Пример #1
0
def main():
    """
    NAME
        thellier_magic_redo.py

    DESCRIPTION
        Calculates paleointensity parameters for thellier-thellier type data using bounds
        stored in the "redo" file

    SYNTAX
        thellier_magic_redo [command line options]

    OPTIONS
        -h prints help message
        -usr USER:   identify user, default is ""
        -fcr CRIT, set criteria for grading
        -f IN: specify input file, default is magic_measurements.txt
        -fre REDO: specify redo file, default is "thellier_redo"
        -F OUT: specify output file, default is thellier_specimens.txt
        -leg:  attaches "Recalculated from original measurements; supercedes published results. " to comment field
        -CR PERC TYPE: apply a cooling rate correction.  
            PERC should be a percentage of original (say reduce to 90%)
            TYPE should be one of the following:
               EG (for educated guess); PS (based on pilots); TRM (based on comparison of two TRMs) 
        -Fcr  CRout: specify pmag_specimen format file for cooling rate corrected data
        -ANI: there are anisotropy data to correct thellier results
        -fan ANIFILE: specify rmag_anisotropy format file, default is rmag_anisotropy.txt 
        -Fac  ACout: specify pmag_specimen format file for anisotropy corrected data
                 default is AC_specimens.txt
        -NLT: there are non-linear trm data in the measurements file to correct thellier results
        -fnl NLTFILE: specify magic_measurments format file, default is magic_measurements.txt
        -Fnl NLTout: specify pmag_specimen format file for non-linear trm corrected data
                 default is NLT_specimens.txt
        -z use z component differenences for pTRM calculation
    """
    dir_path='.'
    critout=""
    version_num=pmag.get_version()
    field,first_save=-1,1
    spec,recnum,start,end=0,0,0,0
    frac=0
    NltRecs,PmagSpecs,AniSpecRecs,NltSpecRecs,CRSpecs=[],[],[],[],[]
    meas_file,pmag_file,mk_file="magic_measurements.txt","thellier_specimens.txt","thellier_redo"
    anis_file="rmag_anisotropy.txt"
    anisout,nltout="AC_specimens.txt","NLT_specimens.txt"
    crout="CR_specimens.txt"
    nlt_file=""
    
    comment,user="","unknown"
    anis,nltrm=0,0
    jackknife=0 # maybe in future can do jackknife
    args=sys.argv
    Zdiff=0
    if '-WD' in args:
        ind=args.index('-WD')
        dir_path=args[ind+1]
    if "-h" in args:
        print main.__doc__
        sys.exit()
    if "-usr" in args:
        ind=args.index("-usr")
        user=sys.argv[ind+1]
    if "-leg" in args: comment="Recalculated from original measurements; supercedes published results. "
    if "-CR" in args:
        ind=args.index("-CR")
        frac=.01*float(sys.argv[ind+1])
        crtype=sys.argv[ind+2]
    if "-Fcr" in args:
        ind=args.index("-Fcr")
        crout=sys.argv[ind+1]
    if "-f" in args:
        ind=args.index("-f")
        meas_file=sys.argv[ind+1]
    if "-F" in args:
        ind=args.index("-F")
        pmag_file=sys.argv[ind+1]
    if "-fre" in args:
        ind=args.index("-fre")
        mk_file=args[ind+1]
    #
    #
    if "-ANI" in args:
        anis=1
        ind=args.index("-ANI")
        if "-Fac" in args:
            ind=args.index("-Fac")
            anisout=args[ind+1]
        if "-fan" in args:
            ind=args.index("-fan")
            anis_file=args[ind+1]
    #
    if "-NLT" in args:
        nltrm=1
        if "-Fnl" in args:
            ind=args.index("-Fnl")
            nltout=args[ind+1]
        if "-fnl" in args:
            ind=args.index("-fnl")
            nlt_file=args[ind+1]
    if "-z" in args: Zdiff=1
    if '-fcr' in sys.argv: 
        ind=args.index("-fcr")
        critout=sys.argv[ind+1]
#
#  start reading in data:
#
    meas_file=dir_path+"/"+meas_file
    mk_file=dir_path+"/"+mk_file
    critout=dir_path+"/"+critout
    try:
        open(critout,'rU')
        accept_keys=['specimen_int_ptrm_n','specimen_md','specimen_fvds','specimen_b_beta','specimen_dang','specimen_drats','specimen_Z']
        crit_data,file_type=pmag.magic_read(critout)
        print "Acceptance criteria read in from ", critout
        accept={}
        accept['specimen_int_ptrm_n']=2.0
        for critrec in crit_data:
            if critrec["pmag_criteria_code"]=="IE-SPEC":
                for key in accept_keys:
                    if key not in critrec.keys():
                        accept[key]=-1
                    else:
                        accept[key]=float(critrec[key])
    except:
        critout="" # no acceptance criteria specified
    meas_data,file_type=pmag.magic_read(meas_file)
    if file_type != 'magic_measurements':
        print file_type
        print file_type,"This is not a valid magic_measurements file " 
        sys.exit()
    try:
        mk_f=open(mk_file,'rU')
    except:
        print "Bad redo file"
        sys.exit()
    mkspec=[]
    speclist=[]
    for line in mk_f.readlines():
        tmp=line.split()
        mkspec.append(tmp)
        speclist.append(tmp[0])
    if anis==1:
        anis_file=dir_path+"/"+anis_file 
        anis_data,file_type=pmag.magic_read(anis_file)
        if file_type != 'rmag_anisotropy':
            print file_type
            print file_type,"This is not a valid rmag_anisotropy file "
            sys.exit()
    if nlt_file=="":
        nlt_data=meas_data  # look for trm acquisition data in the meas_data file
    else:
        nlt_file=dir_path+"/"+nlt_file 
        nlt_data,file_type=pmag.magic_read(nlt_file)
#
# sort the specimen names and step through one by one
#
    sids=pmag.get_specs(meas_data)
# 
    print 'Processing ',len(speclist),' specimens - please wait '
    while spec < len(speclist):
        s=speclist[spec]
        recnum=0
        datablock=[]
        PmagSpecRec={}
        PmagSpecRec["er_analyst_mail_names"]=user
        PmagSpecRec["er_citation_names"]="This study"
        PmagSpecRec["magic_software_packages"]=version_num
        methcodes,inst_code=[],""
    #
    # find the data from the meas_data file for this specimen
    #
        for rec in meas_data:
            if rec["er_specimen_name"].lower()==s.lower(): 
                if "magic_instrument_codes" not in rec.keys():
                    rec["magic_instrument_codes"]="unknown"
                meths=rec["magic_method_codes"]
                for meth in meths:meth.strip()   # get rid of annoying spaces in method codes
                if "LP-PI-TRM" in meths: datablock.append(rec)
    #
    #  collect info for the PmagSpecRec dictionary
    #
        if len(datablock)>0:
            rec=datablock[0]
            PmagSpecRec["er_specimen_name"]=s
            PmagSpecRec["er_sample_name"]=rec["er_sample_name"]
            PmagSpecRec["er_site_name"]=rec["er_site_name"]
            PmagSpecRec["er_location_name"]=rec["er_location_name"]
            PmagSpecRec["measurement_step_unit"]="K"
            PmagSpecRec["specimen_correction"]='u'
            if "magic_instrument_codes" not in rec.keys():
                PmagSpecRec["magic_instrument_codes"]="unknown"
            else:
                PmagSpecRec["magic_instrument_codes"]=rec["magic_instrument_codes"]
            if "magic_experiment_name" not in rec.keys():
                rec["magic_experiment_name"]=""
            else:
                PmagSpecRec["magic_experiment_names"]=rec["magic_experiment_name"]
            meths=rec["magic_experiment_name"].split(":")
            for meth in meths:
                if meth.strip() not in methcodes and "LP-" in meth:methcodes.append(meth.strip())
    #
    # sort out the data into first_Z, first_I, ptrm_check, ptrm_tail
    #
            araiblock,field=pmag.sortarai(datablock,s,Zdiff)
            first_Z=araiblock[0]
            first_I=araiblock[1]
            ptrm_check=araiblock[2]
            ptrm_tail=araiblock[3]
            if len(first_I)<3 or len(first_Z)<4:
                spec+=1
                print 'skipping specimen ', s 
            else:
    #
    # get start, end
    #
                for redospec in mkspec:
                    if redospec[0]==s:
    	                b,e=float(redospec[1]),float(redospec[2])
                        break
                if e > float(first_Z[-1][0]):e=float(first_Z[-1][0])
                for recnum in range(len(first_Z)):
            	    if first_Z[recnum][0]==b:start=recnum
            	    if first_Z[recnum][0]==e:end=recnum
                nsteps=end-start
                if nsteps>2:
                    zijdblock,units=pmag.find_dmag_rec(s,meas_data)
                    pars,errcode=pmag.PintPars(araiblock,zijdblock,start,end)
                    pars['measurement_step_unit']=units
                    pars["specimen_lab_field_dc"]=field
                    pars["specimen_int"]=-1*field*pars["specimen_b"]
                    PmagSpecRec["measurement_step_min"]='%8.3e' % (pars["measurement_step_min"])
                    PmagSpecRec["measurement_step_max"]='%8.3e' % (pars["measurement_step_max"])
                    PmagSpecRec["specimen_int_n"]='%i'%(pars["specimen_int_n"])
                    PmagSpecRec["specimen_lab_field_dc"]='%8.3e'%(pars["specimen_lab_field_dc"])
                    PmagSpecRec["specimen_int"]='%9.4e '%(pars["specimen_int"])
                    PmagSpecRec["specimen_b"]='%5.3f '%(pars["specimen_b"])
                    PmagSpecRec["specimen_q"]='%5.1f '%(pars["specimen_q"])
                    PmagSpecRec["specimen_f"]='%5.3f '%(pars["specimen_f"])
                    PmagSpecRec["specimen_fvds"]='%5.3f'%(pars["specimen_fvds"])
                    PmagSpecRec["specimen_b_beta"]='%5.3f'%(pars["specimen_b_beta"])
                    PmagSpecRec["specimen_int_mad"]='%7.1f'%(pars["specimen_int_mad"])
                    PmagSpecRec["specimen_Z"]='%7.1f'%(pars["specimen_Z"])
                    PmagSpecRec["specimen_gamma"]='%7.1f'%(pars["specimen_gamma"])
                    if pars["method_codes"]!="" and pars["method_codes"] not in methcodes: methcodes.append(pars["method_codes"])
                    PmagSpecRec["specimen_dec"]='%7.1f'%(pars["specimen_dec"])
                    PmagSpecRec["specimen_inc"]='%7.1f'%(pars["specimen_inc"])
                    PmagSpecRec["specimen_tilt_correction"]='-1'
                    PmagSpecRec["specimen_direction_type"]='l'
                    PmagSpecRec["direction_type"]='l' # this is redudant, but helpful - won't be imported
                    PmagSpecRec["specimen_dang"]='%7.1f '%(pars["specimen_dang"])
                    PmagSpecRec["specimen_drats"]='%7.1f '%(pars["specimen_drats"])
                    PmagSpecRec["specimen_int_ptrm_n"]='%i '%(pars["specimen_int_ptrm_n"])
                    PmagSpecRec["specimen_rsc"]='%6.4f '%(pars["specimen_rsc"])
                    PmagSpecRec["specimen_md"]='%i '%(int(pars["specimen_md"]))
                    if PmagSpecRec["specimen_md"]=='-1':PmagSpecRec["specimen_md"]=""
                    PmagSpecRec["specimen_b_sigma"]='%5.3f '%(pars["specimen_b_sigma"])
                    if "IE-TT" not in  methcodes:methcodes.append("IE-TT")
                    methods=""
                    for meth in methcodes:
                        methods=methods+meth+":"
                    PmagSpecRec["magic_method_codes"]=methods[:-1]
                    PmagSpecRec["magic_software_packages"]=version_num
                    PmagSpecRec["specimen_description"]=comment
                    if critout!="":
                        score,kill=pmag.grade(PmagSpecRec,accept)
                        Grade=""
                        if score==len(accept.keys()):Grade='A'
                        if score==len(accept.keys())-1:Grade='B'
                        if score==len(accept.keys())-2:Grade='C'
                        if score==len(accept.keys())-3:Grade='D'
                        if score<=len(accept.keys())-4:Grade='F'
                        PmagSpecRec["specimen_grade"]=Grade
                    else:
                        PmagSpecRec["specimen_grade"]=""
                    if nltrm==0 and anis==0 and frac!=0: # apply cooling rate correction
                        CrSpecRec={}
                        for key in PmagSpecRec.keys():CrSpecRec[key]=PmagSpecRec[key]
                        inten=frac*float(CrSpecRec['specimen_int'])
                        CrSpecRec["specimen_int"]='%9.4e '%(inten) # adjust specimen intensity by cooling rate correction
                        CrSpecRec['magic_method_codes'] = CrSpecRec['magic_method_codes']+':DA-CR-'+crtype
                        CrSpecRec["specimen_correction"]='c'
                        CRSpecs.append(CrSpecRec)
                    PmagSpecs.append(PmagSpecRec)
                    NltSpecRec=""
    #
    # check on non-linear TRM correction
    #
                    if nltrm==1:
    #
    # find the data from the nlt_data list for this specimen
    #
                        TRMs,Bs=[],[]
                        NltSpecRec=""
                        NltRecs=[]
                        for NltRec in nlt_data:
                            if NltRec['er_specimen_name']==PmagSpecRec["er_specimen_name"]:
                                meths=NltRec["magic_method_codes"].split(":")
                                for meth in meths:meth.strip()
                                if "LP-TRM" in meths: NltRecs.append(NltRec)
                        if len(NltRecs) > 2:
                            for NltRec in NltRecs:
                                Bs.append(float(NltRec['treatment_dc_field']))
                                TRMs.append(float(NltRec['measurement_magn_moment']))
                            NLTpars=nlt.NLtrm(Bs,TRMs,float(PmagSpecRec['specimen_int']),float(PmagSpecRec['specimen_lab_field_dc']),0) 
                            if NLTpars['banc']>0:
                                NltSpecRec={}
                                for key in PmagSpecRec.keys():
                                    NltSpecRec[key]=PmagSpecRec[key]
                                NltSpecRec['specimen_int']='%9.4e'%(NLTpars['banc'])  
                                NltSpecRec['magic_method_codes']=PmagSpecRec["magic_method_codes"]+":DA-NL"
                                NltSpecRec["specimen_correction"]='c'
                                NltSpecRec['specimen_grade']=PmagSpecRec['specimen_grade']
                                NltSpecRec["magic_software_packages"]=version_num
                                print NltSpecRec['er_specimen_name'],  ' Banc= ',float(NLTpars['banc'])*1e6
                                if anis==0 and frac!=0:
                                    CrSpecRec={}
                                    for key in NltSpecRec.keys():CrSpecRec[key]=NltSpecRec[key]
                                    inten=frac*float(CrSpecRec['specimen_int'])
                                    CrSpecRec["specimen_int"]='%9.4e '%(inten) # adjust specimen intensity by cooling rate correction
                                    CrSpecRec['magic_method_codes'] = CrSpecRec['magic_method_codes']+':DA-CR-'+crtype
                                    CRSpecs.append(CrSpecRec)
                                NltSpecRecs.append(NltSpecRec)
    #
    # check on anisotropy correction
                        if anis==1:
                            if NltSpecRec!="":  
                                Spc=NltSpecRec
                            else: # find uncorrected data
                                Spc=PmagSpecRec
                            for AniSpec in anis_data:
                                if AniSpec["er_specimen_name"]==PmagSpecRec["er_specimen_name"]:
                                    AniSpecRec=pmag.thellier_anis_corr(Spc,AniSpec)
                                    AniSpecRec['specimen_grade']=PmagSpecRec['specimen_grade']
                                    inst_codes=Spc["magic_instrument_codes"]
                                    if "magic_instrument_codes" in AniSpec.keys():
                                        if inst_codes=="unknown":
                                            inst_codes=AniSpec["magic_instrument_codes"]
                                        else:
                                            inst_codes=inst_codes+":"+AniSpec["magic_instrument_codes"]
                                    AniSpecRec["magic_instrument_codes"]=inst_codes
                                    AniSpecRec["specimen_correction"]='c'
                                    AniSpecRec["magic_software_packages"]=version_num
                                    if frac!=0:
                                        CrSpecRec={}
                                        for key in AniSpecRec.keys():CrSpecRec[key]=AniSpecRec[key]
                                        inten=frac*float(CrSpecRec['specimen_int'])
                                        CrSpecRec["specimen_int"]='%9.4e '%(inten) # adjust specimen intensity by cooling rate correction
                                        CrSpecRec['magic_method_codes'] = CrSpecRec['magic_method_codes']+':DA-CR-'+crtype
                                        CRSpecs.append(CrSpecRec)
                                    AniSpecRecs.append(AniSpecRec) 
                                    break
                    elif anis==1:
                        for AniSpec in anis_data:
                            if AniSpec["er_specimen_name"]==PmagSpecRec["er_specimen_name"]:
                                AniSpecRec=pmag.thellier_anis_corr(PmagSpecRec,AniSpec)
                                AniSpecRec['specimen_grade']=PmagSpecRec['specimen_grade']
                                inst_codes=PmagSpecRec["magic_instrument_codes"]
                                if "magic_instrument_codes" in AniSpec.keys():
                                    if inst_codes=="unknown":
                                        inst_codes=AniSpec["magic_instrument_codes"]
                                    else:
                                        inst_codes=inst_codes+":"+AniSpec["magic_instrument_codes"]
                                AniSpecRec["magic_instrument_codes"]=inst_codes
                                AniSpecRec["specimen_correction"]='c'
                                AniSpecRec["magic_software_packages"]=version_num
                                if frac!=0:
                                    CrSpecRec={}
                                    for key in AniSpecRec.keys():CrSpecRec[key]=AniSpecRec[key]
                                    inten=frac*float(CrSpecRec['specimen_int'])
                                    CrSpecRec["specimen_int"]='%9.4e '%(inten) # adjust specimen intensity by cooling rate correction
                                    CrSpecRec['magic_method_codes'] = CrSpecRec['magic_method_codes']+':DA-CR-'+crtype
                                    CRSpecs.append(CrSpecRec)
                                AniSpecRecs.append(AniSpecRec) 
                                break
                spec +=1
        else:
            print "skipping ",s
            spec+=1
    pmag_file=dir_path+'/'+pmag_file
    pmag.magic_write(pmag_file,PmagSpecs,'pmag_specimens')
    if anis==1:
        anisout=dir_path+'/'+anisout
        pmag.magic_write(anisout,AniSpecRecs,'pmag_specimens')
    if nltrm==1:
        nltout=dir_path+'/'+nltout
        pmag.magic_write(nltout,NltSpecRecs,'pmag_specimens')
    if frac!=0:
        crout=dir_path+'/'+crout
        pmag.magic_write(crout,CRSpecs,'pmag_specimens')
Пример #2
0
def main():
    """
    NAME
        thellier_magic_redo.py

