def processFile(domainName, user, edbName, filePath):
logger=logging.getLogger('loadRUSedb.processFile')
dmn=domain(domainName)
edb=Edb(domainName,user,edbName)
if not dmn.edbUserExist(user):
logger.error("Directory for user '"+user+"' does not exist in edb directory for domain '"+domain+"'")
sys.exit()
if not edb.exists():
edb.create()
logger.info("EDB '"+edb.name+"' for user '"+user+"' in domain '"+dmn.name+"' created")
if filePath[-3:]==".gz":
utilities.gunzip(filePath)
filePath=filePath[:-3]
filePath=filePath[:-5] #removing .data from the file name
#converting from dos-format to linux
utilities.dos2linux(filePath+".asc")
utilities.dos2linux(filePath+".data")
#create grid object
gridname=path.basename(filePath)
grid=Egrid(dmn.name,user,edb.name,gridname)
grid.load(filePath) #load grid into edb
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option("-u",'--user',
action="store",dest="user",
help="Name of target edb user")
parser.add_option("-e","--edb",
action="store",dest="edb",
help="Name of target edb")
parser.add_option("-i","--infile",
action="store",dest="infile",
help="Input csv file")
# parser.add_option("-y","--year",
# action="store",dest="year",
# help="Only store sources for given year")
parser.add_option("-v",dest='loglevel',
action="store_const",default=get_loglevel(),
help="produce verbose output")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
parser.add_option("-o", "--outfile",
action="store",dest="outfile",default=None,
help="Name of outfiles (without extension)")
parser.add_option("-d","--delimiter",
action="store",dest="delimiter",default="\t",
help="Delimiter used in csv-file")
parser.add_option("-c","--filterCol",
action="store",dest="filterCol",
help="Header of column to use as filter")
parser.add_option("-f","--filterVal",
action="store",dest="filterVal",
help="Value to use in filter")
# parser.add_option("-g", "--geocodeRasterDir",
# action="store",dest="geocodeRasterDir",default=None,
# help="Directory with geocode rasters")
(options, args) = parser.parse_args()
#--------------------Init logger-----------------------
# rootLogger = logger.RootLogger(level=options.loglevel)
logging.basicConfig(
format='%(levelname)s:%(name)s: %(message)s',
level=options.loglevel,
)
global log
# log = rootLogger.getLogger(sys.argv[0])
log = logging.getLogger(parser.prog)
#-----------------Validating options-------------------
if options.cf is not None:
generateCf(path.abspath(options.cf),controlFileTemplate)
log.info("Wrote default controlfile")
return 1
if options.user is None:
log.error("Need to specify -u <user>")
return 1
if options.edb is None:
log.error("Need to specify -e <edb>")
return 1
# if options.year is None:
# log.error("Need to specify -y <year>")
# return 1
# if len(options.year)!=4:
# log.error("Year should be given with four digits")
# return 1
if len(args)!=1:
log.error("Controlfile should be given as argument")
return 1
dmn=Domain()
edb=Edb(dmn,options.user,options.edb)
if not edb.exists():
log.error("Edb %s does not exist" %options.edb)
return 1
log.info("Parsing controlfile")
cf=ControlFile(args[0])
cdbPars=re.compile("companydb\.par\.(\w*?):").findall(cf.content)
fdbPars=re.compile("facilitydb\.par\.(\w*?):").findall(cf.content)
sdbPars=re.compile("sourcedb\.par\.(\w*?):").findall(cf.content)
substEmisNr=re.compile("sourcedb\.subst_emis\.([0-9]*)\.emis").findall(cf.content)
subgrpEmisNr=re.compile("sourcedb\.subgrp_emis\.([0-9]*)\.emis").findall(cf.content)
cdbCols={}
cdbDefaults={}
for par in cdbPars:
cdbCols[par]=cf.findString("companydb.par.%s:" %par)
cdbDefaults[par]=cf.findString("companydb.par.%s.default:" %par,
optional=True,default=None)
fdbCols={}
fdbDefaults={}
for par in fdbPars:
fdbCols[par]=cf.findString("facilitydb.par.%s:" %par)
fdbDefaults[par]=cf.findString("facilitydb.par.%s.default:" %par,
optional=True,default=None)
sdbCols={}
sdbDefaults={}
for par in sdbPars:
sdbCols[par]=cf.findString("sourcedb.par.%s:" %par)
sdbDefaults[par]=cf.findString("sourcedb.par.%s.default:" %par,
optional=True,default=None)
substEmisCols={}
substEmisDefaults={}
if substEmisNr is not None:
for emisNr in substEmisNr:
cols={}
defaults={}
emisPars=re.compile("sourcedb\.subst_emis\.%s\.(\w*?):" %(emisNr)).findall(cf.content)
emisDefaultPars=re.compile(
"sourcedb\.subst_emis\.%s\.(\w*?)\.default:" %(emisNr)).findall(cf.content)
if emisPars is not None:
for par in emisPars:
cols[par]=cf.findString("sourcedb.subst_emis.%s.%s:" %(emisNr,par))
if emisDefaultPars is not None:
for par in emisDefaultPars:
defaults[par]=cf.findString("sourcedb.subst_emis.%s.%s.default:" %(emisNr,par),
optional=True,default=None)
substEmisCols[emisNr]=cols
substEmisDefaults[emisNr]=defaults
subgrpEmisCols={}
subgrpEmisDefaults={}
if subgrpEmisNr is not None:
for emisNr in subgrpEmisNr:
cols={}
defaults={}
emisPars=re.compile("sourcedb\.subgrp_emis\.%s\.(\w*?):" %(emisNr)).findall(cf.content)
emisDefaultPars=re.compile(
"sourcedb\.subgrp_emis\.%s\.(\w*?)\.default:" %(emisNr)).findall(cf.content)
if emisPars is not None:
for par in emisPars:
cols[par]=cf.findString("sourcedb.subgrp_emis.%s.%s:" %(emisNr,par))
if emisDefaultPars is not None:
for par in emisDefaultPars:
defaults[par]=cf.findString("sourcedb.subgrp_emis.%s.%s.default:" %(emisNr,par),
optional=True,default=None)
subgrpEmisCols[emisNr]=cols
subgrpEmisDefaults[emisNr]=defaults
log.info("Reading subdb...")
subdb=Subdb(edb)
subdb.read()
log.info("Reading companydb...")
companydb=Companydb(edb)
companydb.read()
log.info("Reading sourcedb...")
# source_stream = SourceStream(edb, 'w')
source_stream = open(options.outfile, 'w')
source_writer = ModelWriter(source_stream,encoding="HP Roman8")
log.info("Reading facilitydb...")
facilitydb=Facilitydb(edb)
facilitydb.read()
log.info("Reading subgrpdb")
subgrpdb=Subgrpdb(edb)
subgrpdb.read()
log.info("Reading edb.rsrc")
rsrc=Rsrc(edb.rsrcPath())
acCodeTables=[]
for i in range(rsrc.numberOfCodeTrees("ac")):
acCodeTables.append(CodeTable(rsrc.path,codeType="ac",codeIndex=i+1))
gcCodeTables=[]
for i in range(rsrc.numberOfCodeTrees("gc")):
gcCodeTables.append(CodeTable(rsrc.path,codeType="gc",codeIndex=i+1))
geocodeRasters=[]
rast1=Raster()
rast1.read("/usr/airviro/data/geo/topdown/dynamicRasters/dynamic__GEOCODE__1.txt")
rast2=Raster()
rast2.read("/usr/airviro/data/geo/topdown/dynamicRasters/dynamic__GEOCODE__2.txt")
geocodeRasters.append(rast1)
geocodeRasters.append(rast2)
log.info("Reading csv-file")
table=DataTable()
table.read(options.infile,delimiter=options.delimiter,encoding="ISO-8859-15")
if options.filterCol is not None:
if options.filterCol not in table.colIndex:
log.error("Filter column header not found in table")
sys.exit(1)
invalid=False
nFiltered=0
nRows=0
log.info("Processing rows")
for rowInd,row in enumerate(table.data):
nRows+=1
if options.filterCol is not None:
filterVal=row[table.colIndex[options.filterCol]]
if options.filterVal!=str(filterVal):
nFiltered+=1
continue
comp = Company()
for par in comp.parOrder:
val=cdbDefaults.get(par,None)
if par in cdbCols:
colId=cdbCols[par]
try:
tableVal=row[table.colIndex[colId]]
except KeyError:
log.error(
"No column with header %s, columns: %s" %(
colId,str(table.listIds())))
if tableVal is not None:
val = tableVal
if val is not None:
#Too long names are truncated
if par=="NAME" and len(val)>45:
val=val[:45]
comp[par]=val
fac = Facility()
for par in fac.parOrder:
val=fdbDefaults.get(par,None)
if par in fdbCols:
colId=fdbCols[par]
tableVal=row[table.colIndex[colId]]
if tableVal is not None:
val = tableVal
if val is not None:
#Too long names are truncated
if par=="NAME" and len(val)>45:
val=val[:45]
fac[par]=val
src = Source()
for par in ["X1", "Y1","X2","Y2",
"PX","PY","NAME","INFO","INFO2","DATE","CHANGED",
"CHIMNEY HEIGHT","GASTEMPERATURE","GAS FLOW",
"SEARCHKEY1","SEARCHKEY2","SEARCHKEY3",
"SEARCHKEY4","SEARCHKEY5","CHIMNEY OUT","CHIMNEY IN",
"HOUSE WIDTH","HOUSE HEIGHT","NOSEGMENTS","BUILD_WIDTHS",
"BUILD_HEIGHTS","BUILD_LENGTHS","BUILD_DISTFARWALL",
"BUILD_CENTER","GEOCODE","FORMULAMACRO","ALOB"]:
val=sdbDefaults.get(par,None)
if par in sdbCols:
colId=sdbCols[par]
tableVal=row[table.colIndex[colId]]
if tableVal is not None:
val = tableVal
if val is not None:
#validate code
if par=="GEOCODE" and val is not None:
gcList=val.split()
for codeIndex,code in enumerate(gcList):
if not gcCodeTables[codeIndex].hasCode(code):
log.error("Invalid geo code %s on row %i" %(code,rowInd))
invalid=True
#Too long names are truncated
if par=="NAME" and len(val)>45:
val=val[:45]
#Store in src object and convert to correct type
src._fieldvalues[par] = lazy_parse(
src, par, val)
gc1=geocodeRasters[0].getVal(src.get_coord()[0],src.get_coord()[1])
gc2=geocodeRasters[1].getVal(src.get_coord()[0],src.get_coord()[1])
src.GEOCODE = [str(int(gc1)) + "." + str(int(gc2))]
for emisNr,emis in substEmisCols.items():
substEmis={"unit":None,"ac":None,"substance":None,"emis":None}
for par in substEmis.keys():
if par in emis:
substEmis[par]=row[table.colIndex[emis[par]]]
else:
try:
substEmis[par]=substEmisDefaults[emisNr][par]
except KeyError:
log.error(
"Need to specify column or default value for subgrp emis %i" %emisNr)
substInd=subdb.substIndex(substEmis["substance"])
if substInd is None:
log.error("Invalid substance name %s on row %i" %(
substEmis["substance"],rowInd))
sys.exit(1)
try:
unit=rsrc.sub[substEmis["unit"]]
except KeyError:
log.error("Invalid unit name %s on row %i" %(emis["unit"],rowInd))
sys.exit(1)
acList=substEmis["ac"].split('\\')[0].split()
for codeIndex,code in enumerate(acList):
# if code == "2.A.4.2":
# import pdb; pdb.set_trace()
refCode = acCodeTables[codeIndex].checkCode(code)
if refCode == "-":
log.error("Invalid activity code %s on row %i" %(code,rowInd))
sys.exit(1)
if refCode != code:
acList[codeIndex] = refCode
substEmis["ac"] = acList
if substEmis["emis"] is not None and substEmis["emis"]!="0":
try:
emis = src.add_emission()
emis.UNIT = substEmis["unit"]
emis.ACTCODE = substEmis["ac"] # needs re-formatting
emis.EMISSION = float(substEmis["emis"])
emis.SUBSTANCE = substInd
emis.auto_adjust_unit(edb)
except:
# print substEmis
# log.error("Invalid substance emission on row %i" %rowInd)
invalid=True
src.EMISSION=src.EMISSION[:-1]
for emis in subgrpEmisCols.values():
subgrpEmis={"unit":None,"ac":None,"name":None,"emis":None}
for par in subgrpEmis.keys():
if par in emis:
subgrpEmis[par]=row[table.colIndex[emis[par]]]
