function [arraysito,arraysitoENG,controlsito,yesTL,yesTLHR,yesTLH,yesTLHRH,yesPL,yesBL,yesLL,... yesRL,yesKL,yesKLHR,yesThL,yesPT100,yesIPL,yesIPLHR,yesTuL,yesRaL,yesPCL,yesPCLHR,... yesPrL,yesEL,yes3DEL,yesWEL,yesMPBEL,yesCrL,yes3DCrL,yesBML,yesHL,... yesLuxL,yesCO2,yesRSN,yesRSNHR,yesTrL,yesSM,yes2DCrL,yesPE,yesWL,yesGF,yesGS,... rTL,rTLHR,rTLH,rTLHRH,rPL,rBL,rLL,rRL,rKL,rKLHR,rThL,rPT100,rIPL,rIPLHR,rTuL,rRaL,... rPCL,rPCLHR,rPrL,rEL,r3DEL,rWEL,rMPBEL,rCrL,r3DCrL,rBML,rHL,rLuxL,rCO2,rRSN,rRSNHR,... rTrL,rSM,r2DCrL,rPE,rWL,rGF,rGS,nCT,... NodoTiltLink,NodoTiltLinkHR,NodoTiltLinkH,NodoTiltLinkHRH,NodoPiezoLink,NodoBaroLink,... NodoLoadLink,NodoRainLink,NodoKlinoLink,NodoKlinoLinkHR,NodoThermLink,NodoPT100Link,... NodoInPlaceLink,NodoInPlaceLinkHR,NodoTunnelLink,NodoRadialLink,NodoPreConvLink,... NodoPreConvLinkHR,NodoPressureLink,NodoExtensometerLink,Nodo3DExtensometerLink,... NodoWireExtensometerLink,NodoMultiPointExtensometerLink,NodoCrackLink,Nodo3DCrackLink,... NodoBaroMusaLink,NodoHumidityLink,NodoLuxLink,NodoCO2Link,NodoRSNLink,NodoRSNHRLink,... NodoTriggerLink,NodoStressMeter,Nodo2DCrackLink,NodoPendulum,NodoWeirLink,NodoGflowLink,... NodoGshockLink,tipoarray,tipoalarms,nVMS,nTL,nCAM,nAL] = info_Sito(chainID,alarms,... Chain_Scheme,conn,num_nodi,FileName) fileID = fopen(FileName,'a'); fmt = '%s \r'; text = 'info_Sito function started'; fprintf(fileID,fmt,text); %% Conto gli Array % identifico la tipologia di array [dev,~] = size(chainID); % Numero di Array tipoarray = cell(dev,1); for d = 1:dev comando = ['select type from tools where unit_id = ''' num2str(cell2mat(chainID(d,1)))... ''' and id = ''' num2str(cell2mat(chainID(d,3))) ''' ']; curs = exec(conn,comando); curs = fetch(curs); tipoarray(d,1) = curs.Data; end % Scarico l'allarme relativo al sito [ctrl,ctrl2] = size(alarms); % Numero di Control Tools tipoalarms = cell(ctrl,1); if ctrl2 ~= 1 for c = 1:ctrl comando = ['select type from ctrltypes where id = ''' num2str(cell2mat(alarms(c,3))) ''' ']; curs = exec(conn,comando); curs = fetch(curs); tipoalarms(c,1) = curs.Data; end evita = 0; else evita = 1; end [rA,~] = size(tipoarray); [rC,~] = size(tipoalarms); % conto quanti array ci sono per ciascuna tipologia nVA = 0; % Vertical Array nHA = 0; % Horizontal Array nPZA = 0; % Piezo Array nTA = 0; % Therm Array nVAS = 0; % Vertical Array Structure nIPA = 0; % In Place Array nKA = 0; % Klino Array nCA = 0; % Cir Array nRA = 0; % Rad Array nPCA = 0; % PreConv Array nRSN = 0; % RockFall Safety Network nMUSA = 0; % Musa System nAA = 0; % Analog Array nTS = 0; % Trigger System nVMS = 0; % Variable Message System nTL = 0; % Traffic Lights nAL = 0; % Alarms nCAM = 0; % Camera nP = 0; % Pluviometro nDFSN = 0; % Debris Flow Safety Network for a = 1:rA if strcmp(tipoarray(a),'Cir Array') nCA = nCA+1; elseif strcmp(tipoarray(a),'Rad Array') nRA = nRA+1; elseif strcmp(tipoarray(a),'PreConv Array') nPCA = nPCA+1; elseif strcmp(tipoarray(a),'Vertical Array') nVA = nVA+1; elseif strcmp(tipoarray(a),'Horizontal Array') nHA = nHA+1; elseif strcmp(tipoarray(a),'Piezo