    DESCRIPTION
        Calculates paleointensity parameters for thellier-thellier type data using bounds
        stored in the "redo" file

    SYNTAX
        thellier_magic_redo [command line options]

    OPTIONS
        -h prints help message
        -usr USER:   identify user, default is ""
        -fcr CRIT, set criteria for grading
        -f IN: specify input file, default is magic_measurements.txt
        -fre REDO: specify redo file, default is "thellier_redo"
        -F OUT: specify output file, default is thellier_specimens.txt
        -leg:  attaches "Recalculated from original measurements; supercedes published results. " to comment field
        -CR PERC TYPE: apply a blanket cooling rate correction if none supplied in the er_samples.txt file 
            PERC should be a percentage of original (say reduce to 90%)
            TYPE should be one of the following:
               EG (for educated guess); PS (based on pilots); TRM (based on comparison of two TRMs) 
        -ANI:  perform anisotropy correction
        -fsa SAMPFILE: er_samples.txt file with cooling rate correction information, default is NO CORRECTION
        -Fcr  CRout: specify pmag_specimen format file for cooling rate corrected data
        -fan ANIFILE: specify rmag_anisotropy format file, default is rmag_anisotropy.txt 
        -Fac  ACout: specify pmag_specimen format file for anisotropy corrected data
                 default is AC_specimens.txt
        -fnl NLTFILE: specify magic_measurments format file, default is magic_measurements.txt
        -Fnl NLTout: specify pmag_specimen format file for non-linear trm corrected data
                 default is NLT_specimens.txt
        -z use z component differenences for pTRM calculation

