Ejemplo n.º 1
0
def QueryFun(ListOpt):
    #print(String)
    List = ListOpt.copy()
    List.pop(0)
    pathfile = os.path.realpath(__file__)
    pathfile = pathfile.strip('query.py')
    conexion = OpenDatabase(pathfile)
    if '--all' in List:
        allflag = True
        List.remove('--all')
    else:
        allflag = False
    if len(List) == 2:
        iEner = List[0]
        fEner = List[1]
    else:
        print('')
        return 30

    try:
        iEner = float(iEner)
        fEner = float(fEner)
    except ValueError:
        print('ERROR: Argument or arguments cannot be converted to float.')
        return 31
    if iEner > fEner:
        iEnerAux = iEner
        iEner = fEner
        fEner = iEnerAux
        del iEnerAux

    DBInfo = EnergyRange(conexion, iEner, fEner)
    print('\nThe energy range consulted is %.2f keV to %.2f keV.\n' %
          (iEner, fEner))
    if len(DBInfo) != 0:
        Eg, Ig, Decay, Half, Parent = [], [], [], [], []
        for Ele in DBInfo:
            Eg.append(str(Ele[1]) + ' (' + str(Ele[2]) + ')')
            Ig.append(str(Ele[3]) + ' (' + str(Ele[4]) + ')')
            Decay.append(Ele[5])
            Half.append(
                str(Ele[6]) + ' ' + str(Ele[7]) + ' (' + str(Ele[8]) + ')')
            Parent.append(Ele[10])
        pd.set_option('display.max_rows', 30)  #imprime todas las filas

        if allflag:
            pd.set_option('display.max_rows', None)  #imprime todas las filas
        else:
            pd.set_option('display.max_rows', len(Ele))

        df = pd.DataFrame(list(zip(Eg, Ig, Decay, Half, Parent)),
                          columns=[
                              'Eg [keV]', 'Ig (%)', 'Decay mode', 'Half Life',
                              'Parent'
                          ])  #crea  la tabla
        print(df)  #imprime la tabla

    print("\n%d results were found" % (len(DBInfo)))
    CloseDatabase(conexion)
    return 0
Ejemplo n.º 2
0
def isotopeFun(ListOpt):

    pathfile = os.path.realpath(__file__)
    if operatingSystem == 'Linux' or operatingSystem == 'Darwin':
        pathfile = pathfile.replace('/modules/isotope.py', '')
    elif operatingSystem == 'Windows':
        pathfile = pathfile.replace('\\modules\\isotope.py', '')

    List = ListOpt.copy()
    List.pop(0)

    try:
        conexion = OpenDatabase(pathfile)
    except:
        sys.stderr.write(
            '------------------------------------------------------\n')
        sys.stderr.write(
            'ERROR: Database cannot be read. Please, be sure that database is in the folder myDatabase.\n'
        )
        sys.stderr.write(
            '------------------------------------------------------\n')
        return 20
    for element in List:
        Isotope = LookForElement(conexion, element, order='ASC')
        if len(Isotope) == 0:
            print('\nThe isotope consulted is ' + element)
            print('The query did not give any result.')
        else:
            Eg, Ig, Decay, Half, Parent = [], [], [], [], []
            for Ele in Isotope:
                Eg.append(str(Ele[1]) + ' (' + str(Ele[2]) + ')')
                Ig.append(str(Ele[3]) + ' (' + str(Ele[4]) + ')')
                Decay.append(Ele[5])
                Half.append(
                    str(Ele[6]) + ' ' + str(Ele[7]) + ' (' + str(Ele[8]) + ')')
                Parent.append(Ele[10])
            pd.set_option('display.max_rows', None)
            df = pd.DataFrame(list(zip(Eg, Ig, Decay, Half, Parent)),
                              columns=[
                                  'Eg [keV]', 'Ig (%)', 'Decay mode',
                                  'Half Life', 'Parent'
                              ])  #crea  la tabla
            print('For the isotope ' + element +
                  ' the gamma decays found are: \n')
            print(df)
            print('\n')

    CloseDatabase(conexion)
    return 0
Ejemplo n.º 3
0
def NormIntensity(ListOpt):

    pathfile = os.path.realpath(__file__)
    pathfile = pathfile.strip('normintensity.py')
    List = ListOpt.copy()
    List.pop(0)

    try:
        conexion = OpenDatabase(pathfile)
    except:
        print('------------------------------------------------------')
        print(
            'ERROR: Database cannot be read. Please, be sure that database is in the folder myDatabase.'
        )
        print('------------------------------------------------------')
        return 20
    for element in List:
        Isotope = GetIntensities2(conexion, element, order='ASC')
        if len(Isotope) == 0:
            print('\nThe isotope consulted is ' + element)
            print('The query did not give any result.')
        else:
            Eg, Ig, IgR, Parent = [], [], [], []
            for Ele in Isotope:
                Eg.append(str(Ele[1]) + ' (' + str(Ele[2]) + ')')
                Ig.append(str(Ele[3]) + ' (' + str(Ele[4]) + ')')
                IgR.append(str(Ele[5]))
                Parent.append(Ele[6])
            pd.set_option('display.max_rows', None)  #imprime todas las filas
            df = pd.DataFrame(list(zip(Eg, Ig, IgR, Parent)),
                              columns=[
                                  'Eg [keV]', 'Ig (%)',
                                  'Normalized Intensities', 'Parent'
                              ])  #crea  la tabla
            print('For the isotope ' + element +
                  ' the gamma decays found are: \n')
            print(df)  #imprime la tabla
            print('\n')