Array') nPZA = nPZA+1; elseif strcmp(tipoarray(a),'Pluviometro') nP = nP+1; elseif strcmp(tipoarray(a),'Therm Array') nTA = nTA+1; elseif strcmp(tipoarray(a),'Rockfall Safety Network') nRSN = nRSN+1; elseif strcmp(tipoarray(a),'Debris Flow Safety Network') nDFSN = nDFSN+1; elseif strcmp(tipoarray(a),'Vertical Array Structure') nVAS = nVAS+1; elseif strcmp(tipoarray(a),'In Place Array') nIPA = nIPA+1; elseif strcmp(tipoarray(a),'MUSA') nMUSA = nMUSA+1; elseif strcmp(tipoarray(a),'Klino Array') nKA = nKA+1; elseif strcmp(tipoarray(a),'Analog Array') nAA = nAA+1; elseif strcmp(tipoarray(a),'Trigger System') nTS = nTS+1; end end for a = 1:rC if strcmp(tipoalarms(a),'VMS') nVMS = nVMS+1; elseif strcmp(tipoalarms(a),'Traffic Lights') nTL = nTL+1; elseif strcmp(tipoalarms(a),'Alarms') nAL = nAL+1; elseif strcmp(tipoalarms(a),'Camera') nCAM = nCAM+1; end end % Conto le tipologie di Array indice = 1; if nCA > 0 contarray{indice,1} = [num2str(nCA) ' Cir Array']; if nCA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nCA) ' Cir Arrays']; end indice = indice +1; end if nRA > 0 contarray{indice,1} = [num2str(nRA) ' Rad Array']; if nRA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nRA) ' Rad Arrays']; end indice = indice +1; end if nPCA > 0 contarray{indice,1} = [num2str(nPCA) ' PreConv Array']; if nPCA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nPCA) ' PreConv Arrays']; end indice = indice +1; end if nVA > 0 contarray{indice,1} = [num2str(nVA) ' Vertical Array']; if nVA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nVA) ' Vertical Arrays']; end indice = indice +1; end if nHA > 0 contarray{indice,1} = [num2str(nHA) ' Horizontal Array']; if nHA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nHA) ' Horizontal Arrays']; end indice = indice +1; end if nPZA > 0 contarray{indice,1} = [num2str(nPZA) ' Piezo Array']; if nPZA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nPZA) ' Piezo Arrays']; end indice = indice +1; end if nP > 0 contarray{indice,1} = [num2str(nP) ' Pluviometro']; if nP == 1 contarrayENG{indice,1} = [num2str(nP) ' Rain Gauge']; else contarrayENG{indice,1} = [num2str(nP) ' Rain Gauges']; end indice = indice +1; end if nTA > 0 contarray{indice,1} = [num2str(nTA) ' Therm Array']; if nTA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nTA) ' Therm Arrays']; end indice = indice +1; end if nRSN > 0 contarray{indice,1} = [num2str(nRSN) ' RockFall Safety Network']; if nRSN == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nRSN) ' RockFall Safety Networks']; end indice = indice +1; end if nDFSN > 0 contarray{indice,1} = [num2str(DFRSN) ' Debris Flow Safety Network']; if nDFSN == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nDFSN) ' Debris Flow Safety Networks']; end indice = indice +1; end if nVAS > 0 contarray{indice,1} = [num2str(nVAS) ' Vertical Array Structure']; if nVAS == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nVAS) ' Vertical Arrays Structure']; end indice = indice +1; end if nIPA > 0 contarray{indice,1} = [num2str(nIPA) ' In Place