    INPUT
        a thellier_redo file is Specimen_name Tmin Tmax (where Tmin and Tmax are in Centigrade)
    """
    dir_path = "."
    critout = ""
    version_num = pmag.get_version()
    field, first_save = -1, 1
    spec, recnum, start, end = 0, 0, 0, 0
    crfrac = 0
    NltRecs, PmagSpecs, AniSpecRecs, NltSpecRecs, CRSpecs = [], [], [], [], []
    meas_file, pmag_file, mk_file = "magic_measurements.txt", "thellier_specimens.txt", "thellier_redo"
    anis_file = "rmag_anisotropy.txt"
    anisout, nltout = "AC_specimens.txt", "NLT_specimens.txt"
    crout = "CR_specimens.txt"
    nlt_file = ""
    samp_file = ""
    comment, user = "", "unknown"
    anis, nltrm = 0, 0
    jackknife = 0  # maybe in future can do jackknife
    args = sys.argv
    Zdiff = 0
    if "-WD" in args:
        ind = args.index("-WD")
        dir_path = args[ind + 1]
    if "-h" in args:
        print main.__doc__
        sys.exit()
    if "-usr" in args:
        ind = args.index("-usr")
        user = sys.argv[ind + 1]
    if "-leg" in args:
        comment = "Recalculated from original measurements; supercedes published results. "
    cool = 0
    if "-CR" in args:
        cool = 1
        ind = args.index("-CR")
        crfrac = 0.01 * float(sys.argv[ind + 1])
        crtype = "DA-CR-" + sys.argv[ind + 2]
    if "-Fcr" in args:
        ind = args.index("-Fcr")
        crout = sys.argv[ind + 1]
    if "-f" in args:
        ind = args.index("-f")
        meas_file = sys.argv[ind + 1]
    if "-F" in args:
        ind = args.index("-F")
        pmag_file = sys.argv[ind + 1]
    if "-fre" in args:
        ind = args.index("-fre")
        mk_file = args[ind + 1]
    if "-fsa" in args:
        ind = args.index("-fsa")
        samp_file = dir_path + "/" + args[ind + 1]
        Samps, file_type = pmag.magic_read(samp_file)
        SampCRs = pmag.get_dictitem(Samps, "cooling_rate_corr", "", "F")  # get samples cooling rate corrections
        cool = 1
        if file_type != "er_samples":
            print "not a valid er_samples.txt file"
            sys.exit()
    #
    #
    if "-ANI" in args:
        anis = 1
        ind = args.index("-ANI")
        if "-Fac" in args:
            ind = args.index("-Fac")
            anisout = args[ind + 1]
        if "-fan" in args:
            ind = args.index("-fan")
            anis_file = args[ind + 1]
    #
    if "-NLT" in args:
        if "-Fnl" in args:
            ind = args.index("-Fnl")
            nltout = args[ind + 1]
        if "-fnl" in args:
            ind = args.index("-fnl")
            nlt_file = args[ind + 1]
    if "-z" in args:
        Zdiff = 1
    if "-fcr" in sys.argv:
        ind = args.index("-fcr")
        critout = sys.argv[ind + 1]
    #
    #  start reading in data:
    #
    meas_file = dir_path + "/" + meas_file
    mk_file = dir_path + "/" + mk_file
    accept = pmag.default_criteria(1)[0]  # set criteria to none
    if critout != "":
        critout = dir_path + "/" + critout
        crit_data, file_type = pmag.magic_read(critout)
        if file_type != "pmag_criteria":
            print "bad pmag_criteria file, using no acceptance criteria"
        print "Acceptance criteria read in from ", critout
        for critrec in crit_data:
            if "sample_int_sigma_uT" in critrec.keys():  # accommodate Shaar's new criterion
                critrec["sample_int_sigma"] = "%10.3e" % (eval(critrec["sample_int_sigma_uT"]) * 1e-6)
            for key in critrec.keys():
                if key not in accept.keys() and critrec[key] != "":
                    accept[key] = critrec[key]
    meas_data, file_type = pmag.magic_read(meas_file)
    if file_type != "magic_measurements":
        print file_type
        print file_type, "This is not a valid magic_measurements file "
        sys.exit()
    try:
        mk_f = open(mk_file, "rU")
    except:
        print "Bad redo file"
        sys.exit()
    mkspec = []
    speclist = []
    for line in mk_f.readlines():
        tmp = line.split()
        mkspec.append(tmp)
        speclist.append(tmp[0])
    if anis == 1:
        anis_file = dir_path + "/" + anis_file
        anis_data, file_type = pmag.magic_read(anis_file)
        if file_type != "rmag_anisotropy":
            print file_type
            print file_type, "This is not a valid rmag_anisotropy file "
            sys.exit()
    if nlt_file == "":
        nlt_data = pmag.get_dictitem(
            meas_data, "magic_method_codes", "LP-TRM", "has"
        )  # look for trm acquisition data in the meas_data file
    else:
        nlt_file = dir_path + "/" + nlt_file
        nlt_data, file_type = pmag.magic_read(nlt_file)
    if len(nlt_data) > 0:
        nltrm = 1
    #
    # sort the specimen names and step through one by one
    #
    sids = pmag.get_specs(meas_data)
    #
    print "Processing ", len(speclist), " specimens - please wait "
    while spec < len(speclist):
        s = speclist[spec]
        recnum = 0
        datablock = []
        PmagSpecRec = {}
        PmagSpecRec["er_analyst_mail_names"] = user
        PmagSpecRec["er_citation_names"] = "This study"
        PmagSpecRec["magic_software_packages"] = version_num
        methcodes, inst_code = [], ""
        #
        # find the data from the meas_data file for this specimen
        #
        datablock = pmag.get_dictitem(meas_data, "er_specimen_name", s, "T")
        datablock = pmag.get_dictitem(
            datablock, "magic_method_codes", "LP-PI-TRM", "has"
        )  # pick out the thellier experiment data
        if len(datablock) > 0:
            for rec in datablock:
                if "magic_instrument_codes" not in rec.keys():
                    rec["magic_instrument_codes"] = "unknown"
            #
            #  collect info for the PmagSpecRec dictionary
            #
            rec = datablock[0]
            PmagSpecRec["er_specimen_name"] = s
            PmagSpecRec["er_sample_name"] = rec["er_sample_name"]
            PmagSpecRec["er_site_name"] = rec["er_site_name"]
            PmagSpecRec["er_location_name"] = rec["er_location_name"]
            PmagSpecRec["measurement_step_unit"] = "K"
            PmagSpecRec["specimen_correction"] = "u"
            if "er_expedition_name" in rec.keys():
                PmagSpecRec["er_expedition_name"] = rec["er_expedition_name"]
            if "magic_instrument_codes" not in rec.keys():
                PmagSpecRec["magic_instrument_codes"] = "unknown"
            else:
                PmagSpecRec["magic_instrument_codes"] = rec["magic_instrument_codes"]
            if "magic_experiment_name" not in rec.keys():
                rec["magic_experiment_name"] = ""
            else:
                PmagSpecRec["magic_experiment_names"] = rec["magic_experiment_name"]
            meths = rec["magic_experiment_name"].split(":")
            for meth in meths:
                if meth.strip() not in methcodes and "LP-" in meth:
                    methcodes.append(meth.strip())
            #
            # sort out the data into first_Z, first_I, ptrm_check, ptrm_tail
            #
            araiblock, field = pmag.sortarai(datablock, s, Zdiff)
            first_Z = araiblock[0]
            first_I = araiblock[1]
            ptrm_check = araiblock[2]
            ptrm_tail = araiblock[3]
            if len(first_I) < 3 or len(first_Z) < 4:
                spec += 1
                print "skipping specimen ", s
            else:
                #
                # get start, end
                #
                for redospec in mkspec:
                    if redospec[0] == s:
                        b, e = float(redospec[1]), float(redospec[2])
                        break
                if e > float(first_Z[-1][0]):
                    e = float(first_Z[-1][0])
                for recnum in range(len(first_Z)):
                    if first_Z[recnum][0] == b:
                        start = recnum
                    if first_Z[recnum][0] == e:
                        end = recnum
                nsteps = end - start
                if nsteps > 2:
                    zijdblock, units = pmag.find_dmag_rec(s, meas_data)
                    pars, errcode = pmag.PintPars(datablock, araiblock, zijdblock, start, end, accept)
                    if "specimen_scat" in pars.keys():
                        PmagSpecRec["specimen_scat"] = pars["specimen_scat"]
                    if "specimen_frac" in pars.keys():
                        PmagSpecRec["specimen_frac"] = "%5.3f" % (pars["specimen_frac"])
                    if "specimen_gmax" in pars.keys():
                        PmagSpecRec["specimen_gmax"] = "%5.3f" % (pars["specimen_gmax"])
                    pars["measurement_step_unit"] = units
                    pars["specimen_lab_field_dc"] = field
                    pars["specimen_int"] = -1 * field * pars["specimen_b"]
                    PmagSpecRec["measurement_step_min"] = "%8.3e" % (pars["measurement_step_min"])
                    PmagSpecRec["measurement_step_max"] = "%8.3e" % (pars["measurement_step_max"])
                    PmagSpecRec["specimen_int_n"] = "%i" % (pars["specimen_int_n"])
                    PmagSpecRec["specimen_lab_field_dc"] = "%8.3e" % (pars["specimen_lab_field_dc"])
                    PmagSpecRec["specimen_int"] = "%9.4e " % (pars["specimen_int"])
                    PmagSpecRec["specimen_b"] = "%5.3f " % (pars["specimen_b"])
                    PmagSpecRec["specimen_q"] = "%5.1f " % (pars["specimen_q"])
                    PmagSpecRec["specimen_f"] = "%5.3f " % (pars["specimen_f"])
                    PmagSpecRec["specimen_fvds"] = "%5.3f" % (pars["specimen_fvds"])
                    PmagSpecRec["specimen_b_beta"] = "%5.3f" % (pars["specimen_b_beta"])
                    PmagSpecRec["specimen_int_mad"] = "%7.1f" % (pars["specimen_int_mad"])
                    PmagSpecRec["specimen_Z"] = "%7.1f" % (pars["specimen_Z"])
                    PmagSpecRec["specimen_gamma"] = "%7.1f" % (pars["specimen_gamma"])
                    if pars["method_codes"] != "" and pars["method_codes"] not in methcodes:
                        methcodes.append(pars["method_codes"])
                    PmagSpecRec["specimen_dec"] = "%7.1f" % (pars["specimen_dec"])
                    PmagSpecRec["specimen_inc"] = "%7.1f" % (pars["specimen_inc"])
                    PmagSpecRec["specimen_tilt_correction"] = "-1"
                    PmagSpecRec["specimen_direction_type"] = "l"
                    PmagSpecRec["direction_type"] = "l"  # this is redudant, but helpful - won't be imported
                    PmagSpecRec["specimen_dang"] = "%7.1f " % (pars["specimen_dang"])
                    PmagSpecRec["specimen_drats"] = "%7.1f " % (pars["specimen_drats"])
                    PmagSpecRec["specimen_drat"] = "%7.1f " % (pars["specimen_drat"])
                    PmagSpecRec["specimen_int_ptrm_n"] = "%i " % (pars["specimen_int_ptrm_n"])
                    PmagSpecRec["specimen_rsc"] = "%6.4f " % (pars["specimen_rsc"])
                    PmagSpecRec["specimen_md"] = "%i " % (int(pars["specimen_md"]))
                    if PmagSpecRec["specimen_md"] == "-1":
                        PmagSpecRec["specimen_md"] = ""
                    PmagSpecRec["specimen_b_sigma"] = "%5.3f " % (pars["specimen_b_sigma"])
                    if "IE-TT" not in methcodes:
                        methcodes.append("IE-TT")
                    methods = ""
                    for meth in methcodes:
                        methods = methods + meth + ":"
                    PmagSpecRec["magic_method_codes"] = methods.strip(":")
                    PmagSpecRec["magic_software_packages"] = version_num
                    PmagSpecRec["specimen_description"] = comment
                    if critout != "":
                        kill = pmag.grade(PmagSpecRec, accept, "specimen_int")
                        if len(kill) > 0:
                            Grade = "F"  # fails
                        else:
                            Grade = "A"  # passes
                        PmagSpecRec["specimen_grade"] = Grade
                    else:
                        PmagSpecRec["specimen_grade"] = ""  # not graded
                    if nltrm == 0 and anis == 0 and cool != 0:  # apply cooling rate correction
                        SCR = pmag.get_dictitem(
                            SampCRs, "er_sample_name", PmagSpecRec["er_sample_name"], "T"
                        )  # get this samples, cooling rate correction
                        CrSpecRec = pmag.cooling_rate(PmagSpecRec, SCR, crfrac, crtype)
                        if CrSpecRec["er_specimen_name"] != "none":
                            CrSpecs.append(CrSpecRec)
                    PmagSpecs.append(PmagSpecRec)
                    NltSpecRec = ""
                    #
                    # check on non-linear TRM correction
                    #
                    if nltrm == 1:
                        #
                        # find the data from the nlt_data list for this specimen
                        #
                        TRMs, Bs = [], []
                        NltSpecRec = ""
                        NltRecs = pmag.get_dictitem(
                            nlt_data, "er_specimen_name", PmagSpecRec["er_specimen_name"], "has"
                        )  # fish out all the NLT data for this specimen
                        if len(NltRecs) > 2:
                            for NltRec in NltRecs:
                                Bs.append(float(NltRec["treatment_dc_field"]))
                                TRMs.append(float(NltRec["measurement_magn_moment"]))
                            NLTpars = nlt.NLtrm(
                                Bs,
                                TRMs,
                                float(PmagSpecRec["specimen_int"]),
                                float(PmagSpecRec["specimen_lab_field_dc"]),
                                0,
                            )
                            if NLTpars["banc"] > 0:
                                NltSpecRec = {}
                                for key in PmagSpecRec.keys():
                                    NltSpecRec[key] = PmagSpecRec[key]
                                NltSpecRec["specimen_int"] = "%9.4e" % (NLTpars["banc"])
                                NltSpecRec["magic_method_codes"] = PmagSpecRec["magic_method_codes"] + ":DA-NL"
                                NltSpecRec["specimen_correction"] = "c"
                                NltSpecRec["specimen_grade"] = PmagSpecRec["specimen_grade"]
                                NltSpecRec["magic_software_packages"] = version_num
                                print NltSpecRec["er_specimen_name"], " Banc= ", float(NLTpars["banc"]) * 1e6
                                if anis == 0 and cool != 0:
                                    SCR = pmag.get_dictitem(
                                        SampCRs, "er_sample_name", NltSpecRec["er_sample_name"], "T"
                                    )  # get this samples, cooling rate correction
                                    CrSpecRec = pmag.cooling_rate(NltSpecRec, SCR, crfrac, crtype)
                                    if CrSpecRec["er_specimen_name"] != "none":
                                        CrSpecs.append(CrSpecRec)
                                NltSpecRecs.append(NltSpecRec)
                        #
                        # check on anisotropy correction
                        if anis == 1:
                            if NltSpecRec != "":
                                Spc = NltSpecRec
                            else:  # find uncorrected data
                                Spc = PmagSpecRec
                            AniSpecs = pmag.get_dictitem(
                                anis_data, "er_specimen_name", PmagSpecRec["er_specimen_name"], "T"
                            )
                            if len(AniSpecs) > 0:
                                AniSpec = AniSpecs[0]
                                AniSpecRec = pmag.doaniscorr(Spc, AniSpec)
                                AniSpecRec["specimen_grade"] = PmagSpecRec["specimen_grade"]
                                AniSpecRec["magic_instrument_codes"] = PmagSpecRec["magic_instrument_codes"]
                                AniSpecRec["specimen_correction"] = "c"
                                AniSpecRec["magic_software_packages"] = version_num
                                if cool != 0:
                                    SCR = pmag.get_dictitem(
                                        SampCRs, "er_sample_name", AniSpecRec["er_sample_name"], "T"
                                    )  # get this samples, cooling rate correction
                                    CrSpecRec = pmag.cooling_rate(AniSpecRec, SCR, crfrac, crtype)
                                    if CrSpecRec["er_specimen_name"] != "none":
                                        CrSpecs.append(CrSpecRec)
                                AniSpecRecs.append(AniSpecRec)
                    elif anis == 1:
                        AniSpecs = pmag.get_dictitem(
                            anis_data, "er_specimen_name", PmagSpecRec["er_specimen_name"], "T"
                        )
                        if len(AniSpecs) > 0:
                            AniSpec = AniSpecs[0]
                            AniSpecRec = pmag.doaniscorr(PmagSpecRec, AniSpec)
                            AniSpecRec["specimen_grade"] = PmagSpecRec["specimen_grade"]
                            AniSpecRec["magic_instrument_codes"] = PmagSpecRec["magic_instrument_codes"]
                            AniSpecRec["specimen_correction"] = "c"
                            AniSpecRec["magic_software_packages"] = version_num
                            if crfrac != 0:
                                CrSpecRec = {}
                                for key in AniSpecRec.keys():
                                    CrSpecRec[key] = AniSpecRec[key]
                                inten = frac * float(CrSpecRec["specimen_int"])
                                CrSpecRec["specimen_int"] = "%9.4e " % (
                                    inten
                                )  # adjust specimen intensity by cooling rate correction
                                CrSpecRec["magic_method_codes"] = CrSpecRec["magic_method_codes"] + ":DA-CR-" + crtype
                                CRSpecs.append(CrSpecRec)
                            AniSpecRecs.append(AniSpecRec)
                spec += 1
        else:
            print "skipping ", s
            spec += 1
    pmag_file = dir_path + "/" + pmag_file
    pmag.magic_write(pmag_file, PmagSpecs, "pmag_specimens")
    print "uncorrected thellier data saved in: ", pmag_file
    if anis == 1 and len(AniSpecRecs) > 0:
        anisout = dir_path + "/" + anisout
        pmag.magic_write(anisout, AniSpecRecs, "pmag_specimens")
        print "anisotropy corrected data saved in: ", anisout
    if nltrm == 1 and len(NltSpecRecs) > 0:
        nltout = dir_path + "/" + nltout
        pmag.magic_write(nltout, NltSpecRecs, "pmag_specimens")
        print "non-linear TRM corrected data saved in: ", nltout
    if crfrac != 0:
        crout = dir_path + "/" + crout
        pmag.magic_write(crout, CRSpecs, "pmag_specimens")
        print "cooling rate corrected data saved in: ", crout
Пример #3
0
def main():
    """
    NAME
        pick_AC_specimens.py
    