else:
try:
subgrpEmis[par]=subgrpEmisDefaults[emisNr][par]
except KeyError:
log.error(
"Need to specify column or default value for subgrp emis %i" %emisNr)
#validating subgrp name
try:
subgrp=subgrpdb.getByName(subgrpEmis["name"])
except KeyError:
log.error("Invalid subgrp name %s on row %i" %(subgrpEmis["name"],rowInd))
invalid=True
#validating subgrp emis unit
try:
unitFactor=rsrc.subGrpEm[subgrpEmis["unit"]]
except KeyError:
log.error("Invalid unit %s for subgrp emission on row %i" %(
subgrpEmis["unit"],rowInd))
invalid=True
#validating subgrp activity code
acList=subgrpEmis["ac"].split()
for codeIndex,code in enumerate(acList):
refCode = acCodeTables[codeIndex].checkCode(code)
if refCode == "-":
log.error("Invalid activity code %s on row %i" %(code,rowInd))
invalid=True
break
if refCode != code:
acList[codeIndex] = refCode
substEmis["ac"] = acList
try:
src.addSubgrpEmis(subgrp.index,emis=subgrpEmis["emis"],unit=subgrpEmis["unit"],
ac=subgrpEmis["ac"])
except:
log.error("Invalid subgrp emission on row %i" %rowInd)
invalid=True
companydb.append(comp,force=True)
facilitydb.append(fac,force=True)
source_writer.write(src)
# sourcedb.append(src)
if invalid:
log.info("No output written due to validation errors")
sys.exit(0)
if len(companydb.items)>0:
if options.outfile is None:
log.info("Writing companydb")
else:
log.info("Writing company db to file")
companydb.write(filename=options.outfile+".companydb")
if len(facilitydb.items)>0:
if options.outfile is None:
log.info("Writing facilitydb")
else:
log.info("Writing facilitydb to file")
facilitydb.write(filename=options.outfile+".facilitydb")
# if len(sourcedb.sources)>0:
# if options.outfile is None:
# log.info("Writing sourcedb")
# else:
# log.info("Writing sourcedb to file")
# sourcedb.write(filename=options.outfile+".sourcedb")
if options.filterCol is not None:
log.info("Filtered out %i out of %i" %(nFiltered,nRows))
def main():
#setting up parser
parser=OptionParser(usage= usage, version=version)
(options, args) = parser.parse_args()
#Setting up logging environment
logLevel=os.environ.get("LOG_LEVEL")
if logLevel==None or logLevel=="":
logLevel=2
logLevels={0:logging.NOTSET,
1:logging.WARNING,
2:logging.INFO,
3:logging.DEBUG}
rootLogger=logging.getLogger('')
logLevelObj=logLevels[int(logLevel)]
#info is written to stderr
#errors are written stdout
rootLogger.setLevel(logLevelObj)
infoHandler=logging.StreamHandler(sys.stderr)
infoHandler.setLevel(logLevel)
errHandler=logging.StreamHandler(sys.stdout)
errHandler.setLevel(logging.ERROR)
formatter = logging.Formatter('%(name)-12s: %(levelname)-8s %(message)s')
infoHandler.setFormatter(formatter)
errHandler.setFormatter(formatter)
rootLogger.addHandler(infoHandler)
rootLogger.addHandler(errHandler)
logger=logging.getLogger("trendReport")
if len(args)!=2:
parser.error("Incorrect number of arguments")
infile=path.abspath(args[0]) #file with emission data per code
outfile=path.abspath(args[1]) #path for output excel report
if not path.exists(infile):
logger.error("Input asciiReport does not exist")
sys.exit(-1)
#reading emission data file
f=codecs.open(infile,"r","HP Roman8")
dlines=f.readlines()
f.close()
#parsing meta-data file
dlines.pop(0)
dlines.pop(0)
name=dlines.pop(0)[5:].strip()
nrmacros=int(dlines.pop(0).split()[1])
nrsubstances=int(dlines.pop(0).split()[1])
units=dlines.pop(0)[5:].strip()
macros=[]
for mIndex in range(nrmacros):
edbuser=dlines.pop(0).split()[1]
edbname=dlines.pop(0).split()[1]
label=dlines.pop(0).split()[1]
macros.append({"edbuser":edbuser,"edbname":edbname,"label":label})
#finding path to edb.rsrc for first edb in trend
domainPath=os.environ["DBAS_PATH"]
domainName=os.environ["AVDBNAME"]
rsrcPath=path.join(domainPath,"edb",macros[0]["edbuser"],macros[0]["edbname"],"edb.rsrc")
#Creating codeTable object (for look-ups of activitycode names and geocodenames)
try:
cTable=codetable.CodeTable(rsrcPath)
except:
logger.error("Could not build code tree from .../dba/edb/edb.rsrc")
sys.exit(-1)
#parsing emission data file
macroIndex=0
emissions=[]
substances=[]
for line in dlines:
data=line.split()
if data[0]=="""#MACRO""": #if header, update substance and macro index
macroIndex=int(data[1])
subst=data[2].replace("\"","")
if subst not in substances:
substances.append(subst)
else: #else get codes and corresponding name
ac=data[1]
ac=ac.split(".")
if ac[0]=="<all>": #add "all" to get the right depth in the dictionary
ac=["all","all"]
elif len(ac)==1:
ac.append("all")
gc=data[3]
gc=gc.split(".")
if gc[0]=="<all>":
gc=["all","all"]
elif len(gc)==1:
gc.append("all")
gcLev1Name=cTable.gc[ gc[0] ][ "name" ]
if gc[1]!='all':
gcLev2Name=cTable.gc[ gc[0] ][ gc[1] ][ "name" ]
else:
gcLev2Name="Alla"
acLev1Name=cTable.ac[ ac[0] ][ "name" ]
if ac[1]!='all':
acLev2Name=cTable.ac[ ac[0] ][ ac[1] ]["name"]
else:
acLev2Name="Alla"
val=data[4]
emissions.append({"label":label,"substance":subst,"gcLev1":gcLev1Name,"gcLev2":gcLev2Name,"acLev1":acLev1Name,"acLev2":acLev2Name,"val":val,"macroIndex":macroIndex})
#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')
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,name,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 m in range(nrmacros):
infoWs.write(5+m,0,macros[m]["label"])
infoWs.write(5+m,1,macros[m]["edbuser"])
infoWs.write(5+m,2,macros[m]["edbname"])
#reading edb description file (if it exists)
edb=Edb(domainName,macros[m]["edbuser"],macros[m]["edbname"])
infoWs.write(5+m,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]
sheets={}
for s in substances:
sheets[s]=excelBook.add_sheet(s)
#Write air quality headers
for subst,sheet in sheets.iteritems():
firstRow=3
sheet.col(0).width = 256*25
sheet.col(1).width = 256*30
sheet.col(2).width = 256*20
sheet.col(3).width = 256*15
for col in range(nrsubstances*nrmacros):
sheet.col(col+4).width=256*15
sheet.write(0,0,u"Rapportnamn:",header1Style)
sheet.write(0,1,name,header1Style)
sheet.write(1,0,u"Emissioner av luftföroreningar",header1Style)
sheet.write(1,1,subst,header1Style)
sheet.write(firstRow,1,"Undersektor",header1Style)
sheet.write(firstRow,2,u"Län",header1Style)
sheet.write(firstRow,3,"Kommun",header1Style)
def getColInd(nmacros,macroInd,co2Ekv=False):
#gets the column index in excel file
if not co2Ekv:
return 4 + macroInd
else:
return 4+ macroInd + nmacros
#write macro labels and substance headers for air quality sheet
for sInd,subst in enumerate(substances):
for mInd,macro in enumerate(macros):
col=getColInd(nrmacros,mInd)
sheets[subst].write(firstRow-1,col,macro["label"],header1Style)
sheets[subst].write(firstRow,col,units,header1Style)
if subst in ghgList:
col=getColInd(nrmacros,mInd,co2Ekv=True)
sheets[subst].write(firstRow-1,col,macro["label"],header1Style)
sheets[subst].write(firstRow,col,units+u" (CO2-ekvivalenter)",header1Style)
#looping over all emissions, writing them to the correct column and row
sheetRow={}
for s in substances:
sheetRow[s]=[]
#For each sheet an array with as many values as there are columns with data
#Each value is initialized with the first row containing data
#Each value is a counter for the row number
for m in range(nrmacros*2+4):
for s in substances:
sheetRow[s].append(firstRow+1)
for emis in emissions:
subst = emis["substance"]
emisVal=emis["val"]
macroInd=emis["macroIndex"]
col=getColInd(nrmacros,macroInd)
row=sheetRow[subst][col]
#If row index for sheet is not larger than current row
#The meta data for the emission is written
if sheetRow[subst][0]<=row:
sheets[subst].write(row,0,emis["acLev1"],normalStyle)
sheets[subst].write(row,1,emis["acLev2"],normalStyle)
sheets[subst].write(row,2,emis["gcLev1"],normalStyle)
sheets[subst].write(row,3,emis["gcLev2"],normalStyle)
sheetRow[subst][0]+=1 #increment row in first col for sheet
sheets[subst].write(row,col,float(emisVal),normalStyle)
sheetRow[subst][col]+=1
if subst in ghgList:
col=getColInd(nrmacros,macroInd,co2Ekv=True)
#converts the emission to CO2-ekquivalents
sheets[subst].write(row,col,float(emisVal)*float(ekvFactors[subst]),normalStyle)
sheetRow[subst][col]+=1
excelBook.save(outfile)
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option('--src_user',
action="store",dest="src_user",
help="Name of target edb user")
parser.add_option("--src_edb",
action="store",dest="src_edb",
help="Name of target edb")
parser.add_option('--tgt_user',
action="store",dest="tgt_user",
help="Name of target edb user")
parser.add_option("--tgt_edb",
action="store",dest="tgt_edb",
help="Name of target edb")
parser.add_option("--codeIndex",
action="store",dest="codeIndex",
help="Activity code index to use for filter")
parser.add_option("--codeValue",
action="store",dest="codeValue",
help="Activity code value to filter by")
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-o", "--outfile",
action="store",dest="outfile",
help="Output filenam, leave out to write directly to target edb")
(options, args) = parser.parse_args()
#--------------------Init logger-----------------------
rootLogger = logger.RootLogger(level=options.loglevel)
global log
log = rootLogger.getLogger(sys.argv[0])
#-----------------Validating options-------------------
if options.src_user is None:
log.error("Need to specify --src_user <user>")
return 1
if options.src_edb is None:
log.error("Need to specify --src_edb <edb>")
return 1
if options.tgt_user is None:
log.error("Need to specify --tgt_user <user>")
return 1
if options.tgt_edb is None:
log.error("Need to specify --tgt_edb <edb>")
return 1
if len(args)!=0:
log.error("No argument expected")
return 1
dmn=Domain()
src_edb=Edb(dmn,options.src_user,options.src_edb)
tgt_edb=Edb(dmn,options.tgt_user,options.tgt_edb)
if not src_edb.exists():
log.error("Source edb %s does not exist") %options.src_edb
return 1
if not tgt_edb.exists():
log.error("Target edb %s does not exist") %options.tgt_edb
return 1
if options.codeIndex is None:
log.error("No code index specified")
return 1
if options.codeValue is None:
log.error("No code value specified")
return 1
log.info("Reading subdb...")
src_subdb=Subdb(src_edb)
src_subdb.read()
log.info("Reading sourcedb...")
src_sourcedb=Sourcedb(src_edb)
src_sourcedb.read()
tgt_sourcedb=Sourcedb(tgt_edb)
tgt_sourcedb.read()
#log.info("Reading subgrpdb")
#src_subgrpdb=Subgrpdb(src_edb)
#src_subgrpdb.read()
log.info("Reading edb.rsrc")
src_rsrc=Rsrc(src_edb.rsrcPath())
tgt_rsrc=Rsrc(tgt_edb.rsrcPath())
log.info("Reading target sourcedb...")
