Esempio n. 1
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def delmod(vis=None,otf=None,field=None,scr=None):

        casalog.origin('delmod')

        # Do the trivial parallelization
        if ParallelTaskHelper.isParallelMS(vis):
                helper = ParallelTaskHelper('delmod', locals())
                helper.go()
                return


	#Python script
	try:

		# only if vis exists...
		if ((type(vis)==str) & (os.path.exists(vis))):
			# ... and we are asked to do something...
			# open without adding anything!
			cb.open(vis,addcorr=False,addmodel=False)
			cb.delmod(otf=otf,field=field,scr=scr)
			cb.close()
		else:
                        raise Exception, 'Visibility data set not found - please verify the name'

        	#write history
        	ms.open(vis,nomodify=False)
        	ms.writehistory(message='taskname = delmod',origin='delmod')
        	ms.writehistory(message='vis         = "'+str(vis)+'"',origin='delmod')
		ms.writehistory(message='otf         = "'+str(otf)+'"',origin='delmod')
		ms.writehistory(message='scr         = "'+str(scr)+'"',origin='delmod')
		ms.close()

	except Exception, instance:
		print '*** Error ***',instance
Esempio n. 2
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def clearcal(
    vis=None,
    field=None,
    spw=None,
    intent=None,
    addmodel=None,
):

    casalog.origin('clearcal')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('clearcal', locals())
        helper.go()
        return

    # Local versions of the tools
    tblocal = tbtool()
    cblocal = cbtool()
    mslocal = mstool()

    try:

        # we will initialize scr cols only if we don't create them
        doinit = False

        if (type(vis) == str) & os.path.exists(vis):
            tblocal.open(vis)
            doinit = tblocal.colnames().count('CORRECTED_DATA') > 0
            tblocal.close()

            # We ignore selection if creating the scratch columns
            if not doinit:
                casalog.post(
                    'Need to create scratch columns; ignoring selection.')

            cblocal.setvi(old=True, quiet=False)
            # Old VI for now
            cblocal.open(vis, addmodel=addmodel)
        else:
            raise Exception, \
                'Visibility data set not found - please verify the name'

        # If necessary (scr col not just created), initialize scr cols
        if doinit:
            cblocal.selectvis(field=field, spw=spw, intent=intent)
            cblocal.initcalset(1)
        cblocal.close()

        # Write history to the MS
        param_names = clearcal.func_code.co_varnames[:clearcal.func_code.
                                                     co_argcount]
        param_vals = [eval(p) for p in param_names]
        casalog.post('Updating the history in the output', 'DEBUG1')
        write_history(mslocal, vis, 'clearcal', param_names, param_vals,
                      casalog)

    except Exception, instance:

        print '*** Error ***', instance
Esempio n. 3
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def initweights(vis=None,wtmode=None,dowtsp=None):

        casalog.origin('initweights')

        # Do the trivial parallelization
        if ParallelTaskHelper.isParallelMS(vis):
                helper = ParallelTaskHelper('initweights', locals())
                helper.go()
                return


	#Python script
	try:
		mycb=cbtool()

		# only if vis exists...
		if ((type(vis)==str) & (os.path.exists(vis))):
			# ... and we are asked to do something...
			# open without adding anything!
			mycb.open(vis,compress=False,addcorr=False,addmodel=False)
			mycb.initweights(wtmode=wtmode,dowtsp=dowtsp)
			mycb.close()
		else:
                        raise Exception, 'Visibility data set not found - please verify the name'

        	#write history
        	ms.open(vis,nomodify=False)
        	ms.writehistory(message='taskname = initweights',origin='initweights')
        	ms.writehistory(message='vis         = "'+str(vis)+'"',origin='initweights')
		ms.writehistory(message='wtmode      = "'+wtmode+'"',origin='initweights')
		ms.writehistory(message='dowtsp      = "'+str(dowtsp)+'"',origin='initweights')
		ms.close()

	except Exception, instance:
		print '*** Error ***',instance
Esempio n. 4
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def setjy(vis=None, field=None, spw=None,
          selectdata=None, timerange=None, scan=None, intent=None, observation=None,
          scalebychan=None, standard=None, model=None, modimage=None, 
          listmodels=None, fluxdensity=None, spix=None, reffreq=None, polindex=None,
          polangle=None, rotmeas=None, fluxdict=None, 
          useephemdir=None, interpolation=None, usescratch=None, ismms=None):
    """Fills the model column for flux density calibrators."""