    DESCRIPTION
        finds whether anisotropy correction yeilds more tightly 
        grouped intensities  than uncorrected data. 
        picks either all corrected or all uncorrected data and 
        puts in pmag_specimen format file
    
    SYNTAX
        pick_AC_specimens.py [-h][-i][-fu TFILE][-fc AFILE][-F FILE]

    OPTIONS
        -h prints help message and quits
        -i allows interactive setting of file names
        -fu TFILE uncorrected pmag_specimen format file with thellier interpretations
            created by thellier_magic_redo.py
        -fc AFILE anisotropy corrected pmag_specimen format file
            created by thellier_magic_redo.py
        -fcr CRIT pmag_criteria.txt format file with acceptance criteria
        -opt SIG use the optimizer_thelpars.txt file for criteria
        -F FILE pmag_specimens format output file with "best" set of data

    DEFAULTS
        TFILE: thellier_specimens.txt
        AFILE: AC_specimens.txt
        FILE: pmag_specimens.txt
    """
    tspec="thellier_specimens.txt"
    aspec="AC_specimens.txt"
    ofile="pmag_specimens.txt"
    critfile="pmag_criteria.txt"
    ACSamplist,Samplist,sigmin=[],[],10000
    GoodSamps,SpecOuts=[],[]
    P={'cdf':1}
    pmagplotlib.plot_init(P['cdf'],5,5)
# get arguments from command line
    if '-h' in sys.argv:
        print main.__doc__
        sys.exit()
    if '-fu' in sys.argv:
        ind=sys.argv.index('-fu')
        tspec=sys.argv[ind+1]
    if '-fc' in sys.argv:
        ind=sys.argv.index('-fc')
        aspec=sys.argv[ind+1]
    if '-fcr' in sys.argv:
        ind=sys.argv.index('-fcr')
        critfile=sys.argv[ind+1]
    if '-opt' in sys.argv:
        ind=sys.argv.index('-opt')
        critfile='optimum_thelpars.txt'
        sigcutoff=sys.argv[ind+1]
    if '-F' in sys.argv:
        ind=sys.argv.index('-F')
        ofile=sys.argv[ind+1]
    if '-i' in sys.argv:
        file=raw_input(" thellier_specimnens.txt file [thellier_specimens.txt]: ")
        if file!="":tfile=file 
        file=raw_input(" AC_specimnens.txt file [AC_specimens.txt]: ")
        if file!="":afile=file 
        file=raw_input(" pmag_specimnens.txt file [pmag_specimens.txt]: ")
        if file!="":ofile=file 
    # read in pmag_specimens file
    Specs,file_type=pmag.magic_read(tspec)
    Speclist=pmag.get_specs(Specs)
    ACSpecs,file_type=pmag.magic_read(aspec)
    ACspeclist=pmag.get_specs(ACSpecs)
    Crits,file_type=pmag.magic_read(critfile)
    keys=['specimen_int_mad','specimen_drats','specimen_fvds','specimen_b_beta','specimen_Z','specimen_md','specimen_dang']
    accept={}
    for crit in Crits:
        if critfile!='optimum_thelpars.txt':
            if crit['pmag_criteria_code']=='IE-SPEC':
                for key in keys: accept[key]=float(crit[key]) # assign acceptance criteria
                break
        else:
            if float(crit['sample_int_sigma_perc'])==float(sigcutoff):
                for key in keys: accept[key]=float(crit[key])
    Diff=[]
    for aspec in ACSpecs:
            grade,kill=pmag.grade(aspec,accept)
            if grade==len(accept): 
                print 'AC: ',aspec["er_specimen_name"],'%i'%(1e6*float(aspec["specimen_int"]))
                aint=(1e6*float(aspec["specimen_int"]))
                for spec in Specs:
                    if spec["er_specimen_name"]==aspec['er_specimen_name']:
                        print 'UC: ',spec["er_specimen_name"],'%i'%(1e6*float(spec["specimen_int"]))
                        int=(1e6*float(spec["specimen_int"]))
                        Diff.append(100.*abs(aint-int)/aint)
    x,s=pmag.gausspars(Diff)
    print x,s
    Diff.sort()
    print Diff[0],Diff[-1]
    pmagplotlib.plotCDF(P['cdf'],Diff,'% Difference','r')
    pmagplotlib.drawFIGS(P)
    raw_input()
Пример #4
0
def main():
    """
    NAME
	specimens_results_magic.py

    DESCRIPTION
	combines pmag_specimens.txt file with age, location, acceptance criteria and
	outputs pmag_results table along with other MagIC tables necessary for uploading to the database

    SYNTAX
	specimens_results_magic.py [command line options]

