def main(): #setting up parser parser = argparse.ArgumentParser(description=__doc__) utils.add_standard_command_options(parser) parser.add_argument( "-e","--edbs", action="store",dest="edbList", help="List of 'user/edb' pairs separated by :" ) parser.add_argument( "-L","--labels", action="store", dest="labels", help="List of edb labels separated by :" ) parser.add_argument( "-s","--substances", action="store",dest="substances", help="List of substance names separated by :" ) parser.add_argument( "-t","--title", action="store",dest="title", help="Report title" ) parser.add_argument( "-g","--gc-filter", action="store",dest="gcfilter", help="Filter on Geo codes, separated by :" ) parser.add_argument( "-o","--outfile", action="store",dest="outfile", help="Output filename" ) parser.add_argument( "-f","--format", action="store",dest="format", help="Output in 'excel','csv' or 'raw' " + "(Excel-format requires xlwt python module)" ) parser.add_argument("--substMapping", action="store",dest="substMapping", help="File with tab separated mappings of substance names") parser.add_argument("--markerTable", action="store",dest="markerTable", help="Table of codes to be formatted and commented") parser.add_argument( "macro",metavar="MACRO", help="A macro to use" ) args = parser.parse_args() if args.markerTable is not None: keys=["Year","GC","AC","note_1","note_2"] markerTable = DataTable(keys=keys,desc=[{"id":"Year","type":str},{"id":"GC","type":str},{"id":"AC","type":str},{"id":"note_1","type":str},{"id":"note_2","type":str}]) markerTable.read(args.markerTable) else: markerTable=None substMapping={} if args.substMapping is not None: with codecs.open(args.substMapping,encoding="HP Roman8",mode="r") as f: for line in f: oldName,newName = line.split(":") substMapping[oldName.strip()]=newName.strip() dmn = Domain() if args.gcfilter is not None: args.gcfilter = args.gcfilter.split(":") # Read original macro with codecs.open(args.macro, encoding="HP Roman8", mode="r") as f: originalContent = f.read() # Create a tmp copy of the macro, write content from the original macro macroTempFile = tempfile.NamedTemporaryFile( suffix=".sedb", dir=dmn.tmpDir() ) tmpMacro = codecs.open( macroTempFile.name, encoding="HP Roman8",mode="w" ) tmpMacro.write(originalContent) tmpMacro.flush() # Create a ControlFile obj to simplify reading and modifying macro macro = ControlFile(macroTempFile.name, removeComments=False) ebd = macro.findString("edb.edb:") user = macro.findString("edb.user:"******"edb.reportgeocode:")[-1]) acIndex = int(macro.findString("edb.reportactcode:")[-1]) if args.edbList is None: ebds = [[user, edb]] else: edbs = args.edbList.split(":") edbs = [e.split("/") for e in edbs] nedbs = len(edbs) if args.labels is None: labels = ["No label"] * len(edbs) else: labels = args.labels.split(":") if len(labels) != nedbs: log.error("Number of labels specified should match number of edb:s") sys.exit(1) if args.substances is None: log.error("Need to specify substances") sys.exit(1) else: substances = args.substances.split(":") if args.format not in ('excel','csv','raw'): log.error( "Invalid format specifier : %s, should be one of 'excel'" + ", 'csv' or 'raw'" %args.format ) sys.exit(1) elif args.format == "excel": try: import xlwt except: log.error( "trendReport.py requires python module xlwt to write excel-files") sys.exit(1) # first edb # import pdb; pdb.set_trace() edb = Edb(dmn, edbs[0][0], edbs[0][1]) # assume same code definitions in all edbs to be processed, read from first rsrc = edb.rsrc nrsubstances = len(substances) unitIndex = int(macro.findString("UNIT :")) units = rsrc.search[unitIndex] subdb = Subdb(edb) subdb.read() #decode input title using stdin encoding title=args.title.decode(sys.stdin.encoding) rawOutput = "" rawMeta = u"name: %s\nnrmacros: %i\nnrsub: %i\nunit: %s\n" %( title, nedbs, nrsubstances, units) emissions = [] for ind, edbUser in enumerate(edbs): label = labels[ind] userName = edbUser[0] edbName = edbUser[1] macro.setParam("edb.user:"******"edb.edb:", edbName) macro.setParam("USER :"******"EDB :", edbName) rawMeta += "macro.