    casalog.origin('setjy')
    casalog.post("standard="+standard,'DEBUG1')
    mylocals = locals()

    if not listmodels: # listmmodels=T does not require vis 
        sh = SetjyHelper(vis)
        rstat = sh.resetModelCol()


    # Take care of the trivial parallelization
    if ( not listmodels and ParallelTaskHelper.isParallelMS(vis) and usescratch):
        # jagonzal: We actually operate in parallel when usescratch=True because only
        # in this case there is a good trade-off between the parallelization overhead
        # and speed up due to the load involved with MODEL_DATA column creation
        # Create the default MODEL columns in all sub-MSs to avoid corruption of the MMS
        # when there are NULL MS selections
        #
        # TT: Use ismms is used to change behavior of some of the execption handling
        # for MMS case. It is a hidden task parameter only modified when input vis
        # is identified as MMS via SetjyHelper.resetModel().
      
        #sh = SetjyHelper(vis)
        #rstat = sh.resetModelCol()

        if rstat:
            ismms=rstat
            mylocals['ismms']=ismms
            #print "mylocals now=",mylocals
            helper = ParallelTaskHelper('setjy', mylocals)
            helper._consolidateOutput = False
            #helper._consolidateOutput = True
            try:
                retval = helper.go()

                # Remove the subMS names from the returned dictionary
                #print "remove subms names ...retval=",retval
                if (any(isinstance(v,dict) for v in retval.itervalues())):
                    for subMS in retval:
                        dict_i = retval[subMS]
                        if isinstance(dict_i,dict):
                            retval = dict_i
                            break
                else:
                    casalog.post("Error in parallel processing of MMS",'SEVERE')
                    retval = False
            except Exception, instance:
                retval = False
        else:
            casalog.post("Could not initialize MODEL columns in sub-MSs", 'SEVERE')
            retval = False
Esempio n. 5
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def setjy(vis=None, field=None, spw=None,
          selectdata=None, timerange=None, scan=None, intent=None, observation=None,
          scalebychan=None, standard=None, model=None, modimage=None, 
          listmodels=None, fluxdensity=None, spix=None, reffreq=None, polindex=None,
          polangle=None, rotmeas=None, fluxdict=None, 
          useephemdir=None, interpolation=None, usescratch=None, ismms=None):
    """Fills the model column for flux density calibrators."""

    casalog.origin('setjy')
    casalog.post("standard="+standard,'DEBUG1')
    mylocals = locals()

    if not listmodels: # listmmodels=T does not require vis 
        sh = SetjyHelper(vis)
        rstat = sh.resetModelCol()


    # Take care of the trivial parallelization
    if ( not listmodels and ParallelTaskHelper.isParallelMS(vis) and usescratch):
        # jagonzal: We actually operate in parallel when usescratch=True because only
        # in this case there is a good trade-off between the parallelization overhead
        # and speed up due to the load involved with MODEL_DATA column creation
        # Create the default MODEL columns in all sub-MSs to avoid corruption of the MMS
        # when there are NULL MS selections
        #
        # TT: Use ismms is used to change behavior of some of the execption handling
        # for MMS case. It is a hidden task parameter only modified when input vis
        # is identified as MMS via SetjyHelper.resetModel().
      