    OPTIONS
	-h prints help message and quits
	-usr USER:   identify user, default is ""
	-f: specimen input magic_measurements format file, default is "magic_measurements.txt"
	-fsp: specimen input pmag_specimens format file, default is "pmag_specimens.txt"
	-fsm: sample input er_samples format file, default is "er_samples.txt"
	-fsi: specimen input er_sites format file, default is "er_sites.txt"
	-fla: specify a file with paleolatitudes for calculating VADMs, default is not to calculate VADMS
               format is:  site_name paleolatitude (space delimited file)
	-fa AGES: specify er_ages format file with age information
	-crd [s,g,t,b]:   specify coordinate system
	    (s, specimen, g geographic, t, tilt corrected, b, geographic and tilt corrected)
	    Default is to assume geographic
	    NB: only the tilt corrected data will appear on the results table, if both g and t are selected.
        -cor [AC:CR:NL]: colon delimited list of required data adjustments for all specimens 
            included in intensity calculations (anisotropy, cooling rate, non-linear TRM)
            unless specified, corrections will not be applied
        -pri [TRM:ARM] colon delimited list of priorities for anisotropy correction (-cor must also be set to include AC). default is TRM, then ARM 
	-age MIN MAX UNITS:   specify age boundaries and units
	-exc:  use exiting selection criteria (in pmag_criteria.txt file), default is default criteria
	-C: no acceptance criteria
	-aD:  average directions per sample, default is NOT
	-aI:  average multiple specimen intensities per sample, default is by site 
	-aC:  average all components together, default is NOT
	-pol:  calculate polarity averages
	-sam:  save sample level vgps and v[a]dms, default is by site
	-xSi:  skip the site level intensity calculation
	-p: plot directions and look at intensities by site, default is NOT
	    -fmt: specify output for saved images, default is svg (only if -p set)
	-lat: use present latitude for calculating VADMs, default is not to calculate VADMs
	-xD: skip directions
	-xI: skip intensities
    OUPUT
	writes pmag_samples, pmag_sites, pmag_results tables
    """
# set defaults
    Comps=[] # list of components
    version_num=pmag.get_version()
    args=sys.argv
    DefaultAge=["none"]
    skipdirs,coord,excrit,custom,vgps,average,Iaverage,plotsites,opt=1,0,0,0,0,0,0,0,0
    get_model_lat=0 # this skips VADM calculation altogether, when get_model_lat=1, uses present day
    fmt='svg'
    dir_path="."
    model_lat_file=""
    Caverage=0
    infile='pmag_specimens.txt'
    measfile="magic_measurements.txt"
    sampfile="er_samples.txt"
    sitefile="er_sites.txt"
    agefile="er_ages.txt"
    specout="er_specimens.txt"
    sampout="pmag_samples.txt"
    siteout="pmag_sites.txt"
    resout="pmag_results.txt"
    critout="pmag_criteria.txt"
    instout="magic_instruments.txt"
    sigcutoff,OBJ="",""
    noDir,noInt=0,0
    polarity=0
    coords=['0']
    Dcrit,Icrit,nocrit=0,0,0
    corrections=[]
    nocorrection=['DA-NL','DA-AC','DA-CR']
    priorities=['DA-AC-ARM','DA-AC-TRM'] # priorities for anisotropy correction
# get command line stuff
    if "-h" in args:
	print main.__doc__
	sys.exit()
    if '-WD' in args:
	ind=args.index("-WD")
	dir_path=args[ind+1]
    if '-cor' in args:
        ind=args.index('-cor')
        cors=args[ind+1].split(':') # list of required data adjustments
        for cor in cors:
            nocorrection.remove('DA-'+cor)
            corrections.append('DA-'+cor)
    if '-pri' in args:
        ind=args.index('-pri')
        priorities=args[ind+1].split(':') # list of required data adjustments
        for p in priorities:
            p='DA-AC-'+p
    if '-f' in args:
	ind=args.index("-f")
	measfile=args[ind+1]
    if '-fsp' in args:
	ind=args.index("-fsp")
	infile=args[ind+1]
    if '-fsi' in args:
	ind=args.index("-fsi")
	sitefile=args[ind+1]
    if "-crd" in args:
	ind=args.index("-crd")
	coord=args[ind+1]
	if coord=='s':coords=['-1']
	if coord=='g':coords=['0']
	if coord=='t':coords=['100']
	if coord=='b':coords=['0','100']
    if "-usr" in args:
	ind=args.index("-usr")
	user=sys.argv[ind+1]
    else: user=""
    if "-C" in args: Dcrit,Icrit,nocrit=1,1,1 # no selection criteria
    if "-sam" in args: vgps=1 # save sample level VGPS/VADMs
    if "-xSi" in args: 
        nositeints=1 # skip site level intensity
    else:
        nositeints=0
    if "-age" in args:
	ind=args.index("-age")
	DefaultAge[0]=args[ind+1]
	DefaultAge.append(args[ind+2])
	DefaultAge.append(args[ind+3])
    Daverage,Iaverage,Caverage=0,0,0
    if "-aD" in args: Daverage=1 # average by sample directions
    if "-aI" in args: Iaverage=1 # average by sample intensities
    if "-aC" in args: Caverage=1 # average all components together ???  why???
    if "-pol" in args: polarity=1 # calculate averages by polarity
    if '-xD' in args:noDir=1
    if '-xI' in args:
	noInt=1
    elif "-fla" in args: 
	if '-lat' in args:
	    print "you should set a paleolatitude file OR use present day lat - not both"
	    sys.exit()
	ind=args.index("-fla")
	model_lat_file=dir_path+'/'+args[ind+1]
	get_model_lat=2
	mlat=open(model_lat_file,'rU')
	ModelLats=[]
	for line in mlat.readlines():
	    ModelLat={}
	    tmp=line.split()
	    ModelLat["er_site_name"]=tmp[0]
	    ModelLat["site_model_lat"]=tmp[1]
	    ModelLat["er_sample_name"]=tmp[0] 
	    ModelLat["sample_lat"]=tmp[1]
	    ModelLats.append(ModelLat)
	get_model_lat=2
    elif '-lat' in args:
	get_model_lat=1
    if "-p" in args: 
	plotsites=1
	if "-fmt" in args: 
	    ind=args.index("-fmt")
	    fmt=args[ind+1]
	if noDir==0: # plot by site - set up plot window
	    import pmagplotlib
	    EQ={}
	    EQ['eqarea']=1
	    pmagplotlib.plot_init(EQ['eqarea'],5,5) # define figure 1 as equal area projection
            pmagplotlib.plotNET(EQ['eqarea']) # I don't know why this has to be here, but otherwise the first plot never plots...
            pmagplotlib.drawFIGS(EQ)
    if '-WD' in args:
	infile=dir_path+'/'+infile
	measfile=dir_path+'/'+measfile
	instout=dir_path+'/'+instout
	sampfile=dir_path+'/'+sampfile
	sitefile=dir_path+'/'+sitefile
	agefile=dir_path+'/'+agefile
	specout=dir_path+'/'+specout
	sampout=dir_path+'/'+sampout
	siteout=dir_path+'/'+siteout
	resout=dir_path+'/'+resout
	critout=dir_path+'/'+critout
    if "-exc" in args: # use existing pmag_criteria file 
	if "-C" in args:
	    print 'you can not use both existing and no criteria - choose either -exc OR -C OR neither (for default)'
	    sys.exit()
	crit_data,file_type=pmag.magic_read(critout)
	print "Acceptance criteria read in from ", critout
    else  : # use default criteria (if nocrit set, then get really loose criteria as default)
	crit_data=pmag.default_criteria(nocrit)
	if nocrit==0:
	    print "Acceptance criteria are defaults"
	else:
	    print "No acceptance criteria used "
    accept={}
    for critrec in crit_data:
        for key in critrec.keys():
            if 'sample_int_sigma_uT' in critrec.keys():
                critrec['sample_int_sigma']='%10.3e'%(eval(critrec['sample_int_sigma_uT'])*1e-6)
            if key not in accept.keys() and critrec[key]!='':
                accept[key]=critrec[key]
    #
    #
    if "-exc" not in args and "-C" not in args:
        print "args",args
        pmag.magic_write(critout,[accept],'pmag_criteria')
        print "\n Pmag Criteria stored in ",critout,'\n'
#
# now we're done slow dancing
#
    SiteNFO,file_type=pmag.magic_read(sitefile) # read in site data - has the lats and lons
    SampNFO,file_type=pmag.magic_read(sampfile) # read in site data - has the lats and lons
    height_nfo=pmag.get_dictitem(SiteNFO,'site_height','','F') # find all the sites with height info.  
    if agefile !="":AgeNFO,file_type=pmag.magic_read(agefile) # read in the age information
    Data,file_type=pmag.magic_read(infile) # read in specimen interpretations
    IntData=pmag.get_dictitem(Data,'specimen_int','','F') # retrieve specimens with intensity data
    comment,orient="",[]
    samples,sites=[],[]
    for rec in Data: # run through the data filling in missing keys and finding all components, coordinates available
# fill in missing fields, collect unique sample and site names
	if 'er_sample_name' not in rec.keys():
	    rec['er_sample_name']=""
	elif rec['er_sample_name'] not in samples:
	    samples.append(rec['er_sample_name'])
	if 'er_site_name' not in rec.keys():
	    rec['er_site_name']=""
	elif rec['er_site_name'] not in sites:
	    sites.append(rec['er_site_name'])
	if 'specimen_int' not in rec.keys():rec['specimen_int']=''
	if 'specimen_comp_name' not in rec.keys() or rec['specimen_comp_name']=="":rec['specimen_comp_name']='A'
	if rec['specimen_comp_name'] not in Comps:Comps.append(rec['specimen_comp_name'])
        rec['specimen_tilt_correction']=rec['specimen_tilt_correction'].strip('\n')
	if "specimen_tilt_correction" not in rec.keys(): rec["specimen_tilt_correction"]="-1" # assume sample coordinates
	if rec["specimen_tilt_correction"] not in orient: orient.append(rec["specimen_tilt_correction"])  # collect available coordinate systems
	if "specimen_direction_type" not in rec.keys(): rec["specimen_direction_type"]='l'  # assume direction is line - not plane
	if "specimen_dec" not in rec.keys(): rec["specimen_direction_type"]=''  # if no declination, set direction type to blank
	if "specimen_n" not in rec.keys(): rec["specimen_n"]=''  # put in n
	if "specimen_alpha95" not in rec.keys(): rec["specimen_alpha95"]=''  # put in alpha95 
	if "magic_method_codes" not in rec.keys(): rec["magic_method_codes"]=''
     #
     # start parsing data into SpecDirs, SpecPlanes, SpecInts 
    SpecInts,SpecDirs,SpecPlanes=[],[],[]
    samples.sort() # get sorted list of samples and sites
    sites.sort()
    if noInt==0: # don't skip intensities
	IntData=pmag.get_dictitem(Data,'specimen_int','','F') # retrieve specimens with intensity data
	if nocrit==0: # use selection criteria