Array']; if nIPA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nIPA) ' In Place Arrays']; end indice = indice +1; end if nMUSA > 0 contarray{indice,1} = [num2str(nMUSA) ' MUSA']; if nMUSA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nMUSA) ' MUSAs']; end indice = indice +1; end if nKA > 0 contarray{indice,1} = [num2str(nKA) ' Klino Array']; if nKA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nKA) ' Klino Arrays']; end indice = indice +1; end if nAA > 0 contarray{indice,1} = [num2str(nAA) ' Analog Array']; if nAA == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nAA) ' Analog Arrays']; end indice = indice +1; end if nTS > 0 contarray{indice,1} = [num2str(nTS) ' Trigger System']; if nTS == 1 contarrayENG{indice,1} = contarray{indice,1}; else contarrayENG{indice,1} = [num2str(nTS) ' Trigger Systems']; end end arraysito = strjoin(contarray, ', '); arraysitoENG = strjoin(contarrayENG, ', '); if evita == 0 % Conto le tipologie di Control Tools indice_bis = 1; if nVMS > 0 conttools{indice_bis,1} = [num2str(nVMS) ' Variable Message System']; indice_bis = indice_bis +1; end if nTL > 0 conttools{indice_bis,1} = [num2str(nTL) ' Traffic Lights']; indice_bis = indice_bis +1; end if nAL > 0 conttools{indice_bis,1} = [num2str(nAL) ' Alarms']; indice_bis = indice_bis +1; end if nCAM > 0 conttools{indice_bis,1} = [num2str(nCAM) ' Camera']; end controlsito = strjoin(conttools, ', '); nCT = nVMS+nTL+nAL+nCAM; else controlsito = 0; nCT = 0; end %% Stabilisco se è presente o meno un sensore ed il numero di sensori per ogni tipologia [col,~] = size(chainID); % Numero di Array % Per ogni tipologia di nodo, riconosco se è presente o meno nella catena yesTL = zeros(col,1); % Tilt Link V yesTLHR = zeros(col,1); % Tilt Link HR V yesTLH = zeros(col,1); % Tilt Link H yesTLHRH = zeros(col,1); % Tilt Link HR H yesPL = zeros(col,1); % Piezo Link yesBL = zeros(col,1); % Baro Link yesLL = zeros(col,1); % Load Link yesRL = zeros(col,1); % Rain Link yesKL = zeros(col,1); % Klino Link yesKLHR = zeros(col,1); % Klino Link HR yesThL = zeros(col,1); % Therm Link yesPT100 = zeros(col,1); % PT100 link yesIPL = zeros(col,1); % In Place Link yesIPLHR = zeros(col,1); % In Place Link HR yesTuL = zeros(col,1); % Tunnel Link yesRaL = zeros(col,1); % Radial Link yesPCL = zeros(col,1); % Preconv Link yesPCLHR = zeros(col,1); % Preconv Link HR yesPrL = zeros(col,1); % Pressure Link yesEL = zeros(col,1); % Extensometer Link yes3DEL = zeros(col,1); % 3D Extensometer Link yesWEL = zeros(col,1); % Wire Extensometer Link yesMPBEL = zeros(col,1); % Multi Point BoreHole Extensometer Link yesCrL = zeros(col,1); % Crack Link yes2DCrL = zeros(col,1); % 2D Crack Link yes3DCrL = zeros(col,1); % 3D Crack Link yesBML = zeros(col,1); % Baro Musa Link yesHL = zeros(col,1); % Humidity link yesLuxL = zeros(col,1); % Lux link yesCO2 = zeros (col,1); % CO2 Link yesRSN = zeros (col,1); % RSN Link yesRSNHR = zeros (col,1); % RSN Link HR yesTrL = zeros (col,1); % Trigger Link yesSM = zeros (col,1); % Stress Meter yesPE = zeros(col,1); % Pendulum yesWL = zeros(col,1); % Weir Link yesGF = zeros(col,1); % G-Flow Link yesGS = zeros(col,1); % G-Shock Link % Numero di nodi per catena rTL = zeros(col,1); rTLHR = zeros(col,1); rTLH = zeros(col,1); rTLHRH = zeros(col,1); rPL = zeros(col,1); rBL = zeros(col,1); rLL = zeros(col,1); rRL = zeros(col,1); rKL = zeros(col,1); rKLHR = zeros(col,1); rThL = zeros(col,1); rPT100 = zeros(col,1); rIPL = zeros(col,1); rIPLHR = zeros(col,1); rTuL = zeros(col,1); rRaL = zeros(col,1); rPCL = zeros(col,1); rPCLHR = zeros(col,1); rPrL = zeros(col,1); rEL = zeros(col,1); r3DEL = zeros(col,1); rWEL = zeros(col,1); rMPBEL = zeros(col,1); rCrL = zeros(col,1); r3DCrL = zeros(col,1); rBML = zeros(col,1); rHL = zeros(col,1); rLuxL = zeros(col,1); rCO2 = zeros(col,1); rRSN = zeros(col,1); rRSNHR = zeros(col,1); rTrL = zeros(col,1); rSM = zeros(col,1); r2DCrL = zeros(col,1); rPE = zeros(col,1); rWL = zeros(col,1); rGF = zeros(col,1); rGS = zeros(col,1); indice = 1; [rCS,cCS] = size(Chain_Scheme); for ii = 1:rCS for jj = 1:cCS if isempty(cell2mat(Chain_Scheme(ii,jj))) == 1 Chain_Scheme{ii,jj} = 0; end end end Chain_Scheme = cell2mat(Chain_Scheme); NodoTiltLink = []; NodoTiltLinkHR = []; NodoTiltLinkH = []; NodoTiltLinkHRH = []; NodoPiezoLink = []; NodoBaroLink = []; NodoLoadLink = []; NodoRainLink = []; NodoKlinoLink = []; NodoKlinoLinkHR = []; NodoThermLink = []; NodoPT100Link = []; NodoInPlaceLink = []; NodoInPlaceLinkHR = []; NodoTunnelLink = []; NodoRadialLink = []; NodoPreConvLink = []; NodoPreConvLinkHR = []; NodoPressureLink = []; NodoExtensometerLink = []; Nodo3DExtensometerLink = []; NodoWireExtensometerLink = []; NodoMultiPointExtensometerLink = []; NodoCrackLink = []; Nodo3DCrackLink = []; NodoBaroMusaLink = []; NodoHumidityLink = []; NodoLuxLink = []; NodoCO2Link = []; NodoRSNLink = []; NodoRSNHRLink = []; NodoTriggerLink = []; NodoStressMeter = []; Nodo2DCrackLink = []; NodoPendulum = []; NodoWeirLink = []; NodoGflowLink = []; NodoGshockLink = []; for a = 1:col % Array nTL = 1; nTLHR = 1; nTLH = 1; nTLHRH = 1; nPL = 1; nBL = 1; nLL = 1; nRL = 1; nKL = 1; nKLHR = 1; nThL = 1; nPT100 = 1; nIPL = 1; nIPLHR = 1; nTuL = 1; nRaL = 1; nPCL = 1; nPCLHR = 1; nPrL = 1; nEL = 1; n3DEL = 1; nWEL = 1; nMPBEL = 1; nCrL = 1; n3DCrL = 1; nBML = 1; nHL = 1; nLuxL = 1; nCO2 = 1; nRSN = 1; nRSNHR = 1; nTrL = 1; nSM = 1; n2DCrL = 1; nPenL = 1; nWL =1; nGF = 1; nGS = 1; for b = 1:num_nodi(a) % Numero di nodi dell'Array if Chain_Scheme(b,indice) == 1 % Tilt Link V yesTL(a) = 1; NodoTiltLink(nTL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTL = nTL+1; elseif Chain_Scheme(b,indice) == 5 % Tilt Link HR V yesTLHR(a) = 1; NodoTiltLinkHR(nTLHR,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTLHR = nTLHR+1; elseif Chain_Scheme(b,indice) == 11 % Tilt Link H yesTLH(a) = 1; NodoTiltLinkH(nTLH,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTLH = nTLH+1; elseif Chain_Scheme(b,indice) == 12 % Tilt Link HR H yesTLHRH(a) = 1; NodoTiltLinkHRH(nTLHRH,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTLHRH = nTLHRH+1; elseif Chain_Scheme(b,indice) == 