364 lines
16 KiB
Matlab
Executable File
364 lines
16 KiB
Matlab
Executable File
function [FIG,FIG_ENG,battANALOG,ATTIVA] = report_PT100(rPT100,m,NodoPT100Link,...
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toolrif,unitrif,datarif,Font_caption,Font_tools,siteID,DT,DT_ENG,FIG,FIG_ENG,...
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battANALOG,ATTIVA,activeEN,contunit,br,status,conn,FileName)
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fileID = fopen(FileName,'a');
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fmt = '%s \r';
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text = 'report_PT100 function started';
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fprintf(fileID,fmt,text);
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import mlreportgen.dom.*
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import mlreportgen.report.*
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% Make sure DOM is compilable
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makeDOMCompilable()
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if status(m,1) == 1
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if ATTIVA == 1
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ATTIVA = 0;
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testo = Paragraph('GMUX non ancora installato o canale inattivo.');
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add(DT,testo);
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if activeEN == 1
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testo = Paragraph('GMUX not installed or inactive.');
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add(DT_ENG,testo);
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end
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end
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elseif status(m,1) == 3
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if ATTIVA == 1
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ATTIVA = 0;
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testo = Paragraph(['Monitoraggio completato. Invitiamo a visitare la '...
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'piattaforma web per la visione dei dati storici.']);
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add(DT,testo);
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if activeEN == 1
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testo = Paragraph(['Monitoring completed. Please log into the web-based platform '...
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'to access the complete dataset.']);
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add(DT_ENG,testo);
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end
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end
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else
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PTE = Section();
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titolo = 1;
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if battANALOG == 0
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comando = ['select Date, Time, UnitName, ToolNameID, BatLevel, Temperature from RawDataView where Date >= ''' ...
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datarif ''' and UnitName = ''' char(unitrif) ''' and ToolNameID = '''...
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char(toolrif) ''' and NodeNum = 1 '];
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curs = exec(conn,comando);
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curs = fetch(curs);
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BatTemp = curs.Data;
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[~,cc] = size(BatTemp);
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if cc ~= 1 %ci sono dati riferiti all'ultimo mese/periodo di interesse
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DataPlot = [BatTemp(:,1) BatTemp(:,2)];
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% sistemo date, batteria e temperatura
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[rD,~] = size(DataPlot);
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T = [cell2mat(DataPlot(:,1)) repmat(' ', [rD,1]) cell2mat(DataPlot(:,2))];
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Date = datenum(T);
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Batteria = cell2mat(BatTemp(:,5));
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Temperatura = cell2mat(BatTemp(:,6));
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% testo introduttivo
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testoB1 = Paragraph(['I valori di tensione di alimentazione del GMUX durante il periodo '...
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'di monitoraggio sono riportati di seguito. Il corretto funzionamento del sistema '...
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char(232) ' assicurato per una carica superiore a 12 V. L''ultimo dato disponibile ' char(232) ' pari '...
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'a ' num2str(Batteria(end,1)) ' V.']);
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testoB2 = Paragraph(['Il GMUX integra al proprio interno un termometro '...
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'per monitorate la temperatura di esercizio ed identificare eventuali '...