	    for rec in IntData: # do selection criteria
		kill=pmag.grade(rec,accept,'specimen_int')
		if len(kill)==0: SpecInts.append(rec) # intensity record to be included in sample, site calculations
	else:
	    SpecInts=IntData[:] # take everything - no selection criteria
# check for required data adjustments
        if len(corrections)>0 and len(SpecInts)>0:
            for cor in corrections:
                SpecInts=pmag.get_dictitem(SpecInts,'magic_method_codes',cor,'has') # only take specimens with the required corrections
        if len(nocorrection)>0 and len(SpecInts)>0:
            for cor in nocorrection:
                SpecInts=pmag.get_dictitem(SpecInts,'magic_method_codes',cor,'not') # exclude the corrections not specified for inclusion
# take top priority specimen of its name in remaining specimens (only one per customer)
        PrioritySpecInts=[]
        specimens=pmag.get_specs(SpecInts) # get list of uniq specimen names
        for spec in specimens:
            ThisSpecRecs=pmag.get_dictitem(SpecInts,'er_specimen_name',spec,'T') # all the records for this specimen
            if len(ThisSpecRecs)==1:
                PrioritySpecInts.append(ThisSpecRecs[0])
            elif len(ThisSpecRecs)>1: # more than one
                prec=[]
                for p in priorities:
                    ThisSpecRecs=pmag.get_dictitem(SpecInts,'magic_method_codes',p,'has') # all the records for this specimen
                    if len(ThisSpecRecs)>0:prec.append(ThisSpecRecs[0])
                PrioritySpecInts.append(prec[0]) # take the best one
        SpecInts=PrioritySpecInts # this has the first specimen record 
    if noDir==0: # don't skip directions
	AllDirs=pmag.get_dictitem(Data,'specimen_direction_type','','F') # retrieve specimens with directed lines and planes
	Ns=pmag.get_dictitem(AllDirs,'specimen_n','','F')  # get all specimens with specimen_n information 
	if nocrit!=1: # use selection criteria
	    for rec in Ns: # look through everything with specimen_n for "good" data
                kill=pmag.grade(rec,accept,'specimen_dir')
                if len(kill)==0: # nothing killed it
			SpecDirs.append(rec)
	else: # no criteria
	    SpecDirs=AllDirs[:] # take them all
# SpecDirs is now the list of all specimen directions (lines and planes) that pass muster
#
    PmagSamps,SampDirs=[],[] # list of all sample data and list of those that pass the DE-SAMP criteria
    PmagSites,PmagResults=[],[] # list of all site data and selected results
    SampInts=[]
    for samp in samples: # run through the sample names
	if Daverage==1: #  average by sample if desired
	   SampDir=pmag.get_dictitem(SpecDirs,'er_sample_name',samp,'T') # get all the directional data for this sample
	   if len(SampDir)>0: # there are some directions
	       for coord in coords: # step through desired coordinate systems
		   CoordDir=pmag.get_dictitem(SampDir,'specimen_tilt_correction',coord,'T') # get all the directions for this sample
		   if len(CoordDir)>0: # there are some with this coordinate system
		       if Caverage==0: # look component by component
			   for comp in Comps:
			       CompDir=pmag.get_dictitem(CoordDir,'specimen_comp_name',comp,'T') # get all directions from this component
			       if len(CompDir)>0: # there are some
				   PmagSampRec=pmag.lnpbykey(CompDir,'sample','specimen') # get a sample average from all specimens
				   PmagSampRec["er_location_name"]=CompDir[0]['er_location_name'] # decorate the sample record
				   PmagSampRec["er_site_name"]=CompDir[0]['er_site_name']
				   PmagSampRec["er_sample_name"]=samp
				   PmagSampRec["er_citation_names"]="This study"
				   PmagSampRec["er_analyst_mail_names"]=user
				   PmagSampRec['magic_software_packages']=version_num
				   if nocrit!=1:PmagSampRec['pmag_criteria_codes']="ACCEPT"
				   if agefile != "": PmagSampRec= pmag.get_age(PmagSampRec,"er_site_name","sample_inferred_",AgeNFO,DefaultAge)
				   site_height=pmag.get_dictitem(height_nfo,'er_site_name',PmagSampRec['er_site_name'],'T')
				   if len(site_height)>0:PmagSampRec["sample_height"]=site_height[0]['site_height'] # add in height if available
				   PmagSampRec['sample_comp_name']=comp
				   PmagSampRec['sample_tilt_correction']=coord
				   PmagSampRec['er_specimen_names']= pmag.get_list(CompDir,'er_specimen_name') # get a list of the specimen names used
				   PmagSampRec['magic_method_codes']= pmag.get_list(CompDir,'magic_method_codes') # get a list of the methods used
				   if nocrit!=1: # apply selection criteria
                                       kill=pmag.grade(PmagSampRec,accept,'sample_dir')
                                   else:
                                       kill=[]
				   if len(kill)==0:
					SampDirs.append(PmagSampRec)
					if vgps==1: # if sample level VGP info desired, do that now
					    PmagResRec=pmag.getsampVGP(PmagSampRec,SiteNFO)
					    if PmagResRec!="":PmagResults.append(PmagResRec)
                                        PmagSamps.append(PmagSampRec)
		       if Caverage==1: # average all components together  basically same as above
			   PmagSampRec=pmag.lnpbykey(CoordDir,'sample','specimen')
			   PmagSampRec["er_location_name"]=CoordDir[0]['er_location_name']
			   PmagSampRec["er_site_name"]=CoordDir[0]['er_site_name']
			   PmagSampRec["er_sample_name"]=samp
			   PmagSampRec["er_citation_names"]="This study"
			   PmagSampRec["er_analyst_mail_names"]=user
			   PmagSampRec['magic_software_packages']=version_num
			   if nocrit!=1:PmagSampRec['pmag_criteria_codes']=""
			   if agefile != "": PmagSampRec= pmag.get_age(PmagSampRec,"er_site_name","sample_inferred_",AgeNFO,DefaultAge)
			   site_height=pmag.get_dictitem(height_nfo,'er_site_name',site,'T')
			   if len(site_height)>0:PmagSampRec["sample_height"]=site_height[0]['site_height'] # add in height if available
			   PmagSampRec['sample_tilt_correction']=coord
			   PmagSampRec['sample_comp_name']= pmag.get_list(CoordDir,'specimen_comp_name') # get components used
			   PmagSampRec['er_specimen_names']= pmag.get_list(CoordDir,'er_specimen_name') # get specimne names averaged
			   PmagSampRec['magic_method_codes']= pmag.get_list(CoordDir,'magic_method_codes') # assemble method codes
			   if nocrit!=1: # apply selection criteria
                               kill=pmag.grade(PmagSampRec,accept,'sample_dir')
			       if len(kill)==0: # passes the mustard
				   SampDirs.append(PmagSampRec)
				   if vgps==1:
				       PmagResRec=pmag.getsampVGP(PmagSampRec,SiteNFO)
				       if PmagResRec!="":PmagResults.append(PmagResRec)
			   else: # take everything
			       SampDirs.append(PmagSampRec)
			       if vgps==1:
				   PmagResRec=pmag.getsampVGP(PmagSampRec,SiteNFO)
				   if PmagResRec!="":PmagResults.append(PmagResRec)
			   PmagSamps.append(PmagSampRec)
	if Iaverage==1: #  average by sample if desired
	   SampI=pmag.get_dictitem(SpecInts,'er_sample_name',samp,'T') # get all the intensity data for this sample
	   if len(SampI)>0: # there are some
	       PmagSampRec=pmag.average_int(SampI,'specimen','sample') # get average intensity stuff
	       PmagSampRec["sample_description"]="sample intensity" # decorate sample record
	       PmagSampRec["sample_direction_type"]=""
	       PmagSampRec['er_site_name']=SampI[0]["er_site_name"]
	       PmagSampRec['er_sample_name']=samp
	       PmagSampRec['er_location_name']=SampI[0]["er_location_name"]
	       PmagSampRec["er_citation_names"]="This study"
	       PmagSampRec["er_analyst_mail_names"]=user
	       if agefile != "":   PmagSampRec=pmag.get_age(PmagSampRec,"er_site_name","sample_inferred_", AgeNFO,DefaultAge)
	       site_height=pmag.get_dictitem(height_nfo,'er_site_name',PmagSampRec['er_site_name'],'T')
	       if len(site_height)>0:PmagSampRec["sample_height"]=site_height[0]['site_height'] # add in height if available
	       PmagSampRec['er_specimen_names']= pmag.get_list(SampI,'er_specimen_name')
	       PmagSampRec['magic_method_codes']= pmag.get_list(SampI,'magic_method_codes')
	       if nocrit!=1:  # apply criteria!
                   kill=pmag.grade(PmagSampRec,accept,'sample_int')
                   if len(kill)==0:
                       PmagSampRec['pmag_criteria_codes']="ACCEPT"
	               SampInts.append(PmagSampRec)
	               PmagSamps.append(PmagSampRec)
                   else:PmagSampRec={} # sample rejected
               else: # no criteria
	           SampInts.append(PmagSampRec)
	           PmagSamps.append(PmagSampRec)
                   PmagSampRec['pmag_criteria_codes']=""
	       if vgps==1 and get_model_lat!=0 and PmagSampRec!={}: #
		  if get_model_lat==1: # use sample latitude
		      PmagResRec=pmag.getsampVDM(PmagSampRec,SampNFO)
                      del(PmagResRec['model_lat']) # get rid of the model lat key
		  elif get_model_lat==2: # use model latitude
		      PmagResRec=pmag.getsampVDM(PmagSampRec,ModelLats)
		      if PmagResRec!={}:PmagResRec['magic_method_codes']=PmagResRec['magic_method_codes']+":IE-MLAT"
		  if PmagResRec!={}:
                      PmagResRec['er_specimen_names']=PmagSampRec['er_specimen_names']
                      PmagResRec['er_sample_names']=PmagSampRec['er_sample_name']
                      PmagResRec['pmag_criteria_codes']='ACCEPT'
                      PmagResRec['average_int_sigma_perc']=PmagSampRec['sample_int_sigma_perc']
                      PmagResRec['average_int_sigma']=PmagSampRec['sample_int_sigma']
                      PmagResRec['average_int_n']=PmagSampRec['sample_int_n']
                      PmagResRec['vadm_n']=PmagSampRec['sample_int_n']
                      PmagResRec['data_type']='i'
                      PmagResults.append(PmagResRec)
    if len(PmagSamps)>0:
	TmpSamps,keylist=pmag.fillkeys(PmagSamps) # fill in missing keys from different types of records       
	pmag.magic_write(sampout,TmpSamps,'pmag_samples') # save in sample output file
	print ' sample averages written to ',sampout
   