2 % Piezo Link yesPL(a) = 1; NodoPiezoLink(nPL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPL = nPL+1; elseif Chain_Scheme(b,indice) == 3 % Baro Link yesBL(a) = 1; NodoBaroLink(nBL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nBL = nBL+1; elseif Chain_Scheme(b,indice) == 15 % Load Link yesLL(a) = 1; NodoLoadLink(nLL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nLL = nLL+1; elseif Chain_Scheme(b,indice) == 27 % Rain Link yesRL(a) = 1; NodoRainLink(nRL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nRL = nRL+1; elseif Chain_Scheme(b,indice) == 26 % Klino Link yesKL(a) = 1; NodoKlinoLink(nKL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nKL = nKL+1; elseif Chain_Scheme(b,indice) == 44 % Klino Link HR yesKLHR(a) = 1; NodoKlinoLinkHR(nKLHR,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nKLHR = nKLHR+1; elseif Chain_Scheme(b,indice) == 4 % Therm Link yesThL(a) = 1; NodoThermLink(nThL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nThL = nThL+1; elseif Chain_Scheme(b,indice) == 28 % PT100 Link yesPT100(a) = 1; NodoPT100Link(nPT100,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPT100 = nPT100+1; elseif Chain_Scheme(b,indice) == 42 % In Place Link yesIPL(a) = 1; NodoInPlaceLink(nIPL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nIPL = nIPL+1; elseif Chain_Scheme(b,indice) == 43 % In Place Link HR yesIPLHR(a) = 1; NodoInPlaceLinkHR(nIPLHR,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nIPLHR = nIPLHR+1; elseif Chain_Scheme(b,indice) == 17 % Tunnel Link yesTuL(a) = 1; NodoTunnelLink(nTuL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTuL = nTuL+1; elseif Chain_Scheme(b,indice) == 18 % Radial Link yesRaL(a) = 1; NodoRadialLink(nRaL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nRaL = nRaL+1; elseif Chain_Scheme(b,indice) == 23 % PreConv Link yesPCL(a) = 1; NodoPreConvLink(nPCL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPCL = nPCL+1; elseif Chain_Scheme(b,indice) == 24 % PreConv Link HR yesPCLHR(a) = 1; NodoPreConvLinkHR(nPCLHR,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPCLHR = nPCLHR+1; elseif Chain_Scheme(b,indice) == 21 % Pressure Link yesPrL(a) = 1; NodoPressureLink(nPrL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPrL = nPrL+1; elseif Chain_Scheme(b,indice) == 16 % Extensometer Link yesEL(a) = 1; NodoExtensometerLink(nEL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nEL = nEL+1; elseif Chain_Scheme(b,indice) == 19 % 3D Extensometer Link yes3DEL(a) = 1; Nodo3DExtensometerLink(n3DEL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array n3DEL = n3DEL+1; elseif Chain_Scheme(b,indice) == 22 % Wire Extensometer Link yesWEL(a) = 1; NodoWireExtensometerLink(nWEL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nWEL = nWEL+1; elseif Chain_Scheme(b,indice) == 25 % Multi Point Borehole Extensometer Link yesMPBEL(a) = 1; NodoMultiPointExtensometerLink(nMPBEL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nMPBEL = nMPBEL+1; elseif Chain_Scheme(b,indice) == 36 % Crack Link yesCrL(a) = 