        #sh = SetjyHelper(vis)
        #rstat = sh.resetModelCol()

        if rstat:
            ismms=rstat
            mylocals['ismms']=ismms
            #print "mylocals now=",mylocals
            helper = ParallelTaskHelper('setjy', mylocals)
            helper._consolidateOutput = False
            #helper._consolidateOutput = True
            try:
                retval = helper.go()

                # Remove the subMS names from the returned dictionary
                #print "remove subms names ...retval=",retval
                if (any(isinstance(v,dict) for v in retval.itervalues())):
                    for subMS in retval:
                        dict_i = retval[subMS]
                        if isinstance(dict_i,dict):
                            retval = dict_i
                            break
                else:
                    casalog.post("Error in parallel processing of MMS",'SEVERE')
                    retval = False
            except Exception, instance:
                retval = False
        else:
            casalog.post("Could not initialize MODEL columns in sub-MSs", 'SEVERE')
            retval = False
Esempio n. 6
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def clearcal(
    vis=None,
    field=None,
    spw=None,
    intent=None,
    addmodel=None,
    ):

    casalog.origin('clearcal')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('clearcal', locals())
        helper.go()
        return

    # Local versions of the tools
    tblocal = tbtool()
    cblocal = cbtool()
    mslocal = mstool()

    try:

        # we will initialize scr cols only if we don't create them
        doinit = False

        if (type(vis) == str) & os.path.exists(vis):
            tblocal.open(vis)
            doinit = tblocal.colnames().count('CORRECTED_DATA') > 0
            tblocal.close()

            # We ignore selection if creating the scratch columns
            if not doinit:
                casalog.post('Need to create scratch columns; ignoring selection.'
                             )

            cblocal.open(vis, addmodel=addmodel)
        else:
            raise Exception, \
                'Visibility data set not found - please verify the name'

        # If necessary (scr col not just created), initialize scr cols
        if doinit:
            cblocal.selectvis(field=field, spw=spw, intent=intent)
            cblocal.initcalset(1)
        cblocal.close()

        # Write history to the MS
        param_names = clearcal.func_code.co_varnames[:clearcal.func_code.co_argcount]
        param_vals = [eval(p) for p in param_names]
        casalog.post('Updating the history in the output', 'DEBUG1')
        write_history(mslocal, vis, 'clearcal', param_names,
                      param_vals, casalog)
        
    except Exception, instance:

        print '*** Error ***', instance
Esempio n. 7
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def initweights(vis=None,
                wtmode=None,
                tsystable=None,
                gainfield=None,
                interp=None,
                spwmap=None,
                dowtsp=None):

    casalog.origin('initweights')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('initweights', locals())
        helper.go()
        return

    #Python script
    try:
        mycb = cbtool()

        # only if vis exists...
        if ((type(vis) == str) & (os.path.exists(vis))):
            if wtmode.upper().find("TSYS") > -1:
                if not os.path.exists(tsystable):
                    raise Exception, 'Tsys calibration table %s not found' % tsystable
                if len(spwmap) == 0:
                    spwmap = [-1]
                if interp == "":
                    interp = "linear"
            # ... and we are asked to do something...
            # open without adding anything!
            mycb.open(vis, compress=False, addcorr=False, addmodel=False)
            mycb.initweights(wtmode=wtmode,
                             dowtsp=dowtsp,
                             tsystable=tsystable,
                             gainfield=gainfield,
                             interp=interp,
                             spwmap=spwmap)
            mycb.close()
        else:
            raise Exception, 'Visibility data set not found - please verify the name'

        #write history
        ms.open(vis, nomodify=False)
        ms.writehistory(message='taskname = initweights', origin='initweights')
        ms.writehistory(message='vis         = "' + str(vis) + '"',
                        origin='initweights')
        ms.writehistory(message='wtmode      = "' + wtmode + '"',
                        origin='initweights')
        ms.writehistory(message='dowtsp      = "' + str(dowtsp) + '"',
                        origin='initweights')
        ms.close()

    except Exception, instance:
        print '*** Error ***', instance
Esempio n. 8
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def uvcontsub(vis, field, fitspw, excludechans, combine, solint, fitorder, spw,
              want_cont):

    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('uvcontsub', locals())
        helper._consolidateOutput = False
        retVar = helper.go()