acCodeTables=[]
for i in range(tgt_rsrc.numberOfCodeTrees("ac")):
acCodeTables.append(CodeTable(tgt_rsrc.path,codeType="ac",codeIndex=i+1))
gcCodeTables=[]
for i in range(tgt_rsrc.numberOfCodeTrees("gc")):
gcCodeTables.append(CodeTable(tgt_rsrc.path,codeType="gc",codeIndex=i+1))
copiedSources=0
readSources=0
for src in src_sourcedb.sources:
hasEmis=False
src["PX"]=0
src["PY"]=0
toBeRemoved=[]
for substInd,emis in src.subst_emis.iteritems():
ac= emis["ACTCODE"][int(options.codeIndex)-1]
ac=[c for c in ac if c!="-"]
emis["ACTCODE"][int(options.codeIndex)-1]=ac #Remove '-'from code
ac=".".join(ac)
if ac!=options.codeValue:
toBeRemoved.append(substInd)
for key in toBeRemoved:
src.removeSubstEmis(key)
if src.subst_emis!={}:
hasEmis=True
toBeRemoved=[]
for subgrpInd,emis in src.subgrp_emis.iteritems():
ac= emis["ACTCODE"][int(options.codeIndex)-1]
ac=[c for c in ac if c!="-"]
emis["ACTCODE"][int(options.codeIndex)-1]=ac #Remove '-'from code
ac=".".join(ac)
if ac!=options.codeValue:
toBeRemoved.append(subgrpInd)
for key in toBeRemoved:
src.removeSubgrpEmis(key)
if src.subgrp_emis!={}:
hasEmis=True
toBeRemoved=[]
for actInd,emis in src.activity_emis.iteritems():
ac= emis["ACTCODE"][int(options.codeIndex)-1]
ac=[c for c in ac if c!="-"]
emis["ACTCODE"][int(options.codeIndex)-1]=ac #Remove '-'from code
ac=".".join(ac)
if ac!=options.codeValue:
toBeRemoved.append(actInd)
for key in toBeRemoved:
src.removeActivityEmis(key)
if src.activity_emis!={}:
hasEmis=True
readSources+=1
if hasEmis:
copiedSources+=1
tgt_sourcedb.sources.append(src)
if options.outfile is None:
log.info("Writing sources to target edb")
else:
log.info("Writing sources to file")
tgt_sourcedb.write(filename=options.outfile,force=True)
log.info("Successfully Copied %i out of %i sources" %(copiedSources,readSources))
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-u", "--user",
action="store", dest="user", default=None,
help="Specify user manually")
parser.add_option("-e", "--edb",
action="store", dest="edb", default=None,
help="Name of target edb")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
parser.add_option("-f", "--force",
action="store_true",dest="force",default=False,
help="To start the process without confirming the domain")
parser.add_option("-a", "--attributeFilter",
action="store",dest="attributeFilter",default=None,
help="Set to filter out roads with the specified attribute value, attribute field name is set in controlfile")
parser.add_option("-o","--outfile",
action="store",dest="outfile",default=None,
help="Output road ascii file")
parser.add_option("-g","--geofilter",
action="store",dest="geoFilter",default=None,
help="Filter out roads within polygons with field value matching the geoFilter, specify shapefile in controlfile")
parser.add_option("--scaleADT",
action="store",dest="ADTScaleFactor",default=None,
help="Scale ADT with a factor")
(options, args) = parser.parse_args()
#--------------------Init logger-----------------------
rootLogger = logger.RootLogger(options.loglevel,format="%(message)s")
global log
log = rootLogger.getLogger(sys.argv[0])
#-----------------Validating options-------------------
if options.cf!=None:
#Checks if the file already exists, prompt the user if overwrite is wanted, create file
controlfile.generateCf(path.abspath(options.cf),controlFileTemplate)
log.info("Wrote default controlfile")
sys.exit()
if len(args)!=1:
parser.error("Incorrect number of arguments")
if options.edb ==None:
parser.error("Need to specify edb using flag -e")
if options.user ==None:
parser.error("Need to specify user using flag -u")
if options.attributeFilter is not None:
attributeFilter=options.attributeFilter
else:
attributeFilter=None
domainName=os.environ["AVDBNAME"]
dmn = domain.Domain(domainName)
if not options.force:
answer=raw_input("Chosen dbase is: "+domainName+",continue(y/n)?")
if answer=="y":
dmn=domain.Domain()
else:
sys.exit(1)
if not dmn.edbExistForUser(options.edb,options.user):
log.error("Edb "+options.edb+" does not exist for user "+
options.user+" in domain "+domainName)
sys.exit(1)
#Creating edb object
edb=Edb(dmn.name,options.user,options.edb)
#Create edb rsrc object
rsrc=Rsrc(edb.rsrcPath())
#Creating a roaddb object
roaddb=Roaddb(dmn,options.user,edb.name)
#Creating a control-file object (simple parser)
cf=controlfile.ControlFile(fileName=path.abspath(args[0]),codec="latin6")
#Retrieving data from control file
shapeFilePath = cf.findExistingPath("shapeFile:")
asciiCodeTable = cf.findString("asciiCodeTable:",optional=True,default="latin6")
vehCompTablePath = cf.findExistingPath("vehicleCompositionTable:",optional=True)
attributeFilterFieldName=cf.findString("attributeFilterFieldName:",optional=True,default=None)
#Loads driver to read shape-files using ogr-library
driver = ogr.GetDriverByName('ESRI Shapefile')
#If option for geoFilter is used, the polygon defining the boundaries
#of the area to be filtered is read from geoFilterShapeFile
if options.geoFilter is not None:
gfShapeFilePath=cf.findExistingPath("geoFilterShapeFile:")
gfFieldName=cf.findString("geoFilterFieldName:")
gfShapeFile = driver.Open(str(gfShapeFilePath), update=0)
if gfShapeFile is None:
log.error("Could not open data source: " +gfShapeFilePath)
sys.exit(1)
gfLayer = gfShapeFile.GetLayer()
log.info("Found %i features in geocode shapefile" %gfLayer.GetFeatureCount())
geoFilterPolys=[]
gfFeature = gfLayer.GetNextFeature()
while gfFeature:
geocode=gfFeature.GetFieldAsString(str(gfFieldName))
if geocode==options.geoFilter:
geoFilterPoly=gfFeature.GetGeometryRef()
geoFilterPolys.append(geoFilterPoly)
gfFeature = gfLayer.GetNextFeature()
if len(geoFilterPolys)==0:
log.error("Could not find any polygon with field value matching the specified geoFilter in shapeFile: %s, field: %s" %(gfShapeFilePath,gfFieldName))
sys.exit(1)
#Creating table for default vehicle composition
if vehCompTablePath is not None:
vehCompTable=datatable.DataTable()
vehCompTable.read(vehCompTablePath)
try:
#Set columns used as unique row identifiers, raise error if they do not exist
vehCompTable.setKeys(["Vehicle","Tatort"])
for fuel in ["bensin","ethanol","diesel","CNG","Totalt"]:
vehCompTable.convertCol(fuel,float)
except DataTableException,msg:
log.error("Could not find column header in vehCompTable:"+msg)
sys.exit(1)
except ValueError:
log.error("Could not find fuel %s among column headers in vehCompTable:" %fuel)
sys.exit(1)
def setEdb(self, domainName, userName, edbName):
self.edb = Edb(domainName, userName, edbName)
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
logger=logging.getLogger("exportToEMEP.py")
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-u", "--user",
action="store", dest="user", default=None,
help="Specify user manually")
parser.add_option("-e", "--edb",
action="store", dest="edb", default=None,
help="Name of target edb")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
parser.add_option("-f", "--force",
action="store_true",dest="force",default=False,
help="To start the process without confirming the domain")
(options, args) = parser.parse_args()
#------------Setting up logging capabilities -----------
rootLogger=logger.RootLogger(int(options.loglevel))
log=rootLogger.getLogger(sys.argv[0])
if options.cf!=None:
generateCf(path.abspath(options.cf))
log.info("Wrote default controlfile")
sys.exit()
if len(args)!=1:
parser.error("Incorrect number of arguments")
domainName=os.environ["AVDBNAME"]
dmn = domain.Domain(domainName)
if options.edb ==None:
parser.error("Need to specify edb using flag -e")
if options.user ==None:
parser.error("Need to specify user using flag -u")
if not options.force:
answer=raw_input("Chosen dbase is: "+domainName+", continue(y/n)?")
if answer=="y":
dmn=domain.Domain()
else:
sys.exit("Interrupted by user")
if not dmn.edbExistForUser(options.edb,options.user):
log.error("Edb "+options.edb+" does not exist for user "+options.user+" in domain "+domainName)
sys.exit()
edb=Edb(dmn.name,options.user,options.edb)
rsrc=rsrc.Rsrc(edb.rsrcPath())
#Opening controlfile
cf=controlfile.ControlFile(fileName=path.abspath(args[0]))
substances=cf.findStringList("substances:")
outputDir=cf.findExistingPath("outputDir:")
acIndex=cf.findInt("acIndex:")
#Get activity code tree
codes=codetable.CodeTable(edb.rsrcPath(),acIndex=acIndex)
datadb=datadb.Datadb(dmn,options.user,edb.name)
datadb.read()
substDict=dmn.listSubstanceIndices()
#List grid names
gridNames=edb.listGrids()
for ac in codes.ac:
if ac=="all":
continue
pdb.set_trace()
log.debug("Activity code: "+ac)
dataMarker = emepgrid.emepRaster()
rasterDict={}
substancesWithData=[]
#Rereads grid list for each category to not fill the memory with emission grids
#Grid data is only read for grids with current ac
gridList=[]
for gridName in gridNames:
grd=Egrid(dmn.name,options.user,edb.name,gridName)
grd.readAsc()
if grd.hasFuel():
log.warning("Only support for non-fuel grids implemented, no processing done for grid "+gridName)
break
gridList.append(grd)
for subst in substances:
log.debug("Substance: "+subst)
substInd=substDict[subst]
totEmisRast=raster.Raster(Xll=1190000,Yll=6110000,Ncols=720,Nrows=1560,Cellsize=1000,init=0)
for grd in gridList:
if grd.par["ACTIVITYCODE"].val[0]==ac:
if len(grd.substances)==0:
grd.readData()
totEmisRast=totEmisRast+grd.substances.get(substInd,0)
for src in datadb.sources:
if src.par["ACTIVITYCODE"].val[0]==ac:
row,col=totEmisRast.getIndex(src.par["X1"].val,src.par["Y1"].val)
totEmisRast.data[row,col]+=src.getEmis(substInd,rsrc,"ton/year")
pdb.set_trace()
if not totEmisRast.sum()==0:
if subst not in substancesWithData:
substancesWithData.append(subst)
__RT90__="+proj=tmerc +lat_0=0 +lon_0=15d48\\'29.8\\\" +x_0=1500000 +k_0=1 +ellps=bessel +towgs84=414.1,41.3,603.1,-0.855,2.141,-7.023,0"
emepRast = emepgrid.sortToEmep(totEmisRast,__RT90__,printInfo=True)
dataMarker.data = numpy.where(emepRast.data > 0, 1, dataMarker.data)
rasterDict[subst]=emepRast
categoryDirPath = path.join(outputDir, ac)
if not path.isdir(categoryDirPath):
os.mkdir(categoryDirPath)
fileName = path.join(categoryDirPath, "Emep50km_" + subst+ ".asc")
emepRast.write(fileName)
log.info("Emissions in EMEP-projection for substance: " + subst + "written to outputDir for category: " + ac)
if len(rasterDict)>0:
#creating substance header in the same order as the substances in the template
header = "i\tj\t"
#headerList=["SO2","NOx","NH3","NMVOC","CO","TSP","PM10","PM25","Pb ","Cd","Hg","As","Cr","Cu","Ni","Se","Zn","Aldrin","Chlordane","Chlordecone","Dieldrin","Endrin","Heptachlor","Hexabromobiphenyl","Mirex","Toxaphene","HCH","DDT","PCB","DIOX","PAH","HCB","PCP","SCCP"]
for s in substancesWithData:
header += s + "\t"
#remove the tab after the last column and add a newline instead
header = header[: - 1]+ "\n"
#Creating file for EMEP-data
fileName = "CLRTAP_" + ac + ".txt"
categoryDirPath = path.join(outputDir, ac)
if not path.isdir(categoryDirPath):
os.mkdir(categoryDirPath)
fid = open(path.join(categoryDirPath, fileName), 'w')
fid.writelines(header)
#Writing indexes and data for all non-zero elements
for row in range(dataMarker.nrows):
for col in range(dataMarker.ncols):
if dataMarker.data[row, col] > 0:
(i, j) = dataMarker.getCentreCoords(row, col)
fid.write(str(i) + "\t" + str(j) + "\t")
for substWithData in substancesWithData[:-1]:
fid.write(str(rasterDict[substWithData].data[row, col]) + "\t")
fid.write(str(rasterDict[substancesWithData[-1]].data[row, col]) + "\n")
fid.close()
log.info("wrote emissions to clrtap-file: " + path.join(categoryDirPath, fileName))
log.info("Finished")
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!")