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'anomalie. I dati di temperatura registrati sono riportati di seguito.']);
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testoB1.HAlign = 'justify';
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testoB2.HAlign = 'justify';
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% grafico batteria
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figure(19)
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plot(Date,Batteria);
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hold on
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title('Batteria e Temperatura del GMUX');
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xlabel('Data [gg/mm/aaaa]');
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ylabel('Livello di Batteria [V]');
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ylim([floor(min(Batteria(:,1))) ceil(max(Batteria(:,1)))]);
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yyaxis right
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GMUX = plot(Date,Temperatura,':','LineWidth',1.1);
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ylim([floor(min(Temperatura(:,1))) ceil(max(Temperatura(:,1)))]);
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ylabel(['Temperatura [' char(176) 'C]']);
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set(gca,'YColor','k');
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str(1,1) = cellstr('Batteria');
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str(2,1) = cellstr('Temperatura');
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legend(str,'Location','northwest');
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h = gca;
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h.XAxis.MinorTick = 'on';
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datetick('x','dd/mm/yyyy','keepticks','keeplimits');
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xtickangle(20);
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grid on
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grid minor
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xlim([Date(1)-1 Date(end)+1]);
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TempName = char(strcat('Report',siteID,'-', contunit,'-GMUX.png'));
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saveas(GMUX,TempName);
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ChartGMUX = Image(TempName);
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ChartGMUX.Style = {Height('8cm'),HAlign('center')};
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if Batteria(end,1) >= 12.5
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TempName = char(strcat('B_13.jpg'));
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elseif Batteria(end,1) >= 12
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TempName = char(strcat('B_12.jpg'));
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elseif Batteria(end,1) >= 11.3
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TempName = char(strcat('B_115.jpg'));
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elseif Batteria(end,1) >= 10.5
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TempName = char(strcat('B_11.jpg'));
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else
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TempName = char(strcat('B_10.jpg'));
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end
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Batt = Image(TempName);
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Batt.Style = {Height('4cm'),HAlign('center')};
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lot = Table({ChartGMUX, Batt});
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lot.TableEntriesStyle = {HAlign('center'),VAlign('middle')};
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lot.Style = {ResizeToFitContents(false),Width("100%")};
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grps(1) = TableColSpecGroup;
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grps(1).Span = 2;
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specs(1) = TableColSpec;
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specs(1).Span = 1;
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specs(1).Style = {Width("80%")};
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specs(2) = TableColSpec;
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specs(2).Span = 1;
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specs(2).Style = {Width("20%")};
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grps(1).ColSpecs = specs;
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lot.ColSpecGroups = grps;
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lot_cap = Paragraph(['Fig. ' num2str(FIG) ' - Livello di carica della batteria e temperatura del '...
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'GMUX durante il periodo di riferimento']);
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FIG = FIG+1;
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lot_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')};
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FIG = FIG+1;
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Chart_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')};
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sezBATT = Paragraph('GMUX - Batteria e Temperatura');
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sezBATT.Style = {FontSize(Font_tools),Bold(1),Italic(1)};
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add(DT,sezBATT);
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add(DT,testoB1);
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add(DT,testoB2);
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add(DT,lot);
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add(DT,lot_cap);
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add(DT,br);
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close(figure(19));
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if activeEN == 1
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testoB1 = Paragraph(['The following chart reports the GMUX battery level trend recorded '...
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'during the reference time period. '...
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'The correct functioning of the data acquisition system is guaranteed for a '...
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'minimum level of 12 V. The last available data is equal to ' num2str(Batteria(end,1)) ' V.']);
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testoB2 = Paragraph(['GMUX equips also a thermometer that allows the monitoring '...
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'of the working temperature and the identification of eventual malfunctioning. The same '...
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'chart displays also temperature data recorded by the multiplexer.']);
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testoB1.HAlign = 'justify';
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testoB2.HAlign = 'justify';
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% grafico batteria
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figure(19)
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plot(Date,Batteria);
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hold on
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title('GMUX battery level and temperature');
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xlabel('Date [dd/mm/yyyy]');
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ylabel('Battery Level [V]');
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ylim([floor(min(Batteria(:,1))) ceil(max(Batteria(:,1)))]);
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yyaxis right
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GMUX = plot(Date,Temperatura,':','LineWidth',1.1);
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ylim([floor(min(Temperatura(:,1))) ceil(max(Temperatura(:,1)))]);
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ylabel(['Temperature [' char(176) 'C]']);
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set(gca,'YColor','k');
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str(1,1) = cellstr('Battery');
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str(2,1) = cellstr('Temperature');
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legend(str,'Location','northwest');
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h = gca;
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h.XAxis.MinorTick = 'on';
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datetick('x','dd/mm/yyyy','keepticks','keeplimits');
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xtickangle(20);
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grid on
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grid minor
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xlim([Date(1)-1 Date(end)+1]);
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TempName = char(strcat('Report',siteID,'-', contunit,'-GMUX_ENG.png'));
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saveas(GMUX,TempName);
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ChartGMUX = Image(TempName);
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ChartGMUX.Style = {Height('8cm'),HAlign('center')};
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Batt = Image(TempNameB);
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Batt.Style = {Height('4cm'),HAlign('center')};
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lot = Table({ChartGMUX, Batt});
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lot.TableEntriesStyle = {HAlign('center'),VAlign('middle')};
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lot.Style = {ResizeToFitContents(false),Width("100%")};
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grps(1) = TableColSpecGroup;
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grps(1).Span = 2;
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specs(1) = TableColSpec;
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specs(1).Span = 1;
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specs(1).Style = {Width("80%")};
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specs(2) = TableColSpec;
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specs(2).Span = 1;
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specs(2).Style = {Width("20%")};
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grps(1).ColSpecs = specs;
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lot.ColSpecGroups = grps;
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lot_cap = Paragraph(['Fig. ' num2str(FIG_ENG) ' - Battery level and temperature recorded '...