        # Gather the list of continuum subtraction-SubMSs
        cont_subMS_list = []
        contsub_subMS_list = []
        for subMS in retVar:
            if retVar[subMS]:
                cont_subMS_list.append(subMS + ".cont")
                contsub_subMS_list.append(subMS + ".contsub")

        if len(cont_subMS_list) <= 0:
            casalog.post("No continuum-subtracted sub-MSs for concatenation",
                         "SEVERE")
            return False

        # We have to sort the list because otherwise it
        # depends on the time the engines dispatches their sub-MSs
        cont_subMS_list.sort()
        contsub_subMS_list.sort()

        # deal with the pointing table
        auxfile = "uvcontsub_aux2_" + str(time.time())
        pnrows = 0
        try:
            mytb.open(vis + '/POINTING')
            pnrows = mytb.nrows()
            mytb.close()
            if (pnrows > 0):
                shutil.copytree(os.path.realpath(vis + '/POINTING'), auxfile)
        except Exception, instance:
            casalog.post(
                "Error handling POINTING table %s: %s" %
                (vis + '/POINTING', str(instance)), 'SEVERE')

        if want_cont:
            try:
                virtualconcat(concatvis=helper._arg['vis'] + ".cont",
                              vis=cont_subMS_list,
                              copypointing=False)
            except Exception, instance:
                casalog.post(
                    "Error concatenating continuum sub-MSs %s: %s" %
                    (str(cont_subMS_list), str(instance)), 'SEVERE')
Esempio n. 9
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    def test_split_MMS_weight_corr_sel(self):
        '''mstransform: Split MMS in parallel. Check WEIGHT shape when selecting correlation'''
        # Create an MMS in the setup. It creates self.testmms
        self.createMMS(self.vis, axis='scan', spws='0,1')
        
        self.outputms = 'corrRR_LL.mms'
        mstransform(vis=self.testmms, outputvis=self.outputms, datacolumn='data', correlation='RR,LL',spw='0')
        
        self.assertTrue(ParallelTaskHelper.isParallelMS(self.outputms),'Output is not an MMS')
        
        mslocal = mstool()
        mslocal.open(self.outputms)
        sublist = mslocal.getreferencedtables()
        self.assertEqual(len(sublist), 2)
        
        # Test DD table
        msmdt = msmdtool()
        msmdt.open(self.outputms)
        out_dds = msmdt.datadescids()
        msmdt.done()
        
        ref = [0]
        for i in out_dds:
            self.assertEqual(out_dds[i], ref[i])

        # The separation axis should be copied to the output MMS
        in_sepaxis = ph.axisType(self.testmms)
        out_sepaxis = ph.axisType(self.outputms)
        self.assertEqual(in_sepaxis, out_sepaxis, 'AxisTypes from input and output MMS do not match')

        # Check the dimensions of the WEIGHT and SIGMA columns. CAS-6946
        out_ws = th.getColShape(self.outputms,'WEIGHT')
        out_ss = th.getColShape(self.outputms,'SIGMA')
        self.assertEqual(out_ws[0],'[2]','WEIGHT shape is not correct')
        self.assertEqual(out_ss[0],'[2]','SIGMA shape is not correct')
Esempio n. 10
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    def test_split_MMS(self):
        '''mstransform: Split MMS in parallel'''
        # Create an MMS in the setup. It creates self.testmms
        self.createMMS(self.vis, axis='scan', spws='0,1')
        
        self.outputms = 'scan30.mms'
        mstransform(vis=self.testmms, outputvis=self.outputms, datacolumn='data', scan='30')
        
        self.assertTrue(ParallelTaskHelper.isParallelMS(self.outputms),'Output is not an MMS')
        
        mslocal = mstool()
        mslocal.open(self.outputms)
        sublist = mslocal.getreferencedtables()
        self.assertEqual(len(sublist), 1)
        
        # Test DD table
        msmdt = msmdtool()
        msmdt.open(self.outputms)
        out_dds = msmdt.datadescids()
        msmdt.done()
        
        ref = [0,1]
        for i in out_dds:
            self.assertEqual(out_dds[i], ref[i])