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option("-u",'--user',
action="store",dest="user",
help="Name of target edb user")
parser.add_option("-e","--edb",
action="store",dest="edb",
help="Name of target edb")
parser.add_option("-v","--viewports",
action="store",dest="viewports",
help="Comma-separated list of area id's to be cut out, default is all")
parser.add_option("-y","--year",
action="store",dest="year",
help="Cut out for given year")
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-s","--suffix",
action="store",dest="suffix",default="v1",
help="Sets suffix to names of generated edb's to support version management, default is 'v1'")
(options, args) = parser.parse_args()
#--------------------Init logger-----------------------
rootLogger = logger.RootLogger(level=options.loglevel)
global log
log = rootLogger.getLogger(sys.argv[0])
#-----------------Validating options-------------------
if options.user is None:
log.error("Need to specify -u <user>")
return 1
if options.edb is None:
log.error("Need to specify -e <edb>")
return 1
if options.year is None:
log.error("Need to specify -y <year>")
return 1
if len(options.suffix)>4:
log.error("Limit your suffix length to 4 characters")
return 1
if len(options.year)!=4:
log.error("Year should be given with four digits")
return 1
dmn=Domain()
viewports=[]
if options.viewports is not None:
viewportIds=options.viewports.split(",")
else:
viewportIds=dmn.listViewports()
for vpId in viewportIds:
vp=ViewPort()
vp.read(path.join(dmn.wndPath(),"modell.par"),vpId)
viewports.append(vp)
edb=Edb(dmn,options.user,options.edb)
log.info("Reading sourcedb...")
sourcedb=Sourcedb(edb)
sourcedb.read()
log.info("Reading emfacdb...")
emfacdb=Emfacdb(edb)
emfacdb.read()
log.info("Reading subdb...")
subdb=Subdb(edb)
subdb.read()
edbDotRsrc=edb.rsrcPath()
for vpInd,vp in enumerate(viewports):
targetEdbName=vp.code+"_"+options.year+"_"+options.suffix
tEdb=Edb(dmn,options.user,targetEdbName)
if tEdb.exists():
log.info("Edb %s already exists, remove first to update" %targetEdbName)
continue
tEdb.create(edbRsrc=edbDotRsrc)
log.info("Created empty edb %s" %targetEdbName)
subdb.setEdb(tEdb)
subdb.write()
log.info("Wrote searchkeys")
emfacdb.setEdb(tEdb)
emfacdb.write()
log.info("Wrote emfacdb")
tSourcedb=Sourcedb(tEdb)
log.info("Cutting out viewport %s (%i/%i)" %(vp.code,vpInd+1,len(viewports)))
for srcInd,src in enumerate(sourcedb.sources):
if includeShip(src,vp.code,src["Y1"],options.year):
log.debug("Ship %i/%i included in %s" %(srcInd+1,len(sourcedb.sources),tEdb.name))
tSourcedb.sources.append(src)
tSourcedb.write()
log.info("Wrote exatracted sources to %s" %tEdb.name)
tEdb.setDesc("This edb has been extracted from %s under user %s, " %(edb.name,edb.user)+
"and includes all ships that have visited the map area %s (%s) during %s\n" %(vp.code,vp.name,options.year))
log.info("Finished!")
return 0
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-u", "--user",
action="store", dest="user", default=None,
help="Specify user manually")
parser.add_option("-e", "--edb",
action="store", dest="edb", default=None,
help="Name of target edb")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
parser.add_option("-f", "--force",
action="store_true",dest="force",default=False,
help="To start the process without confirming the domain")
(options, args) = parser.parse_args()
# Setup logging
logging.configure(terminal_level=logging.DEBUG)
log = logging.getLogger(__name__)
if options.cf!=None:
generateCf(path.abspath(options.cf))
log.info("Wrote default controlfile")
sys.exit()
if len(args)!=1:
parser.error("Incorrect number of arguments")
if options.edb ==None:
parser.error("Need to specify edb using flag -e")
if options.user ==None:
parser.error("Need to specify user using flag -u")
dmn = Domain()
if not options.force:
answer=raw_input("Chosen dbase is: "+dmn.name+",continue(y/n)?")
if answer!="y":
sys.exit("Interrupted by user")
if not dmn.edbExistForUser(options.edb,options.user):
log.error("Edb "+options.edb+" does not exist for user "+
options.user+" in domain "+dmn.name)
sys.exit()
#---Creating edb and rsrc objects------------------
edb=Edb(dmn,options.user,options.edb)
rsrc=Rsrc(edb.rsrcPath())
#Opening controlfile
#---retrieving data from control file----
cf=ControlFile(fileName=path.abspath(args[0]))
substances=cf.findStringList("substances:")
outputDir=cf.findExistingPath("outputDir:")
acIndex=cf.findInt("acIndex:")
macroFileName=path.abspath(cf.findExistingPath("xrepedbMacro:"))
fromProj=cf.findString("fromProj:")
toProj=cf.findString("toProj:")
try:
fromProj=transcoord.proj4Dict[fromProj]
except KeyError:
log.error("Projection %s not found in proj4Dictin transCoord.py" %fromProj)
try:
toProj=transcoord.proj4Dict[toProj]
except KeyError:
log.error("Projection %s not found in proj4Dictin transCoord.py" %toProj)
formats = cf.findStringList("formats:")
units = cf.findString("units:")
writeGrids=cf.findBoolean("writeGrids:",optional=True,default=True)
edb_xll=cf.findInt("edb_xll:")
edb_yll=cf.findInt("edb_yll:")
edb_ncols=cf.findInt("edb_ncols:")
edb_nrows=cf.findInt("edb_nrows:")
edb_cellsize=cf.findFloat("edb_cellsize:")
if fromProj!=toProj:
out_xll=cf.findFloat("out_xll:")
out_yll=cf.findFloat("out_yll:")
out_ncols=cf.findInt("out_ncols:")
out_nrows=cf.findInt("out_nrows:")
out_cellsize=cf.findFloat("out_cellsize:")
#-----------------------------------------
#Finds index to search units
unitIndex=None
for key,unit in rsrc.search.iteritems():
if isinstance(key,int):
if rsrc.search[key]==units:
unitIndex=key
break
if unitIndex is None:
log.error("Search units: %s not defined in edb.rsrc" %units)
sys.exit()
macro = ControlFile(fileName=macroFileName,removeComments=False)
#preparing export macro
macro.setParam("general.database:",dmn.name)
xmin=edb_xll
xmax=edb_xll+edb_ncols*edb_cellsize
ymin=edb_yll
ymax=edb_yll+edb_nrows*edb_cellsize
macro.setParam("edb.mapopt.bounds:", "%i %i %i %i" %(xmin, xmax, ymin, ymax))
macro.setParam("edb.user:"******"edb.edb:",edb.name)
macro.setParam("REGION :","%i %i %i %i" %(xmin, xmax, ymin, ymax))
macro.setParam("USER :"******"EDB :",edb.name)
macro.setParam("GRID :",
"%i %i %i %i %i %i" %(edb_xll,edb_yll,edb_ncols,edb_nrows,edb_cellsize,edb_cellsize))
macro.setParam("edb.unit:",unitIndex)
macro.setParam("UNIT :",unitIndex)
# macro.setParam("NOACTCODE :",acIndex)
macro.setParam("NOACTCODE :",len(rsrc.ac))
#Get activity code tree
acTree=codeemistree.CodeEmisTree("Activity codes",units=units)
acTree.readActivityCodes(rsrc.path,acIndex)
substDict=dmn.listSubstanceIndices()
edbRast = Raster(Xll=edb_xll,Yll=edb_yll,Ncols=edb_ncols,
Nrows=edb_nrows,Cellsize=edb_cellsize,
Nodata=-9999,init=0)
if fromProj!=toProj:
outRastTemplate = Raster(Xll=out_xll,Yll=out_yll,Ncols=out_ncols,
Nrows=out_nrows,Cellsize=out_cellsize,
Nodata=-9999)
else:
outRastTemplate=Raster()
outRastTemplate.assign(edbRast)
for node in acTree.root.getiterator():
if node.tag=="root" or node.tag=="Record":
continue
ac=node.tag
log.debug("Activity code: "+ac)
#Finds row index for activity codes in macro
#Add a row with the current ac
#If there are many ac already given, these are
#replaced by the current ac
macroLines=macro.content.split("\n")
actCodeInd=None
geoCodeInd=None
for lineInd,line in enumerate(macroLines):
if "NOACTCODE" in line:
actCodeInd=lineInd
if "NOGEOCODE" in line:
geoCodeInd=lineInd
if len(ac.split('.')) >= rsrc.ac[acIndex-1].depth:
macroLines=macroLines[:actCodeInd+1]+["none"]*(acIndex-1)+[ac]+["none"]*(len(rsrc.ac)-acIndex)+macroLines[geoCodeInd:]
else:
macroLines=macroLines[:actCodeInd+1]+["none"]*(acIndex-1)+[ac+'.']+["none"]*(len(rsrc.ac)-acIndex)+macroLines[geoCodeInd:]
macro.content="\n".join(macroLines)
macro.write()
#boolean raster marking where there is data for any of the substances
if 'CLRTAP' in formats:
dataMarker = Raster(Xll=out_xll,Yll=out_yll,Ncols=out_ncols,
Nrows=out_nrows,Cellsize=out_cellsize,
Nodata=-9999,init=0)
rasterDict={}
substancesWithData=[]
for substance in substances:
log.debug("Substance %s" %substance)
substanceIndex=substDict[substance]
macro.setParam("ELEMENT :",substanceIndex)
macro.write()
command="xrepedb -i "+macro.name
(returnCode,errMsg,outMsg)=utilities.execute(command)
tmp=outMsg.split()[10:-2]
tmp.sort()
if tmp[0] == '0.000000E+00' and tmp[-1] == '0.000000E+00':
print "ERROR: The field for "+substance+" is empty!"
continue
# pdb.set_trace()
emisRast=string2rast(outMsg,edbRast)
emisSum=emisRast.sum()
outRast=Raster()
outRast.assign(outRastTemplate)
rec=ET.SubElement(node,"Record")
rec.attrib["substance"]=substance
rec.attrib["emission"]=str(emisSum)
if emisSum>0 and writeGrids:
if substance not in substancesWithData:
substancesWithData.append(substance)
if fromProj!=toProj:
exportRast = transcoord.transformEmisRaster(emisRast,outRast,fromProj,toProj,tmpDir=dmn.tmpDir())
else:
exportRast=emisRast
if 'CLRTAP' in formats:
dataMarker.data = numpy.where(exportRast.data > 0, 1, dataMarker.data)
rasterDict[substance]=exportRast
categoryDirPath = path.join(outputDir, ac)
if not path.isdir(categoryDirPath):
os.mkdir(categoryDirPath)
if 'ESRI Ascii grid' in formats:
fileName = path.join(categoryDirPath, substance+ ".asc")
exportRast.write(fileName)
log.debug("Grid for " + substance + "written to outputDir for category: " + ac)
summaryTable=acTree.createTable(writeAll=True)
summaryTable.sortRows()
tableFile=open(path.join(outputDir,"summaryTable.txt"),'w')
summaryTable.write(tableFile)
if len(rasterDict)>0 and 'CLRTAP' in formats:
#creating substance header in the same order as the substances in the template
header = "i\tj\t"
#headerList=["SO2","NOx","NH3","NMVOC","CO","TSP","PM10","PM25","Pb ","Cd","Hg","As","Cr","Cu","Ni","Se","Zn","Aldrin","Chlordane","Chlordecone","Dieldrin","Endrin","Heptachlor","Hexabromobiphenyl","Mirex","Toxaphene","HCH","DDT","PCB","DIOX","PAH","HCB","PCP","SCCP"]
for s in substancesWithData:
header += s + "\t"
#remove the tab after the last column and add a newline instead
header = header[: - 1]+ "\n"
#Creating file for EMEP-data
fileName = "CLRTAP_" + ac + ".txt"
categoryDirPath = path.join(outputDir, ac)
if not path.isdir(categoryDirPath):
os.mkdir(categoryDirPath)
fid = open(path.join(categoryDirPath, fileName), 'w')
fid.writelines(header)
sum=0
#Writing indexes and data for all non-zero elements
for row in range(dataMarker.nrows):
for col in range(dataMarker.ncols):
if dataMarker.data[row, col] > 0:
(i, j) = dataMarker.getCentreCoords(row, col)
fid.write(str(i) + "\t" + str(j) + "\t")
for substWithData in substancesWithData[:-1]:
fid.write(str(rasterDict[substWithData].data[row, col]) + "\t")
sum+=rasterDict[substWithData].data[row, col]
fid.write(str(rasterDict[substancesWithData[-1]].data[row, col]) + "\n")
sum+=rasterDict[substancesWithData[-1]].data[row, col]
fid.close()
log.info("wrote emissions to clrtap-file: " + path.join(categoryDirPath, fileName))
log.info("Finished")
def main():
actionList = [
'addSubstance',
'removeSubstance',
'mapSubstances',
'addCodeTree',
'removeCodeTree',
'moveCodeTree',
'extractByGeocode',
'uniteGrids',
'scale'
]
# setting up parser
parser = argparse.ArgumentParser(
description=__doc__,
formatter_class=argparse.ArgumentDefaultsHelpFormatter
)
utils.add_standard_command_options(parser)
parser.add_argument("-d", "--doc",
action="store_true", dest="doc",
help="Prints more detailed documentation and exit")
parser.add_argument("-u", "--user",
action="store", dest="user", default=None,
help="Specify user manually")
parser.add_argument("-e", "--edb",
action="store", dest="edb", default=None,
help="Name of target edb")
parser.add_argument("-s", "--substance", action="store",
dest="substance",
help="Name of substance to add or remove")
parser.add_argument("--substanceFactorFile", action="store",
dest="substanceFactorFile",
help="File with substance factors")
parser.add_argument("--substanceMapping", action="store",
dest="substanceMapping",
help="File with mapping for substance indices")
parser.add_argument("--codeMapping", action="store",
dest="codeMapping",
help="File with mapping from old codes to new")
parser.add_argument("--edbMapping", action="store",
dest="edbMapping",
help="File with mapping from gc to edb")
parser.add_argument("-f", "--force",
action="store_true", dest="force", default=False,
help="Start the process without confirming the domain")