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'by the GMUX during the reference time period']);
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FIG_ENG = FIG_ENG+1;
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lot_cap.Style = {HAlign('center'),FontSize(Font_caption),Italic(1),Color('midnightblue')};
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Batt_ENG = Section();
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sezBATT_ENG = Heading3('GMUX - Battery and temperature');
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sezBATT_ENG.Style = {FontSize(Font_tools),Bold(1),Italic(1)};
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Batt_ENG.Title = sezBATT_ENG;
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add(DT_ENG,sezBATT_ENG);
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add(DT_ENG,testoB1);
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add(DT_ENG,testoB2);
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add(DT_ENG,lot);
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add(DT_ENG,lot_cap);
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add(DT_ENG,br);
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close(figure(19));
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end
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battANALOG = 1;
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end
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end
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for n = 1:rPT100(m,1)
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NodeNum = num2str(NodoPT100Link(n,m));
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comando = ['select EventDate, EventTime, T_node from ElabDataView where EventDate >= ''' ...
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datarif ''' and ToolNameID = ''' char(toolrif) ''' and UnitName = ''' char(unitrif) ...
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''' and NodeNum = ''' NodeNum ''' '];
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curs = exec(conn,comando);
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curs = fetch(curs);
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Dati = curs.Data;
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% Modifico il formato di data e ora
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[rD,rC] = size(Dati);
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if rC ~= 1
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T = [cell2mat(Dati(:,1)) repmat(' ', [rD,1]) cell2mat(Dati(:,2))];
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Date = datenum(T); % Data
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TempPT100 = cell2mat(Dati(:,3)); % temperatura
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MaxTempPT100 = max(TempPT100);
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MinTempPT100 = min(TempPT100);
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% grafico temperatura
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figure(1)
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graficoPT100 = plot(Date,TempPT100);
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xlim([Date(1)-1 Date(end)+1]);
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title(['Andamento della temperatura registrata dal sensore numero ' NodeNum ]);
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xlabel('Data [gg/mm/aaaa]');
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ylabel(['Temperatura [' char(176) 'C]']);
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h = gca;
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h.XAxis.MinorTick = 'on';
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datetick('x','dd/mm/yyyy','keepticks','keeplimits');
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xtickangle(20);
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grid on
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grid minor
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TempName = char(strcat('Report',siteID,'-', char(toolrif),'PT100_',NodeNum,'.png'));
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if titolo == 1
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sezPT100 = Heading3('PT100 Link');
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sezPT100.Style = {OuterMargin('0in','0in','0.15in','0in'),FontSize(Font_tools),Bold(1),Italic(1)};
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PTE.Title = sezPT100;
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add(DT,sezPT100);
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if activeEN == 0
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titolo = 0;
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end
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end
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saveas(graficoPT100,TempName);
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ChartPT100 = Image(TempName);
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ChartPT100.Style = {Height('7.3cm'),HAlign('center')};
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ChartPT100_cap = Paragraph(['Fig. ' num2str(FIG) ' - Andamento della'...