        # The separation axis should be copied to the output MMS
        in_sepaxis = ph.axisType(self.testmms)
        out_sepaxis = ph.axisType(self.outputms)
        self.assertEqual(in_sepaxis, out_sepaxis, 'AxisTypes from input and output MMS do not match')
Esempio n. 11
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    def test7_bypassParallelProcessing(self):
        """Test 7: Bypass Parallel Processing mode """        
               
        simple_cluster.setDefaults(default_mem_per_engine=33554432)
        
        # Prepare MMS
        self.setUpFile("Four_ants_3C286.mms",'vis')
        
        # Create list file
        text = "mode='unflag'\n"\
               "mode='clip' clipminmax=[0,0.1]"
        filename = 'list_flagdata.txt'
        self.create_input(text, filename)

        # step 1: Do unflag+clip
        flagdata(vis=self.vis, mode='list', inpfile=filename)

        # step 2: Now do summary
        ret_dict = flagdata(vis=self.vis, mode='summary')

        # Check summary
        self.assertTrue(ret_dict['name']=='Summary')
        self.assertTrue(ret_dict['spw']['15']['flagged'] == 96284.0)
        self.assertTrue(ret_dict['spw']['0']['flagged'] == 129711.0)
        self.assertTrue(ret_dict['spw']['1']['flagged'] == 128551.0)
        self.assertTrue(ret_dict['spw']['2']['flagged'] == 125686.0)
        self.assertTrue(ret_dict['spw']['3']['flagged'] == 122862.0)
        self.assertTrue(ret_dict['spw']['4']['flagged'] == 109317.0)
        self.assertTrue(ret_dict['spw']['5']['flagged'] == 24481.0)
        self.assertTrue(ret_dict['spw']['6']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['7']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['8']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['9']['flagged'] == 27422.0)
        self.assertTrue(ret_dict['spw']['10']['flagged'] == 124638.0)
        self.assertTrue(ret_dict['spw']['11']['flagged'] == 137813.0)
        self.assertTrue(ret_dict['spw']['12']['flagged'] == 131896.0)
        self.assertTrue(ret_dict['spw']['13']['flagged'] == 125074.0)
        self.assertTrue(ret_dict['spw']['14']['flagged'] == 118039.0)    
        
        # Remove MMS
        os.system('rm -rf ' + self.vis)        
        
        # Restore default values
        simple_cluster.setDefaults(default_mem_per_engine=512)
        if not self.bypassParallelProcessing:
            ParallelTaskHelper.bypassParallelProcessing(0)
Esempio n. 12
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def uvcontsub(vis, field, fitspw, excludechans, combine, solint, fitorder, spw, want_cont):
    
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('uvcontsub', locals())
        helper._consolidateOutput = False
        retVar = helper.go()

        # Gather the list of continuum subtraction-SubMSs 
        cont_subMS_list = []
        contsub_subMS_list = []
        for subMS in retVar:
            if retVar[subMS]:
                cont_subMS_list.append(subMS + ".cont")
                contsub_subMS_list.append(subMS + ".contsub")
                
        if len(cont_subMS_list) <= 0:
            casalog.post("No continuum-subtracted sub-MSs for concatenation","SEVERE")
            return False

        # We have to sort the list because otherwise it  
        # depends on the time the engines dispatches their sub-MSs
        cont_subMS_list.sort()
        contsub_subMS_list.sort()