parser.add_argument("--factor",
action="store", type=float, dest="factor",
help="Factor used to scale emissions")
parser.add_argument(
"-n", "--names", action="store",
dest="sourceNames", default=['.*'],
nargs='*',
help="Space separated list of regular expressions"
)
parser.add_argument(
"--sourceTypes", action="store",
dest="sourceTypes",
nargs='*',
default=['griddb', 'sources'],
choices=["griddb", "sources", "subgrpdb", "svehdb", "vehdb"],
help="Source types to process"
)
parser.add_argument(
"--codeType", action="store",
dest="codeType", default='ac',
help="Code type to process"
)
parser.add_argument(
"--codeIndex", action="store",
dest="codeIndex", default=1, type=int,
help="Index of code tree to use in processing"
)
parser.add_argument(
"--newIndex", action="store",
dest="newIndex", default=None,
help="New index when moving an already defined code tree"
)
parser.add_argument(
"--codeLevel", action="store",
dest="codeLevel", default=1, type=int,
help="Level of code tree to use in processing")
parser.add_argument(
"--actions", action="store",
dest="actions",
nargs='*',
choices=actionList,
help="Action list"
)
args = parser.parse_args()
if args.doc:
print doc
sys.exit()
# if len(args) > 0:
# log.error("Incorrect number of arguments")
# sys.exit(1)
if args.edb is None:
log.error("Need to specify edb")
sys.exit(1)
if args.user is None:
log.error("Need to specify user")
sys.exit(1)
dmn = Domain()
edb = Edb(dmn, args.user, args.edb)
subdb = Subdb(edb)
subdb.read()
rsrc = Rsrc(edb.rsrcPath())
# Check if edb exist
if not edb.exists():
log.error("Edb " + args.edb + " does not exist for user " +
args.user + " in domain " + dmn.name)
sys.exit(1)
if args.codeType.lower() == "ac":
codeType = "ACTIVITYCODE"
elif args.codeType.lower() == "gc":
codeType = "GEOCODE"
else:
parser.error("codeType should be either 'gc' or 'ac'")
if args.codeIndex < 1:
raise ValueError("Minimum code index is 1")
if args.codeIndex > 1 and codeType == "gc":
raise OSError("Multiple geocode trees not implemented")
for a in args.actions:
if a not in actionList:
parser.error("Unknown action %s" % a)
log.info("User: "******"Edb: " + args.edb)
loadGridData = False
# Set values in argsDict
argDict = {
"edb": edb,
"user": args.user,
"domain": dmn,
"grids": [],
"filters": args.sourceNames,
"codeType": codeType,
"codeIndex": args.codeIndex,
"codeLevel": args.codeLevel,
"sources": None,
"griddb": None,
"subgrpdb": None,
"roaddb": None,
"vehdb": None,
"svehdb": None,
"rsrc": rsrc
}
# ----- Reading sources from edb -------------------------------
if 'griddb' in args.sourceTypes:
grids = []
gridNames = edb.listGrids()
for name in gridNames:
grd = egrid.Egrid(edb, name)
grd.readAsc()
grids.append(grd)
argDict["grids"] = grids
if 'sources' in args.sourceTypes:
argDict["sources"] = list(ModelReader(SourceStream(edb, mode='r')))
if 'roaddb' in args.sourceTypes:
log.error("Not implemented with new roaddb-structure")
sys.exit(1)
if 'subgrpdb' in args.sourceTypes:
subgrpdb = Subgrpdb(edb)
subgrpdb.read()
argDict["subgrpdb"] = subgrpdb
# emfacdbdb = Emfacdb(edb)
# emfacdb.read()
# argDict["subgrpdb"] = subgrpdb
if 'svehdb' in args.sourceTypes:
svehdb = Svehdb(edb)
svehdb.read()
argDict["svehdb"] = svehdb
# TODO: add option for vehdb
# parse additional args
# -----addSubstance--------------------------------------
if "addSubstance" in args.actions:
if args.substance is None:
parser.error("Action addSubstance needs" +
"--substance to be specified")
if args.substanceFactorFile is None:
parser.error("Option addSubstance also needs" +
"--substanceFactorFile to be specified")
if args.substance not in subdb.substIndices:
raise ValueError(
"Substance %s not in substance list" % args.substance)
substanceNameFactorDict = parseMapping(
path.abspath(args.substanceFactorFile),
valueType=float)
substanceFactorDict = {}
# Converts mapping between substance name and factor to
# mapping between substance index and factor
for name, factor in substanceNameFactorDict.iteritems():
if name not in subdb.substIndices:
raise KeyError(
"Substance : %s not found in substance list" % name
)
ind = subdb.substIndices[name]
substanceFactorDict[ind] = factor
argDict["substanceFactorDict"] = substanceFactorDict
argDict["substance"] = subdb.substIndices[args.substance]
# ----removeSubstance------------------------------------
if "removeSubstance" in args.actions:
if args.substance is None:
parser.error("Action removeSubstance needs" +
"--substance to be specified")
if args.substance not in subdb.substIndices:
log.error("Substance %s not in substance list" % args.substance)
sys.exit(1)
argDict["substance"] = subdb.substIndices[args.substance]
# ----mapSubstances--------------------------------------
if "mapSubstances" in args.actions:
if args.substanceMapping is None:
parser.error("Action mapSubstances needs" +
"--substanceMapping to be specified")
substanceMappingFile = path.abspath(args.substanceMapping)
substanceMapping = parseMapping(
substanceMappingFile,
keyType=int,
valueType=int
)
argDict["substanceMapping"] = substanceMapping
# ----addCodeTree-----------------------------------------
if "addCodeTree" in args.actions:
if args.codeMapping is None:
parser.error("Action addCodeTree needs" +
"--codeMapping to be specified")
if args.newIndex is None:
parser.error("Action addCodeTree needs" +
"--newIndex to be specified")
codeMappingFile = path.abspath(args.codeMapping)
codeMapping = parseMapping(codeMappingFile)
argDict["codeMapping"] = codeMapping
argDict["newIndex"] = int(args.newIndex)
# ----removeCodeTree-------------------------------------
# Only arguments with default values needed, no validation is needed
# ----moveCodeTree---------------------------------------
if "moveCodeTree" in args.actions:
if args.newIndex is None:
parser.error("Action moveCodeTree needs" +
"--newIndex to be specified")
try:
argDict["newIndex"] = int(args.newIndex)
except ValueError:
log.error("newIndex must be an integer value")
sys.exit(1)
# ----extractByGeocode-----------------------------------
if "extractByGeocode" in args.actions:
if args.edbMapping is None:
parser.error("Action extractByGeocode needs" +
"--edbMapping to be specified")
log.info("Slicing edb by geocode")
edbMappingFile = path.abspath(args.edbMapping)
# Geocode has to be int
edbMapping = parseMapping(edbMappingFile, keyType=int)
argDict["edbMapping"] = edbMapping
if 'scale' in args.actions:
argDict['substance'] = subdb.substIndices[args.substance]
argDict['factor'] = args.factor
if args.factor is None:
log.error("Must specify --factor")
sys.exit(1)
if args.substance is None:
log.error("Must specify --substance")
sys.exit(1)
# Processing actions
for action in args.actions:
log.info("Running action: %s" % action)
argDict = eval(action)(argDict)
# Writes each processed grid to edb
if loadGridData:
for grd in argDict["grids"]:
if not match(grd["NAME"], argDict["filters"]) or grd.hasSubgrp():
continue
else:
log.debug(
"Wrote grid %s to edb: %s, user: %s" % (
grd.par["NAME"].val, grd.edb.name, grd.user)
)
grd.load()
else:
for grd in argDict["grids"]:
if not match(grd["NAME"], argDict["filters"]) or grd.hasSubgrp():
continue
else:
log.debug(
"Wrote .asc-file for grid %s to edb: %s, user: %s" % (
grd.par["NAME"].val, grd.edb.name, grd.user)
)
grd.writeAsc(grd.getAscPath())
# Writes each processed database to edb
if argDict["sources"] is not None:
with SourceStream(edb, mode="w") as stream:
model_writer = ModelWriter(stream)
for src in argDict["sources"]:
log.debug('Wrote source %s' % src.NAME)
model_writer.write(src)
for dbName in ["roaddb", "subgrpdb", "svehdb", "vehdb"]:
if argDict[dbName] is not None:
argDict[dbName].write()
log.info(
"Wrote %s to edb: %s, user: %s" % (
dbName, edb.name, edb.user)
)
def extractByGeocode(argDict):
"""Extracts sources by geocode and saves to edb's for other users specified
in a file with users, and optionally edb's, specified for each geocode"""
edb = argDict["edb"]
mapping = argDict["edbMapping"]
codeLevel = argDict["codeLevel"]
codeIndex = argDict["codeIndex"]
# Processing grid sources
for grd in argDict["grids"]:
if not match(grd.par["NAME"].val, argDict["filters"]):
continue
# dict with (user,edb) as key and a list of gc to be included as value
subEdbs = {}
allFound = True
for gc in mapping:
# The mapping can contain only users for each geocode, in that case
# The users are stored as values and the original edb name is used
# as default
# If both user and edb name is given, the values are given in a
# list for each gc
if isinstance(mapping[gc], list):
tmp_user = mapping[gc][0]
tmp_edb = mapping[gc][1]
else:
tmp_user = mapping[gc]
tmp_edb = edb.name
subEdb = Edb(argDict["domain"], tmp_user, tmp_edb)
if (tmp_user, tmp_edb) in subEdbs:
subEdbs[(tmp_user, tmp_edb)].append(gc)
else:
subEdbs[(tmp_user, tmp_edb)] = [gc]
# Check if edb exist, and if so if grid exist
# (to save time when updating)
if subEdb.exists():
if grd.name not in subEdb.listGrids():
allFound = False
continue
else:
allFound = False
if allFound:
log.info(
"Splitted grid " +
"%s already exist for all" % grd.name +
" geocodes, remove to update")
continue
log.debug("Reading grid: %s" % grd.name)
grd.readData()
for user_edb, gcList in subEdbs.iteritems():
subEdb = Edb(argDict["domain"], user_edb[0], user_edb[1])
subEdb.rsrc = edb.rsrc
# extract data from grid that maches any of the geocodes in gcList
subGrid = grd.sliceByGeoCode(
codeLevel - 1,
map(int, gcList),
subEdb
)
if subGrid is not None:
if not subEdb.exists():
subEdb.create(edbRsrc=edb.rsrcPath())
log.debug("Created edb for user %s" % subEdb.user)
log.debug(
"Writing grid: %s to edb %s for user %s" % (
grd.name,
subEdb.name,
subEdb.user)
)
subGrid.load()
if argDict["sources"] is not None:
sub_source_writers = {}
# subCompanydbs = {}
# subFacilitydbs = {}
# Read substance groups
subgrpdb = Subgrpdb(edb)
subgrpdb.read()
facilitydb = Facilitydb(edb)
facilitydb.read()
companydb = Companydb(edb)
companydb.read()
for src in argDict["sources"]:
if not match(src.NAME, argDict["filters"]):
continue
# gc = int(src.GEOCODE[codeIndex - 1][codeLevel - 1])
gc = int(src.GEOCODE[codeIndex - 1].split(".")[codeLevel - 1])
if src.PX is not None and src.PX != 0:
facility = facilitydb.index[(src.PX, src.PY)]
company = companydb.index[facility["COMPANY"]]
# If no mapping is provided for a gc it is ignored
if gc not in mapping:
continue
# create sub-edb and corresponding db:s
if gc not in sub_source_writers:
tmp_user = mapping[gc]
subEdb = Edb(argDict["domain"], tmp_user, edb.name)
# If a sub-edb does not exist,
# create a new one with edb.rsrc from original edb
if not subEdb.exists():
subEdb.create(edbRsrc=edb.rsrcPath())
sub_source_writers[gc] = ModelWriter(
SourceStream(subEdb, mode='w')
)
# subCompanydbs[gc] = Companydb(subEdb)
# subFacilitydbs[gc] = Facilitydb(subEdb)
# Write substance groups to subEdb
subgrpdb.setEdb(subEdb)
log.info("Writing subgrpdb for user %s" % subEdb.user)
subgrpdb.write()
# subCompanydbs[gc].append(company, force=True)
# subFacilitydbs[gc].append(facility,force=True)
sub_source_writers[gc].write(src)
# write all sources
for gc in sub_source_writers:
# log.info("Writing companies to edb for gc %i" % gc)
# subCompanydbs[gc].write()
# log.info("Writing facilities to edb for gc %i" % gc)
# subFacilitydbs[gc].write()
log.info("Writing sources to edb for gc %i" % gc)
return argDict
def main():
# Parse command line arguments
parser = argparse.ArgumentParser(description=__doc__)
utils.add_standard_command_options(parser)
parser.add_argument("controlfile", metavar='CONTROLFILE',
action="store",
help="Controlfile for topdown processing")
parser.add_argument("-t", "--template", metavar='TEMPLATEFILE',
action="store",dest="cf",default=None,
help="Generate default controlfile")
args = parser.parse_args()
if args.cf is not None:
generateCf(args.cf)
log.info("Wrote default controlfile")
sys.exit(0)
log.info("Starting topdown processing")
# Opening controlfile
cf = ControlFile(args.controlfile)
dmn = Domain()
log.info("Reading topdown table")
tdTableName = cf.findExistingPath("topDownTable:")
tdTable = DataTable()
tdTable.keys.append("Code")
tdTable.read(tdTableName,delimiter=";")
log.info("Reading national totals table")
natTotalTableName = cf.findExistingPath("nationalTotalTable:")
natTable = DataTable(desc=[{"id": "Code", "type":unicode},
{"id": "description", "type":unicode}])