%i.edbuser: %s\n" %(ind, userName) rawMeta += "macro.%i.edbname: %s\n" %(ind, edbName) rawMeta += "macro.%i.desc: %s\n" %(ind, label) for subst in substances: log.info( "User: %s, edb: %s, substance %s" %( userName, edbName, subst) ) substanceIndex = subdb.substIndex(subst) macro.setParam("ELEMENT :", substanceIndex) macro.write() command = "xrepedb -i " + macro.name log.info("Running xrepedb for substance %s" % subst) # import pdb; pdb.set_trace() (returnCode, errMsg, outMsg) = utilities.execute(command) if returnCode != 0: log.error("Could not run %s\nstdout: %s\nstderr:%s" %( command,outMsg,errMsg)) sys.exit(1) if len(outMsg) < 10: log.error("Invalid output from xrepedb: %s" % outMsg) sys.exit(1) rawOutput += "#MACRO %i \"%s\" \"%s\"\n" % (ind, subst, labels[ind]) rawOutput += outMsg lines = outMsg.split("\n")[:-1] for lineInd, line in enumerate(lines): vals = line.split() ac = vals[1].split(".") gc = vals[3].split(".") if len(ac) == 1: if ac[0] == "<all>": acLev1 = "alla" else: acLev1 = ac[0] acLev2 = "alla" else: acLev1 = ac[0] acLev2 = ac[1] if len(gc) == 1: if gc[0] == "<all>": gcLev1 = "alla" else: gcLev1 = gc[0] gcLev2 = "alla" else: gcLev1 = gc[0] gcLev2 = gc[1] emis = float(vals[4]) if acLev1 == "alla": acLev1Name = "alla" acLev2Name = "alla" else: node = rsrc.ac[acIndex - 1].root.find(acLev1) acLev1Name = node.attrib["name"] if acLev2 == "alla": acLev2Name = "alla" else: node = rsrc.ac[acIndex-1].root.find( acLev1 + "/" + acLev2 ) acLev2Name = node.attrib["name"] if gcLev1 == "alla": gcLev1Name = "alla" gcLev2Name = "alla" else: node = rsrc.gc[gcIndex-1].root.find(gcLev1) gcLev1Name = node.attrib["name"] if gcLev2 == "alla": gcLev2Name = "alla" else: node = rsrc.gc[gcIndex - 1].root.find( gcLev1 + "/" + gcLev2 ) gcLev2Name = node.attrib["name"] if args.gcfilter is not None: if gc[0] not in args.gcfilter: # if args.gcfilter != gcLev1: continue emissions.append({"label": label, "substance": subst, "ac": '.'.join(ac), "gc": '.'.join(gc), "gcLev1": gcLev1Name, "gcLev2": gcLev2Name, "acLev1": acLev1Name, "acLev2": acLev2Name, "acLev1Code": acLev1, "acLev2Code": acLev2, "val": emis, "edbIndex": ind}) #Close tempfile to automatically remove it tmpMacro.close() if args.format == "raw": outfile = codecs.open(args.outfile,"w","HP Roman8") outfile.write(rawMeta) outfile.write(rawOutput) outfile.close() elif args.format == "csv": outfile = open(args.outfile,"w") desc = [ {'id': 'gc', 'type': unicode}, {'id': 'ac', 'type': unicode}, {'id': 'label', 'type': unicode}, {'id': 'user', 'type': unicode}, {'id': 'edb', 'type': unicode} ] for subst in substances: desc.append({'id': subst, 'type': float}) keys = ['gc', 'ac', 'label'] table = DataTable(desc=desc, keys=keys) log.info("Adding emissions to csv-table") for emis in emissions: row = [None] * len(desc) user = edbs[emis['edbIndex']][0] edb = edbs[emis['edbIndex']][1] row[table.colIndex['gc']] = emis['gc'] row[table.colIndex['ac']] = emis['ac'] row[table.colIndex['label']] = emis['label'] row[table.colIndex['user']] = user row[table.colIndex['edb']] = edb row[table.colIndex[emis['substance']]] = emis['val'] # data is appended to the correct row, or a new row is added if the # table keys do not match any existing row log.debug( "Adding row for substance %s, gc %s, ac %s" %( emis['substance'], emis['gc'], emis['ac']) ) table.addRow(row, append=True) table.write(outfile) outfile.close() else: # Create style objects for excel output header1Style = xlwt.easyxf( 'font: name Times New Roman,color-index black, bold