        # deal with the pointing table
        auxfile = "uvcontsub_aux2_"+str(time.time())
        pnrows = 0
        try:
            mytb.open(vis+'/POINTING')
            pnrows = mytb.nrows()
            mytb.close()
            if(pnrows>0): 
                shutil.copytree(os.path.realpath(vis+'/POINTING'), auxfile)
        except Exception, instance:
            casalog.post("Error handling POINTING table %s: %s" %
                         (vis+'/POINTING',str(instance)),'SEVERE')

        if want_cont:
            try:
                virtualconcat(concatvis=helper._arg['vis'] + ".cont",vis=cont_subMS_list,
                              copypointing=False)
            except Exception, instance:
                casalog.post("Error concatenating continuum sub-MSs %s: %s" % 
                             (str(cont_subMS_list),str(instance)),'SEVERE')     
Esempio n. 13
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def initweights(vis=None,wtmode=None,tsystable=None,gainfield=None,interp=None,spwmap=None,dowtsp=None):

    casalog.origin('initweights')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('initweights', locals())
        helper.go()
        return


    #Python script
    try:
        mycb=cbtool()

        # only if vis exists...
        if ((type(vis)==str) & (os.path.exists(vis))):
            if wtmode.upper().find("TSYS") > -1:
                if not os.path.exists(tsystable):
                    raise Exception, 'Tsys calibration table %s not found' % tsystable
                if len(spwmap)==0:
                    spwmap=[-1]
                if interp=="":
                    interp="linear"
            # ... and we are asked to do something...
            # open without adding anything!
            mycb.open(vis,compress=False,addcorr=False,addmodel=False)
            mycb.initweights(wtmode=wtmode,dowtsp=dowtsp,tsystable=tsystable,gainfield=gainfield,interp=interp,spwmap=spwmap)
            mycb.close()
        else:
            raise Exception, 'Visibility data set not found - please verify the name'

        #write history
        ms.open(vis,nomodify=False)
        ms.writehistory(message='taskname = initweights',origin='initweights')
        ms.writehistory(message='vis         = "'+str(vis)+'"',origin='initweights')
        ms.writehistory(message='wtmode      = "'+wtmode+'"',origin='initweights')
        ms.writehistory(message='dowtsp      = "'+str(dowtsp)+'"',origin='initweights')
        ms.close()

    except Exception, instance:
        print '*** Error ***',instance
Esempio n. 14
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def initweights(vis=None, wtmode=None, dowtsp=None):

    casalog.origin('initweights')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('initweights', locals())
        helper.go()
        return

#Python script
    try:
        mycb = cbtool()

        # only if vis exists...
        if ((type(vis) == str) & (os.path.exists(vis))):
            # ... and we are asked to do something...
            # open without adding anything!
            mycb.open(vis, compress=False, addcorr=False, addmodel=False)
            mycb.initweights(wtmode=wtmode, dowtsp=dowtsp)
            mycb.close()
        else:
            raise Exception, 'Visibility data set not found - please verify the name'

    #write history
        ms.open(vis, nomodify=False)
        ms.writehistory(message='taskname = initweights', origin='initweights')
        ms.writehistory(message='vis         = "' + str(vis) + '"',
                        origin='initweights')
        ms.writehistory(message='wtmode      = "' + wtmode + '"',
                        origin='initweights')
        ms.writehistory(message='dowtsp      = "' + str(dowtsp) + '"',
                        origin='initweights')
        ms.close()

    except Exception, instance:
        print '*** Error ***', instance
Esempio n. 15
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def delmod(vis=None, otf=None, field=None, scr=None):

    casalog.origin('delmod')

    # Do the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        helper = ParallelTaskHelper('delmod', locals())
        helper.go()
        return

    #Python script
    try:

        # only if vis exists...
        if ((type(vis) == str) & (os.path.exists(vis))):
            # ... and we are asked to do something...
            # open without adding anything!
            _cb.open(vis, addcorr=False, addmodel=False)
            _cb.delmod(otf=otf, field=field, scr=scr)
            _cb.close()
        else:
            raise Exception, 'Visibility data set not found - please verify the name'

        # Write history to MS
        try:
            param_names = delmod.func_code.co_varnames[:delmod.func_code.
                                                       co_argcount]
            param_vals = [eval(p) for p in param_names]
            write_history(mstool(), vis, 'delmod', param_names, param_vals,
                          casalog)
        except Exception, instance:
            casalog.post("*** Error \'%s\' updating HISTORY" % (instance),
                         'WARN')

    except Exception, instance:
        print '*** Error ***', instance
Esempio n. 16
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 def test_mpi4casa_flagdata_list_return_multithreading(self):
     """Test flagdata summary in multithreading mode"""
     