natTable.keys.append("Code")
natTable.read(natTotalTableName, units=True, defaultType=str)
notationKeys = ["NE", "NO", "NA", "IE"]
log.debug("Remove notation keys from national totals table")
for row in natTable.data:
for i in range(len(row)):
if row[i] in notationKeys:
row[i] = None
log.debug("Convert all emission columns in national totals to float")
for colId in natTable.listIds():
if colId not in ["Code","description"]:
natTable.convertCol(colId,float)
log.debug("Store units from national totals for each substance in dict")
natUnits={}
for col in natTable.desc:
if col.get("units",None)!=None:
natUnits[col["id"]]=col["units"]
log.debug("Read remaining data from control file")
bottomupEdbName = cf.findString("bottomUpEdb:")
topDownEdbName = cf.findString("topDownEdb:")
emissionsEdbName = cf.findString("emissionsEdb:")
userName = cf.findString("user:"******"year:")
#initialize edb objects
buEdb = Edb(dmn,userName,bottomupEdbName)
tdEdb = Edb(dmn,userName,topDownEdbName)
eEdb = Edb(dmn,userName,emissionsEdbName)
log.info("Reading/preparing EDB:s")
log.info("Reading subdb")
subdb = Subdb(eEdb)
subdb.read()
log.info("Reading subgrpdb")
subgrpdb = SubgrpStream(buEdb)
subgrpdb.read()
log.info("Reading facilitydb")
facilityIn = FacilityStream(buEdb)
log.info("Reading companydb")
companyIn = CompanyStream(buEdb)
facilityOut = FacilityStream(eEdb,mode="w")
companyOut = CompanyStream(eEdb,mode="w")
log.info("Writing company db to result edb")
companyOut.write(companyIn.read())
log.info("Writing facility db to result edb")
facilityOut.write(facilityIn.read())
if not buEdb.exists():
log.error("Edb " + buEdb.name + " does not exist for user " + userName +
" in domain " + dmn.name)
sys.exit(1)
if not tdEdb.exists():
log.error("Edb " + tdEdb.name + " does not exist for user " + userName +
" in domain " + dmn.name)
sys.exit(1)
if not eEdb.exists():
log.error("Edb " + eEdb.name + " does not exist for user " + userName +
" in domain " + dmn.name)
sys.exit(1)
keys = tdEdb.listGrids()
msg = "%i keys found in edb: %s" % (len(keys), tdEdb.name)
log.info(msg)
# sourcedb from bottom-up edb
with SourceStream(buEdb, mode='rb') as source_instream:
source_reader = ModelReader(source_instream)
bu_sources = list(source_reader)
log.info(
"%i point sources found in edb: %s" % (
len(bu_sources),
buEdb.name)
)
# Empty sourcedb of the result edb
if cf.findBoolean("emptyEmissionSourcedb:"):
eEdb.empty_sourcedb()
e_sources = []
log.info("Removed point sources from edb: %s" % (eEdb.name))
else:
# sourcedb from emission edb (result edb)
with SourceStream(eEdb, mode='rb') as source_instream:
source_reader = ModelReader(source_instream)
e_sources = list(source_reader)
msg = "%i point sources found in edb: %s" % (len(e_sources), eEdb.name)
log.info(msg)
if not path.exists(eEdb.rsrcPath()):
log.error("No edb.rsrc exists for emission edb")
sys.exit()
else:
rsrc = Rsrc(eEdb.rsrcPath())
acIndex = cf.findInt("acIndex:")
codeDepth = rsrc.ac[acIndex-1].depth
substances = cf.findStringList("substances:")
for subst in substances:
if subst not in subdb.substIndices:
log.error("Substance: " + subst + " not in Airviro substance list")
sys.exit()
# Initialize trace for debug and additional logging
if cf.findBoolean("trace:") == True:
log.info("Initializing trace for detailed logging")
trace = TraceDef(
active=True,
substances=cf.findStringList("trace.substances:"),
logfile=cf.findString("trace.logfile:"),
regdefgc=cf.findIntList("trace.regdef.gc:",
optional=True,
default=None),
gcDefRaster=cf.findExistingPath("trace.gcraster:")
)
else:
trace = TraceDef(active=False)
log.info("Initializing result table")
resTablePath = cf.findString("resTable:")
resTable = DataTable(desc=[{"id": "Code", "type": unicode}])
resTable.keys.append("Code")
for subst in substances:
resTable.addCol({"id": subst, "type": float, "unit": "%"})
# Create emission grid template (with geocodes)
log.info("Reading emission grid template")
eGridTemplatePath = cf.findExistingPath("emisGridTemplatePath:")
eGridTemplate = Egrid(eEdb,"name")
if eGridTemplatePath[-4:] == ".asc":
eGridTemplatePath=eGridTemplatePath[:-4]
eGridTemplate.readData(eGridTemplatePath)
eGridTemplate.substances = {}
eGridTemplate.par["SUBSTANCE"].val = []
dd = {"key": None,
"regstat": None,
"regdef": None,
"bu_sources": bu_sources,
"psIndices": [],
"units": natUnits,
"rsrc": rsrc,
"subdb": subdb,
"trace": trace,
"subgrpdb": subgrpdb
}
# Process all rows in the topdown table
for row in tdTable.data:
code = row[tdTable.colIndex["Code"]]
active = row[tdTable.colIndex["Active"]]
statType = row[tdTable.colIndex["Stat_type"]]
if active == "no":
continue
log.info("Code: "+code)
distributed=False
# Add '-' to the code to reach max length (fix for a GUI bug)
airviroCode = code
# while len(airviroCode.split(".")) < codeDepth:
# airviroCode += ".-"
tdrow = tdTable.data[tdTable.rowIndex([code])]
nrow = natTable.data[natTable.rowIndex([code])]
# Create a resTable row to fill with data
resrow = [None] * resTable.ncols
resrow[0] = code
# Check if national totals are non-zero
nonZero = False
for val in nrow:
if val != None:
if val > 0:
nonZero = True
break
# Filter out indices for pointsources with the current ac
# Also including sources coded with sub-codes
# This allows to estimate top-down emissions on a higher code-level
psIndices = []
for i, ps in enumerate(bu_sources):
codeMatch = False
for emis in ps.EMISSION:
# It is assumed that the first code is used while processing topdown
ac = emis.ACTCODE[0]
if ac[-1] == ".":
ac=ac[:-1]
# if ac[:len(code)] == code:
if ac == code:
codeMatch = True
break
if not codeMatch:
for emis in ps.SUBGRP:
# It is assumed that the first code is used while processing topdown
ac = emis.ACTCODE[0]
if ac[:len(code)] == code:
codeMatch = True
break
if codeMatch:
psIndices.append(i)
dd["psIndices"] = psIndices
keyName = row[tdTable.colIndex["Key"]]
#If no distribution key specified and no ps in bottom-up edb - cont.
if keyName is None and psIndices == []:
log.debug("No key and no point sources found for code: %s, skipping..." % code)
resTable.addRow(resrow)
continue
if psIndices!=[]:
msg = "--Found %i pointsources" % len(psIndices)
log.info(msg)
if keyName is not None:
if keyName not in keys:
log.error("No such key: " + keyName)
sys.exit()
msg = "--Key: %s" % keyName
log.info(msg)
keyGrid = Egrid(tdEdb, keyName)
keyGrid.readData()
log.debug("Read key: " + keyName + " from topdownEdb")
# create emission grid to store distributed emissions
eGrid = deepcopy(eGridTemplate)
eGrid.name = code.replace(".", "_")
eGrid.par["NAME"].val = code
eGrid.par["INFO2"].val = "Distribution key: " + keyGrid.par["NAME"].val
eGrid.par["ACTIVITYCODE"].val = [airviroCode.split(".")]
regstatName = row[tdTable.colIndex["Regstat"]]
regdefName = row[tdTable.colIndex["Regdef"]]
if regstatName is not None:
if regdefName is None:
log.error("No region definition given for regional statistics: " +
regstatName)
sys.exit(1)
regstatPath = path.join(dmn.domainPath(), "topdown", "regstat", regstatName)
regstat = DataTable()
log.info("regstatPath: "+regstatPath)
regstat.read(regstatPath, units=True, defaultType=float, delimiter=";")
if not "Geocode" in regstat.listIds():
log.error("No Geocode column found in regstat")
sys.exit(1)
regstat.convertCol("Geocode", int)
regstat.keys.append("Geocode") # Making Geocode the primary key
# create list of unique geo codes
geocodes = [row[regstat.colIndex["Geocode"]] for row in regstat.data]
geocodes = unique(geocodes)
for colId in regstat.listIds():
if colId.lower() == "year":
rows = []
regstat.convertCol(colId, int)
# Make it possible to accumulate year
regstat.setKeys(regstat.keys + [colId])
# Calculates the total emission for each geocode
# in case there are multiple rows for different fuels etc
colsToSum = regstat.listIds()
colsToSum.remove(colId)
colsToSum.remove("Geocode")
for gc in geocodes:
# sums all numeric values in colsToSum for
# rows matching row id [gc,year]
#returns an accumulated row and appends it to rows
rowId = regstat.dict2RowId({"Geocode": gc, colId: year})
rows.append(regstat.accumulate(rowId, "sum", colsToSum))
regstat.data = rows # replace original rows with accumulated rows
regstat.keys.remove(colId)
break
# dd["regstat"] = regstat
regdef = Raster()
regdefPath = path.join(dmn.domainPath(), "topdown", "regdef", regdefName)
regdef.read(regdefPath)
dd["regstat"] = regstat
dd["regdef"] = regdef
else:
dd["regstat"] = None
dd["regdef"] = None
if dd["regstat"] is not None and len(bu_sources) > 0 and statType == "fixed":
log.info("--Regionalizing pointsources")
dd = regionalizePS(dd, code)
if keyName is not None and nonZero:
regionalizedDefault = False
# Spatial distribution of emissions
for subst in substances:
sInd = subdb.substIndices[subst]
toUnit = dd["units"][subst] + "/year"
ntot = nrow[natTable.colIndex[subst]]
pstot = 0
for i in dd["psIndices"]:
source = dd["bu_sources"][i]
# TODO: should give reference to subgrps to include emis from them
pstot += source.get_emis(
sInd,
toUnit,
eEdb,
actcodes=[code]
)
if ntot is None or ntot == 0:
if pstot > 0:
# 9999 is used as marker for no national total
resrow[resTable.colIndex[subst]] = 9999.0
log.warning(
"Nattot is 0 but ps tot is: %f %s" % (pstot, toUnit))
continue
nrest = ntot - pstot
resrow[resTable.colIndex[subst]] = 100.0
if abs(nrest / ntot) < 0.0001:
nrest = 0
log.info(
"--Rest is < 0.01 % of national total, rounded to zero"
)
continue
elif nrest < 0:
log.warning(
"--National rest is below zero, %4.2f proc for %s" % (
-1 * nrest / ntot * 100,
subst)
)
dd["trace"].write()
# continue
log.info(
"---Substance: "+subst+
", rest is: " + str(nrest) +
toUnit + " = " + str(nrest / ntot * 100.0) + "%"
)
try:
keyRast = keyGrid.substances[sInd]
except KeyError:
keyRast = keyGrid.substances[subdb.substIndices["all"]]
dd["key"] = keyRast
if dd["regstat"] is not None:
if (subst not in regstat.colIndex and
sInd not in keyGrid.substances and not regionalizedDefault):
dd = regionalizeKey(dd, subst, code)
regionalizedDefault = True
else:
dd = regionalizeKey(dd, subst, code)
emisRast = distribute(dd["key"], nrest)
emisRast = emisRast * unitConvFac(toUnit, "ton/year")
eGrid.addData(emisRast, dd["subdb"].substIndices[subst])
distributed = True
else:
# resTable is filled
# In case all national totals are zero but there are ps
for subst in substances:
sInd = dd["subdb"].substIndices[subst]
toUnit = dd["units"][subst] + "/year"
ntot = nrow[natTable.colIndex[subst]]
pstot = 0
for i in dd["psIndices"]:
source = dd["bu_sources"][i]
# subgrps are not used!
pstot += source.get_emis(sInd, toUnit, buEdb,
actcodes=[code])
if ntot!=0 and ntot is not None:
resrow[resTable.colIndex[subst]] = pstot / ntot * 100.0
else:
resrow[resTable.colIndex[subst]] = -999.0
if len(dd["psIndices"]) > 0:
tmp_sources = (bu_sources[i] for i in dd["psIndices"])
with SourceStream(eEdb, mode='wb') as out_source_stream:
source_writer = ModelWriter(out_source_stream)
for source in tmp_sources:
source_writer.write(source)
log.debug("Wrote ps to emission edb")
if distributed:
eGrid.load()
log.debug("Wrote emission grid to emission edb")
dd["trace"].write()
resTable.addRow(resrow)
resTableFile = open(resTablePath,"w")
resTable.write(resTableFile)
log.info("Finished topdown process")
def main():
#-----------Setting up and unsing option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option("-l", "--loglevel",
action="store",dest="loglevel",default=2,
help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
parser.add_option("-f", "--force",
action="store_true",dest="force",default=False,
help="To start the process without confirming the domain")
parser.add_option("-n", "--nproc",
action="store",dest="nproc",default=1,
help="Number of gifmap processes to run at a time")
(options, args) = parser.parse_args()
#------------Setting up logging capabilities -----------
rootLogger=logger.RootLogger(int(options.loglevel))
log=rootLogger.getLogger(sys.argv[0])
#logger=basicLogger(int(options.loglevel),sys.argv[0])
if options.cf!=None:
controlfile.generateCf(path.abspath(options.cf),controlFileTemplate)
print("Wrote default controlfile")
sys.exit()
if len(args)!=1:
parser.error("Incorrect number of arguments")
domainName=os.environ["AVDBNAME"]
dmn = domain.Domain(domainName)
if not options.force:
answer=raw_input("Chosen dbase is: "+domainName+",continue(y/n)?")