#
#create site averages from specimens or samples as specified
#
    for site in sites:
	if Daverage==0: key,dirlist='specimen',SpecDirs # if specimen averages at site level desired
	if Daverage==1: key,dirlist='sample',SampDirs # if sample averages at site level desired
	tmp=pmag.get_dictitem(dirlist,'er_site_name',site,'T') # get all the sites with  directions
	tmp1=pmag.get_dictitem(tmp,key+'_tilt_correction',coords[-1],'T') # use only the last coordinate if Caverage==0
	sd=pmag.get_dictitem(SiteNFO,'er_site_name',site,'T') # fish out site information (lat/lon, etc.)
	if len(sd)>0:
            sitedat=sd[0]
	    if Caverage==0: # do component wise averaging
		for comp in Comps:
		    siteD=pmag.get_dictitem(tmp1,key+'_comp_name',comp,'T') # get all components comp
		    if len(siteD)>0: # there are some for this site and component name
			PmagSiteRec=pmag.lnpbykey(siteD,'site',key) # get an average for this site
			PmagSiteRec['site_comp_name']=comp # decorate the site record
			PmagSiteRec["er_location_name"]=siteD[0]['er_location_name']
			PmagSiteRec["er_site_name"]=siteD[0]['er_site_name']
			PmagSiteRec['site_tilt_correction']=coords[-1]
			PmagSiteRec['site_comp_name']= pmag.get_list(siteD,key+'_comp_name')
                        if Daverage==1:
			    PmagSiteRec['er_sample_names']= pmag.get_list(siteD,'er_sample_name')
                        else:
			    PmagSiteRec['er_specimen_names']= pmag.get_list(siteD,'er_specimen_name')
# determine the demagnetization code (DC3,4 or 5) for this site
			AFnum=len(pmag.get_dictitem(siteD,'magic_method_codes','LP-DIR-AF','has'))
			Tnum=len(pmag.get_dictitem(siteD,'magic_method_codes','LP-DIR-T','has'))
			DC=3
			if AFnum>0:DC+=1
			if Tnum>0:DC+=1
			PmagSiteRec['magic_method_codes']= pmag.get_list(siteD,'magic_method_codes')+':'+ 'LP-DC'+str(DC)
			PmagSiteRec['magic_method_codes'].strip(":")
			if plotsites==1:
                            print PmagSiteRec['er_site_name']
                            pmagplotlib.plotSITE(EQ['eqarea'],PmagSiteRec,siteD,key) # plot and list the data
                            pmagplotlib.drawFIGS(EQ)
			PmagSites.append(PmagSiteRec) 
	    else: # last component only
	        siteD=tmp1[:] # get the last orientation system specified
	        if len(siteD)>0: # there are some
	            PmagSiteRec=pmag.lnpbykey(siteD,'site',key) # get the average for this site 
	            PmagSiteRec["er_location_name"]=siteD[0]['er_location_name'] # decorate the record
    		    PmagSiteRec["er_site_name"]=siteD[0]['er_site_name']
		    PmagSiteRec['site_comp_name']=comp
		    PmagSiteRec['site_tilt_correction']=coords[-1]
		    PmagSiteRec['site_comp_name']= pmag.get_list(siteD,key+'_comp_name')
		    PmagSiteRec['er_specimen_names']= pmag.get_list(siteD,'er_specimen_name')
		    PmagSiteRec['er_sample_names']= pmag.get_list(siteD,'er_sample_name')
    		    AFnum=len(pmag.get_dictitem(siteD,'magic_method_codes','LP-DIR-AF','has'))
    	    	    Tnum=len(pmag.get_dictitem(siteD,'magic_method_codes','LP-DIR-T','has'))
	    	    DC=3
		    if AFnum>0:DC+=1
		    if Tnum>0:DC+=1
		    PmagSiteRec['magic_method_codes']= pmag.get_list(siteD,'magic_method_codes')+':'+ 'LP-DC'+str(DC)
		    PmagSiteRec['magic_method_codes'].strip(":")
		    if Daverage==0:PmagSiteRec['site_comp_name']= pmag.get_list(siteD,key+'_comp_name')
	    	    if plotsites==1:
                        pmagplotlib.plotSITE(EQ['eqarea'],PmagSiteRec,siteD,key)
                        pmagplotlib.drawFIGS(EQ)
		    PmagSites.append(PmagSiteRec)
        else:
            print 'site information not found in er_sites for site, ',site,' site will be skipped'
    for PmagSiteRec in PmagSites: # now decorate each dictionary some more, and calculate VGPs etc. for results table
	PmagSiteRec["er_citation_names"]="This study"
	PmagSiteRec["er_analyst_mail_names"]=user
	PmagSiteRec['magic_software_packages']=version_num
	if agefile != "": PmagSiteRec= pmag.get_age(PmagSiteRec,"er_site_name","site_inferred_",AgeNFO,DefaultAge)
	PmagSiteRec['pmag_criteria_codes']='ACCEPT'
	if 'site_n_lines' in PmagSiteRec.keys() and 'site_n_planes' in PmagSiteRec.keys() and PmagSiteRec['site_n_lines']!="" and PmagSiteRec['site_n_planes']!="":
	    if int(PmagSiteRec["site_n_planes"])>0:
		PmagSiteRec["magic_method_codes"]=PmagSiteRec['magic_method_codes']+":DE-FM-LP"
	    elif int(PmagSiteRec["site_n_lines"])>2:
		PmagSiteRec["magic_method_codes"]=PmagSiteRec['magic_method_codes']+":DE-FM"
	    kill=pmag.grade(PmagSiteRec,accept,'site_dir')
            if len(kill)==0: 
		PmagResRec={} # set up dictionary for the pmag_results table entry
		PmagResRec['data_type']='i' # decorate it a bit
		PmagResRec['magic_software_packages']=version_num
		PmagSiteRec['site_description']='Site direction included in results table' 
		PmagResRec['pmag_criteria_codes']='ACCEPT'
		dec=float(PmagSiteRec["site_dec"])
		inc=float(PmagSiteRec["site_inc"])
                if 'site_alpha95' in PmagSiteRec.keys() and PmagSiteRec['site_alpha95']!="": 
		    a95=float(PmagSiteRec["site_alpha95"])
                else:a95=180.
	        sitedat=pmag.get_dictitem(SiteNFO,'er_site_name',PmagSiteRec['er_site_name'],'T')[0] # fish out site information (lat/lon, etc.)
		lat=float(sitedat['site_lat'])
		lon=float(sitedat['site_lon'])
		plong,plat,dp,dm=pmag.dia_vgp(dec,inc,a95,lat,lon) # get the VGP for this site
		if PmagSiteRec['site_tilt_correction']=='-1':C=' (spec coord) '
		if PmagSiteRec['site_tilt_correction']=='0':C=' (geog. coord) '
		if PmagSiteRec['site_tilt_correction']=='100':C=' (strat. coord) '
		PmagResRec["pmag_result_name"]="VGP Site: "+PmagSiteRec["er_site_name"] # decorate some more
		PmagResRec["result_description"]="Site VGP, coord system = "+str(coord)+' component: '+comp
		PmagResRec['er_site_names']=PmagSiteRec['er_site_name']
		PmagResRec['pmag_criteria_codes']='ACCEPT'
		PmagResRec['er_citation_names']='This study'
		PmagResRec['er_analyst_mail_names']=user
		PmagResRec["er_location_names"]=PmagSiteRec["er_location_name"]
                if Daverage==1:
		    PmagResRec["er_sample_names"]=PmagSiteRec["er_sample_names"]
                else:
		    PmagResRec["er_specimen_names"]=PmagSiteRec["er_specimen_names"]
		PmagResRec["tilt_correction"]=PmagSiteRec['site_tilt_correction']
		PmagResRec["pole_comp_name"]=PmagSiteRec['site_comp_name']
		PmagResRec["average_dec"]=PmagSiteRec["site_dec"]
		PmagResRec["average_inc"]=PmagSiteRec["site_inc"]
		PmagResRec["average_alpha95"]=PmagSiteRec["site_alpha95"]
		PmagResRec["average_n"]=PmagSiteRec["site_n"]
		PmagResRec["average_n_lines"]=PmagSiteRec["site_n_lines"]
		PmagResRec["average_n_planes"]=PmagSiteRec["site_n_planes"]            
		PmagResRec["vgp_n"]=PmagSiteRec["site_n"]
		PmagResRec["average_k"]=PmagSiteRec["site_k"]
		PmagResRec["average_r"]=PmagSiteRec["site_r"]
		PmagResRec["average_lat"]='%10.4f ' %(lat)
		PmagResRec["average_lon"]='%10.4f ' %(lon)
		if agefile != "": PmagResRec= pmag.get_age(PmagResRec,"er_site_names","average_",AgeNFO,DefaultAge)
		site_height=pmag.get_dictitem(height_nfo,'er_site_name',site,'T')
		if len(site_height)>0:PmagResRec["average_height"]=site_height[0]['site_height']
		PmagResRec["vgp_lat"]='%7.1f ' % (plat)
		PmagResRec["vgp_lon"]='%7.1f ' % (plong)
		PmagResRec["vgp_dp"]='%7.1f ' % (dp)
		PmagResRec["vgp_dm"]='%7.1f ' % (dm)
		PmagResRec["magic_method_codes"]= PmagSiteRec["magic_method_codes"]
		if PmagSiteRec['site_tilt_correction']=='0':PmagSiteRec['magic_method_codes']=PmagSiteRec['magic_method_codes']+":DA-DIR-GEO"
                if PmagSiteRec['site_tilt_correction']=='100':PmagSiteRec['magic_method_codes']=PmagSiteRec['magic_method_codes']+":DA-DIR-TILT"
                PmagSiteRec['site_polarity']=""
                if polarity==1: # assign polarity based on angle of pole lat to spin axis - may want to re-think this sometime
                      angle=pmag.angle([0,0],[0,(90-plat)])
                      if angle <= 55.: PmagSiteRec["site_polarity"]='n'
                      if angle > 55. and angle < 125.: PmagSiteRec["site_polarity"]='t'
                      if angle >= 125.: PmagSiteRec["site_polarity"]='r'
                PmagResults.append(PmagResRec)
    if noInt!=1 and nositeints!=1:
      for site in sites: # now do intensities for each site
        if plotsites==1:print site
        if Iaverage==0: key,intlist='specimen',SpecInts # if using specimen level data
        if Iaverage==1: key,intlist='sample',PmagSamps # if using sample level data
        Ints=pmag.get_dictitem(intlist,'er_site_name',site,'T') # get all the intensities  for this site
        if len(Ints)>0: # there are some
            PmagSiteRec=pmag.average_int(Ints,key,'site') # get average intensity stuff for site table
            PmagResRec=pmag.average_int(Ints,key,'average') # get average intensity stuff for results table
            if plotsites==1: # if site by site examination requested - print this site out to the screen
                for rec in Ints:print rec['er_'+key+'_name'],' %7.1f'%(1e6*float(rec[key+'_int']))
                if len(Ints)>1:
                    print 'Average: ','%7.1f'%(1e6*float(PmagResRec['average_int'])),'N: ',len(Ints)
                    print 'Sigma: ','%7.1f'%(1e6*float(PmagResRec['average_int_sigma'])),'Sigma %: ',PmagResRec['average_int_sigma_perc']
                raw_input('Press any key to continue\n')
            er_location_name=Ints[0]["er_location_name"] 
            PmagSiteRec["er_location_name"]=er_location_name # decorate the records
            PmagSiteRec["er_citation_names"]="This study"
            PmagResRec["er_location_names"]=er_location_name
            PmagResRec["er_citation_names"]="This study"
            PmagSiteRec["er_analyst_mail_names"]=user
            PmagResRec["er_analyst_mail_names"]=user
            PmagResRec["data_type"]='i'
            if Iaverage==0:
                PmagSiteRec['er_specimen_names']= pmag.get_list(Ints,'er_specimen_name') # list of all specimens used
                PmagResRec['er_specimen_names']= pmag.get_list(Ints,'er_specimen_name')
            PmagSiteRec['er_sample_names']= pmag.get_list(Ints,'er_sample_name') # list of all samples used
            PmagResRec['er_sample_names']= pmag.get_list(Ints,'er_sample_name')
            PmagSiteRec['er_site_name']= site
            PmagResRec['er_site_names']= site
            PmagSiteRec['magic_method_codes']= pmag.get_list(Ints,'magic_method_codes')
            PmagResRec['magic_method_codes']= pmag.get_list(Ints,'magic_method_codes')
            kill=pmag.grade(PmagSiteRec,accept,'site_int')
            if nocrit==1 or len(kill)==0:
                b,sig=float(PmagResRec['average_int']),""
                if(PmagResRec['average_int_sigma'])!="":sig=float(PmagResRec['average_int_sigma'])
                sdir=pmag.get_dictitem(PmagResults,'er_site_names',site,'T') # fish out site direction
                if len(sdir)>0 and  sdir[-1]['average_inc']!="": # get the VDM for this record using last average inclination (hope it is the right one!)
                        inc=float(sdir[0]['average_inc']) # 
                        mlat=pmag.magnetic_lat(inc) # get magnetic latitude using dipole formula
                        PmagResRec["vdm"]='%8.3e '% (pmag.b_vdm(b,mlat)) # get VDM with magnetic latitude
                        PmagResRec["vdm_n"]=PmagResRec['average_int_n']
                        if 'average_int_sigma' in PmagResRec.keys() and PmagResRec['average_int_sigma']!="":
                            vdm_sig=pmag.b_vdm(float(PmagResRec['average_int_sigma']),mlat)
                            PmagResRec["vdm_sigma"]='%8.3e '% (vdm_sig)
                        else:
                            PmagResRec["vdm_sigma"]=""
                mlat="" # define a model latitude
                if get_model_lat==1: # use present site latitude
                    mlats=pmag.get_dictitem(SiteNFO,'er_site_name',site,'T')
                    if len(mlats)>0: mlat=mlats[0]['site_lat']
                elif get_model_lat==2: # use a model latitude from some plate reconstruction model (or something)
                    mlats=pmag.get_dictitem(ModelLats,'er_site_name',site,'T')
                    if len(mlats)>0: PmagResRec['model_lat']=mlats[0]['site_model_lat']
                    mlat=PmagResRec['model_lat']
                if mlat!="":
                    PmagResRec["vadm"]='%8.3e '% (pmag.b_vdm(b,float(mlat))) # get the VADM using the desired latitude
                    if sig!="":
                        vdm_sig=pmag.b_vdm(float(PmagResRec['average_int_sigma']),float(mlat))
                        PmagResRec["vadm_sigma"]='%8.3e '% (vdm_sig)
                        PmagResRec["vadm_n"]=PmagResRec['average_int_n']
                    else:
                        PmagResRec["vadm_sigma"]=""
	        sitedat=pmag.get_dictitem(SiteNFO,'er_site_name',PmagSiteRec['er_site_name'],'T') # fish out site information (lat/lon, etc.)
                if len(sitedat)>0:
                    sitedat=sitedat[0]
                    PmagResRec['average_lat']=sitedat['site_lat']
                    PmagResRec['average_lon']=sitedat['site_lon']
                else:
                    PmagResRec['average_lon']='UNKNOWN'
                    PmagResRec['average_lon']='UNKNOWN'
                PmagResRec['magic_software_packages']=version_num
                PmagResRec["pmag_result_name"]="V[A]DM: Site "+site
                PmagResRec["result_description"]="V[A]DM of site"
                PmagResRec["pmag_criteria_codes"]="ACCEPT"
                if agefile != "": PmagResRec= pmag.get_age(PmagResRec,"er_site_names","average_",AgeNFO,DefaultAge)
                site_height=pmag.get_dictitem(height_nfo,'er_site_name',site,'T')
                if len(site_height)>0:PmagResRec["average_height"]=site_height[0]['site_height']
                PmagSites.append(PmagSiteRec)
                PmagResults.append(PmagResRec)
    if len(PmagSites)>0:
        Tmp,keylist=pmag.fillkeys(PmagSites)         
        pmag.magic_write(siteout,Tmp,'pmag_sites')
        print ' sites written to ',siteout
    else: print "No Site level table"
    if len(PmagResults)>0:
        TmpRes,keylist=pmag.fillkeys(PmagResults)         
        pmag.magic_write(resout,TmpRes,'pmag_results')
        print ' results written to ',resout
    else: print "No Results level table"
Пример #5
0
def main():
    """
    NAME
        pick_AC_specimens.py
    