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' temperatura misurata dalla sonda PT100 numero ' NodeNum...
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' durante il periodo temporale di riferimento']);
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FIG = FIG+1;
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ChartPT100_cap.Style = {HAlign('justify'),FontSize(Font_caption),Italic(1),Color('midnightblue')};
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testo = Paragraph(['I grafici seguenti mostrano i valori di temperatura '...
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'misurati dalle sonde PT100 collegato all''Analog Array.']);
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testo2 = Paragraph(['Durante il periodo temporale di riferimento, il nodo '...
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'numero ' NodeNum ' ha registrato valori massimi e minimi di temperatura rispettivamente pari '...
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'a ' num2str(MaxTempPT100,'%0.1f') '' char(176) 'C e ' num2str(MinTempPT100,'%0.1f') '' char(176) 'C.']);
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testo.HAlign = 'justify';
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if n == 1
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add(DT,testo);
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end
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add(DT,testo2);
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add(DT,ChartPT100);
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add(DT,ChartPT100_cap);
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if n == rPT100(m,1)
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add(DT,br);
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end
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close(figure(1));
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if activeEN == 1
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% grafico temperatura
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figure(1)
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graficoPT100 = plot(Date,TempPT100);
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xlim([Date(1)-1 Date(end)+1]);
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title(['Temperature recorded by sensor no. ' NodeNum ]);
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xlabel('Date [dd/mm/yyyy]');
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ylabel(['Temperature [' char(176) 'C]']);
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h = gca;
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h.XAxis.MinorTick = 'on';
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datetick('x','dd/mm/yyyy','keepticks','keeplimits');
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xtickangle(20);
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grid on
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grid minor
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TempName = char(strcat('Report',siteID,'-', char(toolrif),'PT100_',NodeNum,'_ENG.png'));
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if titolo == 1
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sezPT100 = Heading3('PT100 Link');
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sezPT100.Style = {OuterMargin('0in','0in','0.15in','0in'),FontSize(Font_tools),Bold(1),Italic(1)};
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PTE.Title = sezPT100;
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add(DT,sezPT100);
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titolo = 0;
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end
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saveas(graficoPT100,TempName);
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ChartPT100 = Image(TempName);
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ChartPT100.Style = {Height('7.3cm'),HAlign('center')};
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ChartPT100_cap = Paragraph(['Fig. ' num2str(FIG_ENG) ' - Time evolution of '...
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' the temperature recorded by PT100 sensor number ' NodeNum...
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' during the reference time period']);
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FIG_ENG = FIG_ENG+1;
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ChartPT100_cap.Style = {HAlign('justify'),FontSize(Font_caption),Italic(1),Color('midnightblue')};
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testo = Paragraph(['The following graphs show the temperature values '...
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'recorded by PT100 sensors.']);
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testo2 = Paragraph(['During the reference time period, node number '...
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NodeNum ' highlighted maximum and minimum temperature values equal to '...
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num2str(MaxTempPT100,'%0.1f') '' char(176) 'C and ' num2str(MinTempPT100,'%0.1f') '' char(176) 'C respectively.']);
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testo.HAlign = 'justify';
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if n == 1
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add(DT_ENG,testo);
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end
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add(DT_ENG,testo2);
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add(DT_ENG,ChartPT100);
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add(DT_ENG,ChartPT100_cap);
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if n == rPT100(m,1)
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add(DT_ENG,br);
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end
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close(figure(1));
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end
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%pulisco variabili da riutilizzare per catena successiva
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clear TempPT100;
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clear MaxTempPT100;
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clear MinTempPT100;
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else
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if ATTIVA == 1
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ATTIVA = 0;
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testo = Paragraph('Non sono presenti dati relativi al periodo temporale considerato.');
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add(DT,testo);
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if activeEN == 1
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testo = Paragraph('No data available for the reference time period.');
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add(DT_ENG,testo);
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if m == 1
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add(DT_ENG,br);
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end
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end
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end
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end
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end
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end
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text = 'report_PT100 function executed correctly';
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fprintf(fileID,fmt,text);
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fclose(fileID);
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end |