if answer=="y":
dmn=domain.Domain()
else:
sys.exit("Interrupted by user")
#Opening controlfile
#---retrieving data from control file----
cf=controlfile.ControlFile(fileName=path.abspath(args[0]))
#Get search parameters from control file
substances=cf.findStringList("substances:")
outputDir=cf.findExistingPath("outputDir:")
baseSearches=cf.findStringList("searches:")
fromProj=cf.findString("fromProj:")
toProj=cf.findString("toProj:")
resample = cf.findBoolean("resample:")
dmn=domain.Domain(os.environ.get('AVDBNAME'))
substDict=dmn.listSubstanceIndices()
if resample:
#Get proj4 projection definitions from aliases
try:
fromProj=transcoord.proj4Dict[fromProj]
except KeyError:
print("Projection %s not found in proj4Dictin transCoord.py" %fromProj)
try:
toProj=transcoord.proj4Dict[toProj]
except KeyError:
print("Projection %s not found in proj4Dictin transCoord.py" %toProj)
#Get output grind parameters from controlfile
out_xll=cf.findFloat("out_xll:")
out_yll=cf.findFloat("out_yll:")
out_ncols=cf.findInt("out_ncols:")
out_nrows=cf.findInt("out_nrows:")
out_cellsize=cf.findFloat("out_cellsize:")
#Build list with search definitions
searches=[]
for search_id in baseSearches:
prefix=cf.findString("search."+search_id+".prefix:")
macroPath=cf.findString("search."+search_id+".macro:")
starttime=cf.findString("search."+search_id+".starttime:")
endtime=cf.findString("search."+search_id+".endtime:")
parVals = cf.findParam("search."+search_id+".par.",findAll=True)
parDict={}
for p in parVals:
ind=p.index(":")
par = p[:ind+1]
val=p[ind+1:].strip()
parDict[par]=val
alobVals = cf.findParam("search."+search_id+".alob.",findAll=True)
alobDict={}
for a in alobVals:
ind=a.index(":")
key = a[:ind]
val=a[ind+1:].strip()
alobDict[par]=val
macro = controlfile.ControlFile(fileName=macroPath,removeComments=False)
unitIndex=macro.findInt("edb.unit:")
edbName=macro.findString("edb.edb:")
userName=macro.findString("edb.user:"******"FROM :",starttime)
macro.setParam("TO :",endtime)
for key,val in parDict.iteritems():
macro.setParam(key,val)
for key,val in alobDict.iteritems():
macro.setParam(key,"R"+val,addSpace=False)
edb=Edb(dmn.name,userName,edbName)
rsrc=Rsrc(edb.rsrcPath())
unitName=rsrc.search[unitIndex]
for substance in substances:
filename=path.join(outputDir,prefix+"_"+substance.replace(" ","_")+".asc")
searches.append(
{'id':search_id,
'macro':macro,
'prefix':prefix,
'substance':substance,
'unit':unitName,
'filename':filename
}
)
if resample:
summaryTable=datatable.DataTable(desc=[{"id":'search_id',"type":unicode},
{"id":'substance',"type":unicode},
{"id":'macro',"type":unicode},
{"id":'filename',"type":unicode},
{"id":'sum',"type":float},
{"id":'proj_sum',"type":float},
{"id":'unit',"type":unicode}],
keys=["search_id","substance"])
else:
summaryTable=datatable.DataTable(desc=[{"id":'search_id',"type":unicode},
{"id":'substance',"type":unicode},
{"id":'macro',"type":unicode},
{"id":'filename',"type":unicode},
{"id":'sum',"type":float},
{"id":'unit',"type":unicode}],
keys=["search_id","substance"])
#Inititalising parallell run
nproc=int(options.nproc) #numer of processes to run in parallell
running_proc=0 #counter for number of running processes
pids={} #dictionary to store process output and info
todo=len(searches) #list of processes to be run
searchInd=0 #index of the process
def countRunning(pids):
"""Count the number of running processes"""
for pid, props in pids.iteritems():
props['ret_val']=props['proc'].poll()
return len([pid for pid in pids if pids[pid]['ret_val'] is None])
while todo+running_proc>0:
#loop until all processes have finished
if running_proc==nproc or todo==0:
print("Running gifmap...")
#When nproc processes are started, the program waits here
#until one is finished before adding a new one
while countRunning(pids)==running_proc:
time.sleep(5)
#mark first found finished process as done
for pid,props in pids.iteritems():
if not props['ret_val'] is None and not props['done']:
props['done']=True
break
command=props["cmd"]
if props['ret_val']!=0:
errMsg=pids[pid]["proc"].stderr.read()
print("Error while running command: %s\n%s" %(pids[pid],errMsg))
sys.exit(1)
print("Finished search %s" %props['search_id'])
#Find search in search list
running_proc-=1
for f_search in searches:
if f_search["id"]==props['search_id'] and f_search['substance']==props['substance']:
break
f_search['done']=True
try:
f_search['res']=res2rast(f_search['filename'])
#Store original result from search
f_search['sum']=f_search['res'].sum()
except:
f_search['res']=None
output=pids[pid]["proc"].stdout.read()
f_search['sum']=re.compile("#EMIS (\S*).*").search(output).group(1)
print "Could not extract result raster from %s" %f_search['filename']
print "Uses total from gifmap log"
if resample:
outRast = raster.Raster(Xll=out_xll,Yll=out_yll,Ncols=out_ncols,
Nrows=out_nrows,Cellsize=out_cellsize,
Nodata=-9999)
#Run post-processing of result for finsished processes
if f_search['sum']>0:
print("Projecting result to target CRS")
f_search['res'] = transcoord.transformEmisRaster(f_search['res'],outRast,
fromProj,toProj,
tmpDir=dmn.tmpDir())
#Store projected result from search
f_search['proj_sum']=f_search['res'].sum()
else:
f_search['proj_sum']=0
#Write result to file
if f_search['res'] is not None:
f_search['res'].write(f_search['filename'])
#Add total emission to summary table
if resample:
summaryTable.addRow(
[f_search['id'],
f_search['substance'],
f_search['macro'].name,
f_search['filename'],
f_search['sum'],
f_search['proj_sum'],
f_search['unit']])
else:
summaryTable.addRow(
[f_search['id'],
f_search['substance'],
f_search['macro'].name,
f_search['filename'],
f_search['sum'],
f_search['unit']])
#Add another search process
elif todo>0:
c_search=searches[searchInd]
substance=c_search["substance"]
substanceIndex=substDict[substance]
c_search['macro'].setParam("ELEMENT :",substanceIndex)
c_search['macro'].write()
command="gifmap -T -i "+c_search['macro'].name+" -o "+c_search['filename']
p=subprocess.Popen(command,stderr=subprocess.PIPE,stdout=subprocess.PIPE,shell=True)
#Add info and handles to process dictionary
pids[p.pid]={"proc":p,
"search_id":c_search['id'],
"substance":c_search['substance'],
"cmd":command,
'ret_val':None,
'done':False}
print(
"Started search %s, substance %s" %(
c_search['id'],c_search['substance']))
running_proc+=1
todo-=1
searchInd+=1
#Each process needs some time to read
#the macro before it is changed
time.sleep(10)
#summaryTable.sortRows()
tableFile=open(path.join(outputDir,"summaryTable.txt"),'w')
summaryTable.write(tableFile)
print("Finished")
def main():
# setting up parser
parser = OptionParser(usage=usage, version=version)
(options, args) = parser.parse_args()
# Setting up logging environment
logLevel = os.environ.get("LOG_LEVEL")
if logLevel == None or logLevel == "":
logLevel = 2
logLevels = {0: logging.NOTSET, 1: logging.WARNING, 2: logging.INFO, 3: logging.DEBUG}
rootLogger = logging.getLogger("")
logLevelObj = logLevels[int(logLevel)]
# info is written to stderr
# errors are written stdout
rootLogger.setLevel(logLevelObj)
infoHandler = logging.StreamHandler(sys.stderr)
infoHandler.setLevel(logLevel)
errHandler = logging.StreamHandler(sys.stdout)
errHandler.setLevel(logging.ERROR)
formatter = logging.Formatter("%(name)-12s: %(levelname)-8s %(message)s")
infoHandler.setFormatter(formatter)
errHandler.setFormatter(formatter)
rootLogger.addHandler(infoHandler)
rootLogger.addHandler(errHandler)
logger = logging.getLogger("trendReport")
if len(args) != 3:
parser.error("Incorrect number of arguments")
metadatafile = path.abspath(args[0]) # file with meta data for trend report
infile = path.abspath(args[1]) # file with emission data per code
outfile = path.abspath(args[2]) # path for output excel report
if not path.exists(metadatafile):
logger.error("Input asciiReport does not exist")
sys.exit(-1)
if not path.exists(infile):
logger.error("Input asciiReport does not exist")
sys.exit(-1)
# reading emission data file
f = open(infile, "r")
dlines = f.readlines()
f.close()
# reading meta-data file
f = codecs.open(metadatafile, "r", "HP Roman8")
mdlines = f.readlines()
f.close()
# parsing meta-data file
name = mdlines.pop(0)[5:].strip()
nrmacros = int(mdlines.pop(0).split()[1])
nrsubstances = int(mdlines.pop(0).split()[1])
units = mdlines.pop(0)[5:].strip()
macros = []
for mIndex in range(nrmacros):
edbuser = mdlines.pop(0).split()[1]
edbname = mdlines.pop(0).split()[1]
label = mdlines.pop(0).split()[1]
macros.append({"edbuser": edbuser, "edbname": edbname, "label": label})
# finding path to default edb.rsrc file in domain
domainPath = os.environ["DBAS_PATH"]
domainName = os.environ["AVDBNAME"]
rsrcPath = path.join(domainPath, "dba/edb/edb.rsrc")
# Creating codeTable object (for look-ups of activitycode names and geocodenames)
try:
cTable = codetable.CodeTable(rsrcPath)
except:
logger.error("Could not build code tree from .../dba/edb/edb.rsrc")
sys.exit(-1)
# parsing emission data file
macroIndex = 0
emissions = []
substances = []
for line in dlines:
data = line.split()
if data[0] == """#MACRO""": # if header, update substance and macro index
vals = line.split('"')
macroIndex = int(data[1])
subst = vals[1]
if subst not in substances:
substances.append(subst)
else: # else get codes and corresponding name
ac = data[1]
ac = ac.split(".")
if ac[0] == "<all>": # add "all" to get the right depth in the dictionary
ac = ["all", "all"]
elif len(ac) == 1:
ac.append("all")
gc = data[3]
gc = gc.split(".")