1; NodoCrackLink(nCrL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nCrL = nCrL+1; elseif Chain_Scheme(b,indice) == 37 % 3D Crack Link yes3DCrL(a) = 1; Nodo3DCrackLink(n3DCrL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array n3DCrL = n3DCrL+1; elseif Chain_Scheme(b,indice) == 41 % Baro Musa Link yesBML(a) = 1; NodoBaroMusaLink(nBML,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nBML = nBML+1; elseif Chain_Scheme(b,indice) == 35 % Humidity Link yesHL(a) = 1; NodoHumidityLink(nHL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nHL = nHL+1; elseif Chain_Scheme(b,indice) == 34 % Lux Link yesLuxL(a) = 1; NodoLuxLink(nLuxL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nLuxL = nLuxL+1; elseif Chain_Scheme(b,indice) == 33 % CO2 Link yesCO2(a) = 1; NodoCO2Link(nCO2,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nCO2 = nCO2+1; elseif Chain_Scheme(b,indice) == 38 % RSN Link yesRSN(a) = 1; NodoRSNLink(nRSN,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nRSN = nRSN+1; elseif Chain_Scheme(b,indice) == 39 % RSN Link HR yesRSNHR(a) = 1; NodoRSNHRLink(nRSNHR,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nRSNHR = nRSNHR+1; elseif Chain_Scheme(b,indice) == 40 % Trigger Link yesTrL(a) = 1; NodoTriggerLink(nTrL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nTrL = nTrL+1; elseif Chain_Scheme(b,indice) == 47 % Stress Meter yesSM(a) = 1; NodoStressMeter(nSM,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nSM = nSM+1; elseif Chain_Scheme(b,indice) == 51 % 2D Crack Link yes2DCrL(a) = 1; Nodo2DCrackLink(n2DCrL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array n2DCrL = n2DCrL+1; elseif Chain_Scheme(b,indice) == 52 % Pendulum yesPE(a) = 1; NodoPendulum(nPenL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nPenL = nPenL+1; elseif Chain_Scheme(b,indice) == 53 % Weir Link yesWL(a) = 1; NodoWeirLink(nWL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nWL = nWL+1; elseif Chain_Scheme(b,indice) == 48 % G-Flow Link yesGF(a) = 1; NodoGflowLink(nWL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nGF = nGF+1; elseif Chain_Scheme(b,indice) == 50 % G-Shock Link yesGS(a) = 1; NodoGshockLink(nWL,a) = Chain_Scheme(b,indice+2); % Ogni colonna riporta i nodi di un array nGS = nGS+1; end end indice = indice+3; rTL(a) = nTL-1; rTLHR(a) = nTLHR-1; rTLH(a) = nTLH-1; rTLHRH(a) = nTLHRH-1; rPL(a) = nPL-1; rBL(a) = nBL-1; rLL(a) = nLL-1; rRL(a) = nRL-1; rKL(a) = nKL-1; rKLHR(a) = nKLHR-1; rThL(a) = nThL-1; rPT100(a) = nPT100-1; rIPL(a) = nIPL-1; rIPLHR(a) = nIPLHR-1; rTuL(a) = nTuL-1; rRaL(a) = nRaL-1; rPCL(a) = nPCL-1; rPCLHR(a) = nPCLHR-1; rPrL(a) = nPrL-1; rEL(a) = nEL-1; r3DEL(a) = n3DEL-1; rWEL(a) = nWEL-1; rMPBEL(a) = nMPBEL-1; rCrL(a) = nCrL-1; r3DCrL(a) = n3DCrL-1; rBML(a) = nBML-1; rHL(a) = nHL-1; rLuxL(a) = nLuxL-1; rCO2(a) = nCO2-1; rRSN(a) = nRSN-1; rRSNHR(a) = nRSNHR-1; rTrL(a) = nTrL-1; rSM(a) = nSM-1; r2DCrL(a) = n2DCrL-1; rPE(a) = nPenL-1; rWL(a) = nWL-1; rGF(a) = nGF-1; rGS(a) = nGS-1; end text = 'info_Sito function executed correctly'; fprintf(fileID,fmt,text); fclose(fileID); end