    DESCRIPTION
        finds whether anisotropy correction yeilds more tightly 
        grouped intensities  than uncorrected data. 
        picks either all corrected or all uncorrected data and 
        puts in pmag_specimen format file
    
    SYNTAX
        pick_AC_specimens.py [command line options]

    OPTIONS
        -h prints help message and quits
        -fu TFILE uncorrected pmag_specimen format file with thellier interpretations
            created by thellier_magic_redo.py
        -fc AFILE anisotropy corrected pmag_specimen format file
            created by thellier_magic_redo.py
        -fcr CRIT pmag_criteria.txt format file with acceptance criteria
        -opt SIG use the optimizer_thelpars.txt file for criteria
        -F FILE pmag_specimens format output file with "best" set of data

    DEFAULTS
        TFILE: thellier_specimens.txt
        AFILE: AC_specimens.txt
        FILE: TorAC_specimens.txt
    """
    tspec="thellier_specimens.txt"
    aspec="AC_specimens.txt"
    ofile="TorAC_specimens.txt"
    critfile="pmag_criteria.txt"
    dir_path='.'
    ACSamplist,Samplist,sigmin=[],[],10000
    GoodSamps,SpecOuts=[],[]
# get arguments from command line
    if '-h' in sys.argv:
        print main.__doc__
        sys.exit()
    if '-WD' in sys.argv:
        ind=sys.argv.index('-WD')
        dir_path=sys.argv[ind+1]
    if '-fu' in sys.argv:
        ind=sys.argv.index('-fu')
        tspec=sys.argv[ind+1]
    if '-fc' in sys.argv:
        ind=sys.argv.index('-fc')
        aspec=sys.argv[ind+1]
    if '-fcr' in sys.argv:
        ind=sys.argv.index('-fcr')
        critfile=sys.argv[ind+1]
    if '-opt' in sys.argv:
        ind=sys.argv.index('-opt')
        critfile='optimum_thelpars.txt'
        sigcutoff=sys.argv[ind+1]
    if '-F' in sys.argv:
        ind=sys.argv.index('-F')
        ofile=sys.argv[ind+1]
    if '-i' in sys.argv:
        file=raw_input(" thellier_specimnens.txt file [thellier_specimens.txt]: ")
        if file!="":tfile=file 
        file=raw_input(" AC_specimnens.txt file [AC_specimens.txt]: ")
        if file!="":afile=file 
        file=raw_input(" pmag_specimnens.txt file [pmag_specimens.txt]: ")
        if file!="":ofile=file 
    # read in pmag_specimens file
    tspec=dir_path+'/'+tspec
    aspec=dir_path+'/'+aspec
    ofile=dir_path+'/'+ofile
    critfile=dir_path+'/'+critfile
    Specs,file_type=pmag.magic_read(tspec)
    Speclist=pmag.get_specs(Specs)
    ACSpecs,file_type=pmag.magic_read(aspec)
    ACspeclist=pmag.get_specs(ACSpecs)
    Crits,file_type=pmag.magic_read(critfile)
    keys=['specimen_int_mad','specimen_drats','specimen_fvds','specimen_b_beta','specimen_Z','specimen_md','specimen_dang']
    accept={}
    for crit in Crits:
        if critfile!='optimum_thelpars.txt':
            if crit['pmag_criteria_code']=='IE-SPEC':
                for key in keys: accept[key]=float(crit[key]) # assign acceptance criteria
                break
        else:
            if float(crit['sample_int_sigma_perc'])==float(sigcutoff):
                for key in keys: accept[key]=float(crit[key])
    print len(accept)
    for spec in Specs:
        grade,kill=pmag.grade(spec,accept)
        if grade==len(accept): 
            if spec["er_sample_name"] not in Samplist:Samplist.append(spec["er_sample_name"])
    for spec in ACSpecs:
        grade,kill=pmag.grade(spec,accept)
        if grade==len(accept): 
            if spec["er_sample_name"] not in ACSamplist:ACSamplist.append(spec["er_sample_name"])
    #
    for samp in Samplist:
        print samp
        useAC,Ints,ACInts,GoodSpecs,AC,UC,ALL,ALLInts=0,[],[],[],[],[],[],[]
        sample_int_sigma_perc=""
        for spec in Specs:
            ThisAC=[]
            if spec["er_sample_name"]==samp:
                grade,kill=pmag.grade(spec,accept)
                if grade==len(accept): 
                    UC.append(spec)
                    print 'UC: ',spec["er_specimen_name"],'%i'%(1e6*float(spec["specimen_int"]))
                    Ints.append(float(spec["specimen_int"]))
        if samp in ACSamplist:
            for spec in ACSpecs:
                if spec["er_sample_name"]==samp:
                    grade,kill=pmag.grade(spec,accept)
                    if grade==len(accept): 
                        AC.append(spec)
                        print 'AC: ',spec["er_specimen_name"],'%i'%(1e6*float(spec["specimen_int"]))
                        ACInts.append(float(spec["specimen_int"]))
                        ThisAC.append(spec["er_specimen_name"]) 
                        ALLInts.append(float(spec["specimen_int"]))
                        ALL.append(spec)
        for spec in UC:
            if spec['er_specimen_name'] not in ThisAC:
                ALLInts.append(float(spec["specimen_int"]))
                ALL.append(spec)
        if len(AC)>2:
            allx,allstd=pmag.gausspars(ALLInts)
            ix,istd=pmag.gausspars(Ints)
            ax,astd=pmag.gausspars(ACInts)
            print "Nall= ",len(ALLInts),allx,allstd,"Ni= ",len(Ints),ix,istd,"Na= ",len(ACInts),ax,astd
            if astd<istd: 
                if astd<allstd:
                    for spec in AC: SpecOuts.append(spec)
                    print 'using AC'
                else:
                    for spec in ALL: 
                        SpecOuts.append(spec)
                        print spec['er_specimen_name'],spec['magic_method_codes'],spec['specimen_int']
                    print 'using ALL'
            else:
                if istd<allstd: 
                    for spec in UC: SpecOuts.append(spec)
                    print 'using UC'
                else:
                    for spec in ALL: 
                        SpecOuts.append(spec)
                        print spec['er_specimen_name'],spec['magic_method_codes'],spec['specimen_int']
                    print 'using ALL'
        else:
            for spec in UC: SpecOuts.append(spec)
            print 'No AC, using UC'
        raw_input()
    pmag.magic_write(SpecOuts,ofile,'pmag_specimens')
    print 'thellier data assessed for AC correction put in ', ofile 
Пример #6
0
def main():
    """
    NAME
        compare_specimens.py
    
    DESCRIPTION
        finds  anisotropy corrected data and 
        compares with uncorrected. 
    
    SYNTAX
        compare_specimens.py [-h][-i][-t TSPEC][-a ACSPEC]

    OPTIONS
        -h prints help message and quits
        -i allows interactive setting of file names
        -fu TFILE uncorrected pmag_specimen format file with thellier interpretations
            created by thellier_magic_redo.py
        -fc AFILE anisotropy corrected pmag_specimen format file
            created by thellier_magic_redo.py
        -fcr CRIT pmag_criteria.txt format file with acceptance criteria
    DEFAULTS
        TFILE: thellier_specimens.txt
        AFILE: AC_specimens.txt
        CRIT: no  grade
    """
    tspec="thellier_specimens.txt"
    aspec="AC_specimens.txt"
    critfile=""
    ACSamplist,Samplist,sigmin=[],[],10000
    GoodSamps,SpecOuts=[],[]
# get arguments from command line
    if '-h' in sys.argv:
        print main.__doc__
        sys.exit()
    if '-fu' in sys.argv:
        ind=sys.argv.index('-fu')
        tspec=sys.argv[ind+1]
    if '-fc' in sys.argv:
        ind=sys.argv.index('-fc')
        aspec=sys.argv[ind+1]
    if '-fcr' in sys.argv:
        ind=sys.argv.index('-fcr')
        critfile=sys.argv[ind+1]
    # read in pmag_specimens file
    Specs,file_type=pmag.magic_read(tspec)
    Speclist=pmag.get_specs(Specs)
    ACSpecs,file_type=pmag.magic_read(aspec)
    print len(Speclist),' uncorrected data read in from ',tspec
    print len(ACSpecs),' anisotropy corrected data read in from ',aspec
    keys=['specimen_int_mad','specimen_drats','specimen_fvds','specimen_b_beta','specimen_Z','specimen_md','specimen_dang']
    if critfile!="":
        accept={}
        Crits,file_type=pmag.magic_read(critfile)
        for crit in Crits:
            if critfile!='optimum_thelpars.txt':
                if crit['pmag_criteria_code']=='IE-SPEC':
                    for key in keys: accept[key]=float(crit[key]) # assign acceptance criteria
                    break
            else:
                if float(crit['sample_int_sigma_perc'])==float(sigcutoff):
                    for key in keys: accept[key]=float(crit[key])
    else:
        Crits=""
    ACspeclist=pmag.get_specs(ACSpecs)
    for spec in Specs:
            if spec["er_sample_name"] not in Samplist:Samplist.append(spec["er_sample_name"])
    for spec in ACSpecs:
            if spec["er_sample_name"] not in ACSamplist:ACSamplist.append(spec["er_sample_name"])
    #
    for samp in Samplist:
        useAC,Ints,ACInts,GoodSpecs,AC,UC=0,[],[],[],[],[]
        for spec in Specs:
            if spec["er_sample_name"]==samp:
                    if critfile!="":
                        grade,kill=pmag.grade(spec,accept)
                        if grade==len(accept):grade='A'
                        if grade<=len(accept)-1:grade='B'
                        if grade<=len(accept)-2:grade='C'
                        if grade<=len(accept)-3:grade='F'
                    else:
                        grade=""
                    print 'UC: ',spec['er_specimen_name'],'%7.1f'%(1e6*float(spec['specimen_int'])),grade
                    if samp in ACSamplist:
                        for aspec in ACSpecs:
                            if aspec["er_specimen_name"]==spec['er_specimen_name']:
                                if critfile!="":
                                    grade,kill=pmag.grade(aspec,accept)
                                    if grade==len(accept):grade='A'
                                    if grade<=len(accept)-1:grade='B'
                                    if grade<=len(accept)-2:grade='C'
                                    if grade<=len(accept)-3:grade='F'
                                else:
                                    grade=""
                                print '  AC: ',aspec['er_specimen_name'],'%7.1f'%(1e6*float(aspec['specimen_int'])),grade
                                break
        raw_input('<return> to continue\n')