on', num_format_str='0.000E+00' ) markerStyle1 = xlwt.easyxf( 'font: name Times New Roman,color-index red, bold off, italic on', num_format_str='0.000E+00') markerStyle2 = xlwt.easyxf( 'font: name Times New Roman,color-index orange, bold off, italic on', num_format_str='0.000E+00') normalStyle = xlwt.easyxf( 'font: name Times New Roman,color-index black, bold off', num_format_str='0.000E+00' ) excelBook = xlwt.Workbook() # Creating info sheet infoWs = excelBook.add_sheet("Info") infoWs.col(0).width = 256*20 infoWs.col(1).width = 256*25 infoWs.col(2).width = 256*20 infoWs.col(3).width = 256*200 infoWs.write(0,0,u"Rapportnamn:",header1Style) infoWs.write(0,1,title,header1Style) infoWs.write(1,0,u"Beskrivning av dataunderlaget",header1Style) infoWs.write(3,0,u"Makron (specificerar utsökningar ur databasen)",header1Style) infoWs.write(4,0,u"Etikett",header1Style) infoWs.write(4,1,u"Ägare till EDB",header1Style) infoWs.write(4,2,u"EDB (emissiondatabas)",header1Style) infoWs.write(4,3,u"Beskrivning",header1Style) for i,edbUser in enumerate(edbs): userName=edbUser[0] edbName=edbUser[1] label=labels[i] infoWs.write(5+i,0,label) infoWs.write(5+i,1,userName) infoWs.write(5+i,2,edbName) #reading edb description file (if it exists) edb=Edb(dmn,userName,edbName) infoWs.write(5+i,3,edb.desc().replace("\n"," ")) #split substances in green house gases and air quality related ghgList=[s for s in substances if s in ghgs] aqList=[s for s in substances if s not in ghgs] #Write air quality headers firstRow=4 #Add two rows for marker comments if markerTable is not None: firstRow+=2 if len(aqList)>0: aqWs = excelBook.add_sheet(u"Luftföroreningar") aqWs.col(0).width = 256*25 aqWs.col(1).width = 256*30 aqWs.col(2).width = 256*20 aqWs.col(3).width = 256*15 for col in range(nrsubstances*nedbs): aqWs.col(col+4).width=256*15 aqWs.write(0,0,u"Rapportnamn:",header1Style) aqWs.write(0,1,title,header1Style) aqWs.write(1,0,u"Emissioner av luftföroreningar",header1Style) aqWs.write(1,1,u"Enhet: "+units,header1Style) if markerTable is not None: aqWs.write(2,0,u"OBS! Röd kursiv text anger osäkra värden p.g.a. att en stor del av emissionen är fördelad med schabloner inom kommungruppen. Granska underkategorin \"Energiförsörjning via el-värmeverk samt inom industrin\" för att se eventuella misstänkta värden.",markerStyle1) aqWs.write(3,0,u"OBS! Orange kursiv text anger osäkra värden p.g.a. att trenden varierar kraftigt och eventuellt felaktigt, ytterligare verifiering krävs. Granska underkategorin \"Energiförsörjning via el-värmeverk samt inom industrin\" för att se eventuella misstänkta värden.",markerStyle2) aqWs.write(firstRow,0,"Huvudsektor",header1Style) aqWs.write(firstRow,1,"Undersektor",header1Style) aqWs.write(firstRow,2,u"Län",header1Style) aqWs.write(firstRow,3,"Kommun",header1Style) #Write ghg headers if len(ghgList)>0: ghgWs = excelBook.add_sheet(u"Växthusgaser") ghgWs.col(0).width = 256*25 ghgWs.col(1).width = 256*30 ghgWs.col(2).width = 256*20 ghgWs.col(3).width = 256*15 for col in range(nrsubstances*nedbs): ghgWs.col(col+4).width=256*15 ghgWs.write(0,0,u"Rapportnamn:",header1Style) ghgWs.write(0,1,title,header1Style) ghgWs.write(1,0,u"Emissioner av Växthusgaser",header1Style) ghgWs.write(2,0,u"CO2-ekv. efter ämnesnamn innebär att emissionen är uttryckt i CO2-ekvivalenter",header1Style) if markerTable is not None: ghgWs.write(3,0,u"OBS! Röd kursiv text anger osäkra värden p.g.a. att en stor del av emissionen är fördelad med schabloner inom kommungruppen. Granska underkategorin \"Energiförsörjning via el-värmeverk samt inom industrin\" för att se eventuella misstänkta värden.",markerStyle1) ghgWs.write(4,0,u"OBS! Orange kursiv text anger osäkra värden p.g.a. att trenden varierar kraftigt och eventuellt felaktigt, ytterligare verifiering krävs. Granska underkategorin \"Energiförsörjning via el-värmeverk samt inom industrin\" för att se eventuella misstänkta värden.",markerStyle2) ghgWs.write(1,1,u"Enhet: "+units,header1Style) ghgWs.write(firstRow,0,"Huvudsektor",header1Style) ghgWs.write(firstRow,1,"Undersektor",header1Style) ghgWs.write(firstRow,2,u"Län",header1Style) ghgWs.write(firstRow,3,"Kommun",header1Style) def getColInd(nmacros, substances,macroInd,subst): #gets the column index in excel file sInd=substances.index(subst) #Including extra columns to write CO2-equivalents nSubstWithCO2equivalents=0 for s in substances[:sInd+1]: if s in doubleColumns: nSubstWithCO2equivalents+=1 return 4 + macroInd+sInd*nmacros+nSubstWithCO2equivalents*(macroInd+1) #write macro labels and substance headers for air quality sheet for sInd,subst in enumerate(aqList): for i,edbUser in enumerate(edbs): col=getColInd(nedbs,aqList,i,subst) aqWs.write(firstRow-1,col,labels[i],header1Style) #If a substance name is given in mapping this is used, otherwise #The substance bname from the airviro substance list is used aqWs.write(firstRow,col,substMapping.get(subst,subst),header1Style) #write macro labels and substance headers for ghg sheet for sInd,subst in enumerate(ghgList): for i,edbUser in enumerate(edbs): col=getColInd(nedbs,ghgList,i,subst) #If CO2-equivalents are calculated, an extra column is needed if subst in doubleColumns: ghgWs.write(firstRow-1,col-1,labels[i],header1Style) ghgWs.write(firstRow-1,col,labels[i],header1Style) #If CO2-equivalents are calculated, an extra column is needed if subst in doubleColumns: #debug statement #print "writing subst %s in col %i and %i" %(subst,col-1,col) ghgWs.write(firstRow,col-1,substMapping.get(subst,subst),header1Style) ghgWs.write(firstRow,col,substMapping.get(subst,subst)+"CO2-ekv.",header1Style) elif subst in storedAsCO2equivalents: #debug statement #print "writing subst %s in col %i" %(subst,col) ghgWs.write(firstRow,col,substMapping.get(subst,subst)+"CO2-ekv.",header1Style) else: #debug statement #print "writing subst %s in col %i" %(subst,col) ghgWs.write(firstRow,col,substMapping.get(subst,subst),header1Style) #looping over all emissions, writing them to the correct column and row ghgRow=[] aqRow=[] for m in range(nedbs*nrsubstances+4+3*nedbs): ghgRow.append(firstRow+1) for m in range(nedbs*nrsubstances+4): aqRow.append(firstRow+1) for emis in emissions: subst = emis["substance"] emisVal=emis["val"] edbInd=emis["edbIndex"] #Check if gc, ac and year can be found in the error list #debugging marker style if markerTable is not None: TableRowInd=markerTable.rowIndices([labels[edbInd], emis["gc"], emis["ac"], "ja","*"]) if len(TableRowInd) >0: valueStyle=markerStyle1 else: TableRowInd=markerTable.rowIndices([labels[edbInd], emis["gc"], emis["ac"], "*","ja"]) if len(TableRowInd)>0: valueStyle=markerStyle2 else: valueStyle=normalStyle else: valueStyle=normalStyle if subst in ghgList: col=getColInd(nedbs,ghgList,edbInd,subst) row=ghgRow[col] if ghgRow[0]<=+row: ghgWs.write(row,0,emis["acLev1"],normalStyle) ghgWs.write(row,1,emis["acLev2"],normalStyle) ghgWs.write(row,2,emis["gcLev1"],normalStyle) ghgWs.write(row,3,emis["gcLev2"],normalStyle) ghgRow[0]+=1 #converts the emission to CO2-ekquivalents if subst in doubleColumns: ghgWs.write(row,col-1,float(emisVal),valueStyle) ghgWs.write(row,col,float(emisVal)*float(ekvFactors[subst]),valueStyle) else: ghgWs.write(row,col,float(emisVal),valueStyle) ghgRow[col]+=1 else: col=getColInd(nedbs,aqList,edbInd,subst) row=aqRow[col] if aqRow[0]<=+row: aqWs.write(row,0,emis["acLev1"],normalStyle) aqWs.write(row,1,emis["acLev2"],normalStyle) aqWs.write(row,2,emis["gcLev1"],normalStyle) aqWs.write(row,3,emis["gcLev2"],normalStyle) aqRow[0]+=1 aqWs.write(row,col,float(emisVal),valueStyle) aqRow[col]+=1 excelBook.save(args.outfile) log.info("Finished!")