    CloseDatabase(conexion)
    return 0
Ejemplo n.º 4
0
def Parent(ListOpt):
    List = ListOpt.copy()
    List.pop(0)

    if len(List) == 0:
        print("error: --parent option needs an argument")
        return 400

    pathfile = os.path.realpath(__file__)
    pathfile = pathfile.strip('isoparent.py')
    conexion = OpenDatabase(pathfile)

    for Isotope in List:
        MainChainIso, Child = GetChainAndChild(conexion, Isotope)
        if MainChainIso == None or Child == None:

            print('Isotope: ' + Isotope + ' -- Parent: ' + 'None' +
                  ' --Child: ' + 'None' + '\n')
            print(
                'There is not enough information in the database or the isotope '
                + Isotope + ' do not have Child or parents isotopes. \n')

        else:

            MainChain = GetMainChain(conexion, MainChainIso)
            if '+' in MainChain:
                AuxStr = MainChain.split('+')[1]
                Parentiso = AuxStr.split('#')[0]
            else:
                Parentiso = MainChain[0].split('#')[0]

            print('Isotope: ' + Isotope + ' -- Parent: ' + Parentiso +
                  ' --Child: ' + Child + '\n')

    CloseDatabase(conexion)
    return 0
Ejemplo n.º 5
0
def Parent(ListOpt):
    List = ListOpt.copy()
    List.pop(0)  
    
    if len(List) == 0:
        sys.stderr.write("error: --parent option needs an argument\n")
        return 400
    
    pathfile = os.path.realpath(__file__)
    if operatingSystem == 'Linux' or operatingSystem == 'Darwin':
        pathfile = pathfile.replace('/modules/isoparent.py','')
    elif operatingSystem == 'Windows':
        pathfile = pathfile.replace('\\modules\\isoparent.py','')

    conexion = OpenDatabase(pathfile)

    for Isotope in List:
        MainChainIso,Child = GetChainAndChild(conexion,Isotope)
        if MainChainIso == None or Child == None:
        
            print('Isotope: ' + Isotope + ' -- Parent: ' + 'None' + ' --Child: ' + 'None' +  '\n')
            print('There is not enough information in the database or the isotope ' + Isotope + ' do not have Child or parents isotopes. \n')
        
        else:
        
            MainChain = GetMainChain(conexion,MainChainIso)
            if '+' in MainChain:
                AuxStr = MainChain.split('+')[1]
                Parentiso = AuxStr.split('#')[0]
            else:
                Parentiso = MainChain[0].split('#')[0]

            print('Isotope: ' + Isotope + ' -- Parent: ' + Parentiso + ' --Child: ' + Child + '\n')
        
    CloseDatabase(conexion)
    return 0
Ejemplo n.º 6
0
def energyFun(ListOpt):
    List = ListOpt.copy()
    List.pop(0)

    if '--wof' in List:
        wofFlag = True
        List.remove('--wof')
    else:
        wofFlag = False

    if '--all' in List:
        allFlag = True
        List.remove('--all')
    else:
        allFlag = False

    if len(List) == 0:
        print("error: --energyRanges option needs an argument")
        return 0

    infoFile = List[0]
    if not os.path.isfile(infoFile):
        print("error: %s does not exist, are you in the right path?" %
              (infoFile))
        return False
    if not infoFile.endswith('.info'):
        print("error: %s needs a .info extension" % (infoFile))
        return False
    infoDict = getDictFromInfoFile(infoFile)
    del infoDict['Range']
    idxPairL = []
    for DictEle in infoDict.values():
        idxPairL.append([DictEle['start'], DictEle['end']])
    #Energy range of the histogram

    DBInfoL = []
    pathfile = os.path.realpath(__file__)
    pathfile = pathfile.strip('energy.py')
    conexion = OpenDatabase(pathfile)
    for idxR in idxPairL:
        iEner = idxR[0]
        fEner = idxR[1]
        DBInfoL.append(EnergyRange(conexion, iEner, fEner))
        DBInfo = DBInfoL[-1]

        print(
            '\nThe energy range consulted is between %.2f keV and %.2f keV.\n'
            % (iEner, fEner))
        Eg, Ig, Decay, Half, Parent = [], [], [], [], []
        for Ele in DBInfo:
            Eg.append(str(Ele[1]) + ' (' + str(Ele[2]) + ')')
            Ig.append(str(Ele[3]) + ' (' + str(Ele[4]) + ')')
            Decay.append(Ele[5])
            Half.append(halfLifeUnit(Ele))
            Parent.append(Ele[10])

        if allFlag:
            pd.set_option('display.max_rows', None)
        else:
            pd.set_option('display.max_rows', len(Ele))

        df = pd.DataFrame(list(zip(Eg, Ig, Decay, Half, Parent)),
                          columns=[
                              'Eg [keV]', 'Ig (%)', 'Decay mode',
                              'Half Life (s)', 'Parent'
                          ])
        if allFlag:
            print(df)
        else:
            print(df.head(10))

        if wofFlag:
            try:
                myfilename = infoFile.strip('.info') + '_energyRanges.txt'
                WriteOutputFileRR(myfilename, df, iEner, fEner)
                print('-----------------------------------------')
                print('The file was saved as:')
                print(myfilename)
                print('-----------------------------------------')
            except IOError:
                print(
                    'ERROR: An unexpected error ocurrs. Data could not be saved.'
                )

    CloseDatabase(conexion)
    return 0