if gc[0] == "<all>":
gc = ["all", "all"]
elif len(gc) == 1:
gc.append("all")
gcLev1Name = cTable.gc[gc[0]]["name"]
if gc[1] != "all":
gcLev2Name = cTable.gc[gc[0]][gc[1]]["name"]
else:
gcLev2Name = "Alla"
acLev1Name = cTable.ac[ac[0]]["name"]
if ac[1] != "all":
acLev2Name = cTable.ac[ac[0]][ac[1]]["name"]
else:
acLev2Name = "Alla"
val = data[4]
emissions.append(
{
"label": label,
"substance": subst,
"gcLev1": gcLev1Name,
"gcLev2": gcLev2Name,
"acLev1": acLev1Name,
"acLev2": acLev2Name,
"val": val,
"macroIndex": macroIndex,
}
)
# 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")
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, name, 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 m in range(nrmacros):
infoWs.write(5 + m, 0, macros[m]["label"])
infoWs.write(5 + m, 1, macros[m]["edbuser"])
infoWs.write(5 + m, 2, macros[m]["edbname"])
# reading edb description file (if it exists)
edb = Edb(domainName, macros[m]["edbuser"], macros[m]["edbname"])
infoWs.write(5 + m, 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 = 3
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 * nrmacros):
aqWs.col(col + 4).width = 256 * 15
aqWs.write(0, 0, u"Rapportnamn:", header1Style)
aqWs.write(0, 1, name, header1Style)
aqWs.write(1, 0, u"Emissioner av luftföroreningar", header1Style)
aqWs.write(1, 1, u"Enhet: " + units, header1Style)
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 * nrmacros):
ghgWs.col(col + 4).width = 256 * 15
ghgWs.write(0, 0, u"Rapportnamn:", header1Style)
ghgWs.write(0, 1, name, header1Style)
ghgWs.write(1, 0, u"Emissioner av Växthusgaser", header1Style)
ghgWs.write(2, 0, "Uttryckt i CO2-ekvivalenter", header1Style)
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)
return 4 + macroInd + sInd * nmacros
# write macro labels and substance headers for air quality sheet
for sInd, subst in enumerate(aqList):
for mInd, macro in enumerate(macros):
col = getColInd(nrmacros, aqList, mInd, subst)
aqWs.write(firstRow - 1, col, macro["label"], header1Style)
aqWs.write(firstRow, col, subst, header1Style)
# write macro labels and substance headers for ghg sheet
for sInd, subst in enumerate(ghgList):
for mInd, macro in enumerate(macros):
col = getColInd(nrmacros, ghgList, mInd, subst)
ghgWs.write(firstRow - 1, col, macro["label"], header1Style)
ghgWs.write(firstRow, col, subst, header1Style)
# looping over all emissions, writing them to the correct column and row
ghgRow = []
aqRow = []
for m in range(nrmacros * nrsubstances + 4):
ghgRow.append(firstRow + 1)
for m in range(nrmacros * nrsubstances + 4):
aqRow.append(firstRow + 1)
for emis in emissions:
subst = emis["substance"]
emisVal = emis["val"]
macroInd = emis["macroIndex"]
if subst in ghgList:
col = getColInd(nrmacros, ghgList, macroInd, 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
ghgWs.write(row, col, float(emisVal) * float(ekvFactors[subst]), normalStyle)
ghgRow[col] += 1
else:
col = getColInd(nrmacros, aqList, macroInd, 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), normalStyle)
aqRow[col] += 1
excelBook.save(outfile)
def main():
#-----------Setting up and using option parser-----------------------
parser=OptionParser(usage= usage, version=version)
parser.add_option(
'-v',
action='store_const', dest='loglevel',
const=logging.DEBUG, default=get_loglevel(),
help='produce verbose output'
)
# parser.add_option("-l", "--loglevel",
# action="store",dest="loglevel",default=2,
# help="Sets the loglevel (0-3 where 3=full logging)")
parser.add_option("-t", "--template",
action="store",dest="cf",default=None,
help="Generate default controlfile")
(options, args) = parser.parse_args()
#------------Setting up logging capabilities -----------
logging.basicConfig(
format='%(levelname)s:%(name)s: %(message)s',
level=options.loglevel,
)
global log
log = logging.getLogger(parser.prog)
if options.cf!=None:
generateCf(path.abspath(options.cf))
log.info("Wrote default controlfile")
sys.exit()
if len(args)!=1:
parser.error("Incorrect number of arguments")
#Opening controlfile
cf=ControlFile(fileName=path.abspath(args[0]))
domain = Domain()
edbName=cf.findString("edb:")
userName=cf.findString("user:"******"Edb "+edbName+" does not exist for user "+userName+" in domain "+domain.name)
sys.exit()
year=cf.findInt("year:")
substList=cf.findStringList("substances:")
#Remove doubles from substance list
substances={'nat':[]}
for subst in substList:
if subst not in substances['nat']:
substances['nat'].append(subst)
#Make dictionary for substance,units couples
unitDict={}
defaultUnit=cf.findString("nationalTotals.defaultUnit:")
unitList=cf.findStringList("nationalTotals.units:")
for i in range(len(unitList)):
unitSubstances=cf.findStringList("nationalTotals.unit."+str(i)+":")
for s in unitSubstances:
unitDict[s]=unitList[i]
for subst in substances['nat']:
if subst not in unitDict.keys():
unitDict[subst]=defaultUnit
nationalTotalsTablePath=cf.findString("nationalTotalsTable:")
nationalTotalsFile=codecs.open(nationalTotalsTablePath,'w',encoding="latin6")
nationalTotalsTreePath=cf.findString("nationalTotalsTree:")
nationalTotalsTreePath=path.abspath(nationalTotalsTreePath)
nationalTotalTreeFile=open(nationalTotalsTreePath,'w')
log.info("Reading emissions from CRF")
CRFTree=CodeEmisTree(name="CRF")
CRFPath=cf.findExistingPath("CRF.path:")
CRFTree.parseCRFXML(CRFPath,year)
CRFTree.calculateSums(byAttribute="Category")
#CRFTree.write(sys.stdout)
CRFTable=CRFTree.createTable(keys=["Category","Classification","AWMS"])
HFC={
"HFC-23":11700,
"HFC-32":650,
"HFC-41":150,
"HFC-43-10 mee":1300,
"HFC-125":2800,
"HFC-134":1000,
"HFC-134a":1300,
"HFC-152a":140,
"HFC-143":300,
"HFC-143a":3800,
"HFC-227ea":2900,
"HFC-236fa":6300,
"HFC-245ca":560
}
PFC={
"CF4":6500,
"C2F6":9200,
"C3F8":7000,
"C4F10":7000,
"c-C4F8":8700,
"C5F12":7500,
"C6F14":7400
}
CRFTable.aggregateCols({"id":"HFC-tot","type":"str","units":"Gg"},HFC)
CRFTable.aggregateCols({"id":"PFC-tot","type":"str","units":"Gg"},PFC)
CRFTable.sortRows()
CRFTableKeys=cf.findStringList("CRF.tableKeys:")
CRFTable.keys=CRFTableKeys
#CRFTable.write(sys.stdout)
log.info("Reading emissions from NFR")
NFRTree=CodeEmisTree(name="NFR")
NFRPath=cf.findExistingPath("NFR.path:")
# pdb.set_trace()
NFRTree.parseNFRTable(filename=NFRPath)
NFRTree.calculateSums()
NFRTable=NFRTree.createTable()
NFRTableKeys=cf.findStringList("NFR.tableKeys:")
NFRTable.keys=NFRTableKeys
colIndex=NFRTable.getColIndex("Code")
for row in NFRTable.data:
if isinstance(row[colIndex],str):
row[colIndex]=row[colIndex].replace(" ","")
log.info("Reading emissions from Mobile")
MobilePath=cf.findExistingPath("Mobile.path:")
MobileTable=DataTable()
MobileTable.read(MobilePath,units=True)
MobileTable=MobileTable.filtered({"Year":str(year)})
MobileTableKeys=cf.findStringList("Mobile.tableKeys:")
MobileTable.keys=MobileTableKeys
#Remove biogenic emissions of CO2
#Remove GHG from Bunkers, except for international aviation LTO
for row in MobileTable.data:
# if "Bio" in row[MobileTable.getColIndex("Codename")]:
if "Bio" in row[MobileTable.getColIndex("Fueltype")]:
row[MobileTable.getColIndex("CO2")]=None
# if row[MobileTable.getColIndex("Localcodename")]=="Bunkers" and row[MobileTable.getColIndex("Localsubcodename")]!="LTO":
if row[MobileTable.getColIndex("Subsector")]=="Bunkers" and row[MobileTable.getColIndex("Region")]!="LTO":
row[MobileTable.getColIndex("CO2")]=None
row[MobileTable.getColIndex("CH4")]=None
row[MobileTable.getColIndex("N2O")]=None
log.info("Reading emissions from Manual")
ManualPath=cf.findExistingPath("Manual.path:")
ManualTable=DataTable()
ManualTable.read(ManualPath,units=True)
ManualTableKeys=cf.findStringList("Manual.tableKeys:")
ManualTable.keys=ManualTableKeys
srcTables={'NFR':NFRTable,
'CRF':CRFTable,
'Mobile':MobileTable,
'Manual':ManualTable}
for tKey in srcTables.keys():
substList=cf.findStringList(tKey+".substances:")
substances[tKey]=substList
log.info("Reading dataSourceTable")
dsPath=cf.findExistingPath("sourceTable:")
dsTable=DataTable()
dsTable.read(dsPath)
acIndex=cf.findInt("nationalTotals.acIndex:")
log.info("Reading activity codes from edb")
natTree=CodeEmisTree("National totals","Gg")
natTree.readActivityCodes(path.join(edb.edbPath(),"edb.rsrc"),acIndex)
log.info("Identifying column indices for sources in dataSourceTable")
#codeHeaders={"Mobile":"Mobile CRFnodeprefix",
# "NFR":"NFR Code",
# "CRF":"CRF Code",
# "nat":"Code",
# "Manual":"Code"
# }
codeHeaders={"Mobile":"Mobile UNFCCC",
"NFR":"NFR Code",
"CRF":"CRF Code",
"nat":"Code",
"Manual":"Code"
}
codeInd={}
for key,colName in codeHeaders.iteritems():
try:
codeInd[key]=dsTable.getColIndex(colName)
except DataTableException:
log.error("Could not find '"+colName+"' in dataSourceTable")
sys.exit()
log.info("Collecting data from data sources")
prevNatCode=""
for row in dsTable.data:
rowId={}
srcRow={}
for key in srcTables:
rowId[key]=[]
srcRow[key]=srcTables[key].ncols*[0]
natCode=row[codeInd['nat']]
if natCode!=prevNatCode:
log.debug("\nProcessing: "+natCode)
prevNatCode=natCode
#Get row-id for each src table
for tKey in srcTables.keys():
colInd=codeInd[tKey]
if row[colInd]!=None:
for key in srcTables[tKey].keys:
try:
idPart=row[dsTable.getColIndex(tKey+" "+key)]
except ValueError:
log.error("No column named '"+tKey+" "+key+"' found in dataSourceTable")
sys.exit()
rowId[tKey].append(idPart)
#If not all key values = None
nonNones=[val for val in rowId[tKey] if val !=None]
if len(nonNones)==0:
rowId[tKey]=None
srcRow[tKey]=None
else:
# if tKey=="CRF":
# pdb.set_trace()
try:
srcRow[tKey]=srcTables[tKey].accumulate(rowId[tKey])
except DataTableException, err:
# import pdb; pdb.set_trace()
log.error("While trying to get data from "+tKey+" table: "+str(err))
sys.exit()
#Creating code tree path for the current code
codeParts=natCode.split(".")
natPath=""
for i in range(1,len(codeParts)+1):
natPath+=".".join(codeParts[:i])
if i < len(codeParts):
natPath+="/"
natNode=natTree.root.find(natPath)
if natNode is None:
# import pdb; pdb.set_trace()
log.error("Could not find national code path : "+natCode)
sys.exit()
for subst in substances['nat']:
log.debug("Substance: "+subst)
storedSubstances=[]
foundSubstances=[]
rec=None
#Looping over all sourceTables
for tKey in srcTables:
st=srcTables[tKey]
if rowId[tKey]!=None and subst in substances[tKey]:
try:
colIndex=st.getColIndex(subst)
except DataTableException:
log.error("Could not find column %s in table %s" %(subst,tKey))
emis=srcRow[tKey][colIndex]
unit=st.desc[colIndex].get('units',None)
storedSubstances.append(subst)
nodeExists=False
if emis!=0 and emis!=None:
if subst not in foundSubstances:
foundSubstances.append(subst)
else:
log.error("Substance found in multiple datasources for "+natCode)
sys.exit()
for node in natNode:
if node.tag=="Record" and node.attrib.get("substance",None)==subst:
rec=node
nodeExists=True
break
if not nodeExists:
rec=ET.SubElement(natNode,"Record")
break
if unit==None:
log.error("No units set for substance "+subst+" in source table "+tKey)
sys.exit()
if storedSubstances==[]:
log.error("No data source specified for substance "+subst)
sys.exit()
if rec!=None:
if emis!=None and emis!=0:
try:
emis=convertUnits(fromUnit=unit,toUnit=unitDict[subst],val=emis)
except TypeError:
emis=0
if not nodeExists:
rec.attrib["substance"]=subst
else:
emis+=float(rec.attrib["emission"])
rec.attrib["emission"]=str(emis)
