameRX); #endif //Test: encodeur et GLCD if((last_nombre != nombre) || buttonPress) //Si une transition a eu lieu { #ifdef USE_GLCD GLCD_ClearScreen(); GLCD_Bitmap((char*)Base1, 0, 0, 128, 64); if(buttonPress && !toEcran1) { BORNERESERVE = nombre; GLCD_GoTo(0,5); GLCD_WriteString(RESERVE); toEcran1 = 1; } else if(buttonPress && toEcran1) { toEcran1 = 0; BORNERESERVE = 3; confirm=2; } sprintf(str,"%d",SERIALBATTERIE); GLCD_GoTo(107,0); GLCD_WriteString(str); #endif switch(nombre) { case 0: #ifdef USE_GLCD DISTANCE = D1; GLCD_GoTo(0,2); GLCD_WriteString(ADR1A); if(!toEcran1) { GLCD_GoTo(0,3); GLCD_WriteString(ADR2); GLCD_GoTo(0,4); GLCD_WriteString(ADR3); } #endif break; case 1: #ifdef USE_GLCD DISTANCE = D2; GLCD_GoTo(0,3); GLCD_WriteString(ADR2A); if(!toEcran1) { GLCD_GoTo(0,2); GLCD_WriteString(ADR1); GLCD_GoTo(0,4); GLCD_WriteString(ADR3); } #endif break; case 2: #ifdef USE_GLCD DISTANCE = D3; if(!toEcran1) { GLCD_GoTo(0,2); GLCD_WriteString(ADR1); GLCD_GoTo(0,3); GLCD_WriteString(ADR2); } GLCD_GoTo(0,4); GLCD_WriteString(ADR3A); #endif break; default: #ifdef USE_GLCD GLCD_ClearScreen(); GLCD_Bitmap((char*)Base1, 0, 0, 128, 64); #endif break; } #ifdef USE_GLCD GLCD_GoTo(90,7); GLCD_WriteString(METER); distanceActuel = DISTANCE; buttonPress = 0; last_nombre = nombre; if(confirm==2) { if(D1<DISTANCEPROCHE){ borneProche(0); } else if(D2<DISTANCEPROCHE){ borneProche(1); } else if(D3<DISTANCEPROCHE){ borneProche(2); } if(confirm==1) { buttonPress=1; toEcran1=0; } else if(confirm==0) { buttonPress=0; toEcran1=0; last_nombre=4; } } #endif } //Données sortantes if(trame_a_envoye == 1) { envoie = rf_envoie(trameTX, (char *)clean_buf); if(envoie == 1) trame_a_envoye = 0; } //Flags - Données entrantes if(rf_flag == 1)//&& trame_complete == 0) { //Actualise la batterie #ifdef USE_GLCD getBatt(); sprintf(str,"%03i",BATTERIE); GLCD_GoTo(80,0); if(nombre==0) {DISTANCE = D1;} else if(nombre==1) {DISTANCE = D2;} else if(nombre==2) {DISTANCE = D3;} GLCD_WriteString(str); sprintf(str,"%i",DISTANCE); GLCD_GoTo(40,7); GLCD_WriteString(str); #endif result = get_flag(flag); if(result != 10) { clean_buffer(result, 32); //Extraction des octets vers la couche application trame_complete = rf_gerer_RX((char *)clean_buf, trameRX); } //Remise à zéro de la détection rf_flag = 0; result = 10; } // #ifdef GPS_FEEDTHROUGH //TestGPS #ifdef DEBUG_MPSIM gps_flag =1; //REMOVE #endif if(gps_flag) { gps_flag = 0; //Filtre les données quand le buffer est plein #ifdef DEBUG_MPSIM (gpsstr[3]='R'); //REMOVE #endif if((gpsstr[3]=='R')) { for(a =0;a<47;a++) { gps[a] = gpsstr[a]; //Buffer de travail } // puts_usart1(gpsstr); //gps[] = "$GPRMC,174254.000,V,4522.75800,N,07155.43400,W"; #ifdef DEBUG_MPSIM gps[20]='4'; gps[21]='5'; gps[22]='2'; gps[23]='2'; gps[25]='7'; gps[26]='5'; gps[27]='8'; gps[33]='0'; gps[34]='7'; gps[35]='1'; gps[36]='5'; gps[37]='5'; gps[39]='4'; gps[40]='3'; gps[41]='4'; gps[45]='W'; #endif convStr(); //LaA = 45.3793; //LoA= -71.9239; assignDist(LaA,LoA); } } #endif /* #ifdef USE_GLCD if(buttonPress) { switchScreen(last_nombre); buttonPress = 0; } if(distanceActuel < DISTANCEBATT && BATTERIE < 50 && ecran ==2) { switchBatt(); } #endif */ if(buttonPress) { #ifdef BORNE buttonPress = 0; char donnee_test[NBROCTET] = {0x30, 0x31, 0x32, 0x33, 0x34, 0x35, 0x36, 0x37}; envoie = rf_envoie(donnee_test, (char *)clean_buf); #endif #ifdef AUTO puts_usart1(gps); #endif } if(rssi_flag) { rssi_flag = 0; //Filtre les données quand le buffer est plein rssi = get_rssi(); } } return 0; }
void onRelStart(const QXmlAttributes& attrs) { m_dlg.m_vAlbums.push_back(MusicBrainzAlbumInfo()); m_dlg.m_vAlbums.back().m_strId = convStr(attrs.value("id")); }
void onRelStart(const QXmlAttributes& attrs) { CB_ASSERT (m_albumInfo.m_strId == convStr(attrs.value("id"))); }