     # First run flagdata sequentially
     bypassParallelProcessing = ParallelTaskHelper.getBypassParallelProcessing()
     ParallelTaskHelper.bypassParallelProcessing(2)
     res = flagdata(vis=self.vis, mode='summary')
     ParallelTaskHelper.bypassParallelProcessing(bypassParallelProcessing)
     
     # Make a copy of the input MMS for each flagdata instance
     os.system("cp -r %s %s" % (self.vis,self.vis2))
     os.system("cp -r %s %s" % (self.vis,self.vis3))
     
     ParallelTaskHelper.setMultithreadingMode(True)        
     
     # Set up workers
     cmd1 = "flagdata(vis='%s', mode='summary')" % (self.vis)
     worker1 = ParallelTaskWorker(cmd1)
     
     cmd2 = "flagdata(vis='%s', mode='summary')" % (self.vis2)
     worker2 = ParallelTaskWorker(cmd2)        
     
     cmd3 = "flagdata(vis='%s', mode='summary')" % (self.vis3)
     worker3 = ParallelTaskWorker(cmd3)          
     
     # Spawn worker threads
     worker1.start()
     worker2.start()
     worker3.start()
     
     # Get resulting summary ict from each worker
     res1 = worker1.getResult()
     res2 = worker2.getResult()
     res3 = worker3.getResult()
     
     ParallelTaskHelper.setMultithreadingMode(False) 
     
     # Compare return summary dicts with the one generated with a sequential run
     self.assertEqual(res1,res, "flagdata dictionary does not match for the first flagdata run")
     self.assertEqual(res2,res, "flagdata dictionary does not match for the second flagdata run")
     self.assertEqual(res3,res, "flagdata dictionary does not match for the third flagdata run")    
Esempio n. 17
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    def _createCalMSCommand(self):
        '''
        Create a command which will generate a MS with only those subMSs
        in the selected calibration
        '''
        self._selectMS(True)
        self._calScanList = self._getScanList()

        
        # Now create the command dict. for this
        calCmd = copy.copy(self._arg)
        calCmd['createmms'] = False
        calCmd['calmsselection'] = 'none'
        calCmd['scan'] = ParallelTaskHelper.listToCasaString(self._calScanList)
        if self._arg['createmms']:
            calCmd['outputvis'] = self.dataDir + '/%s.cal.ms' % self.outputBase
        else:
            calCmd['outputvis'] = self._arg['calmsname']
        self._executionList.append(JobData(self._taskName, calCmd))
Esempio n. 18
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def initweights(vis=None,wtmode=None,tsystable=None,gainfield=None,interp=None,spwmap=None,dowtsp=None):

    casalog.origin('initweights')

    # Do the trivial parallelization
    if ParallelTaskHelper.isMPIEnabled() and ParallelTaskHelper.isParallelMS(vis):
        tsystable = ParallelTaskHelper.findAbsPath(tsystable)
        helper = ParallelTaskHelper('initweights', locals())
        helper.go()
        # Write history to MS.
        try:
            param_names = initweights.func_code.co_varnames[:initweights.func_code.co_argcount]
            param_vals = [eval(p) for p in param_names]
            casalog.post('Updating the history in the output', 'DEBUG1')
            write_history(ms, vis, 'initweights', param_names,
                          param_vals, casalog)
        except Exception, instance:
            casalog.post("*** Error \'%s\' updating HISTORY" % (instance),
                         'WARN')
        
        return
Esempio n. 19
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            imt = imtool()
            imt.open(vis, usescratch=False)
            imt.calcuvw(fldids, refcode='J2000', reuse=False)
            imt.close()
            imt = None

            if((oldrefcol!=[]) and (thenewref>0)): 
                tbt.open(vis+'/FIELD', nomodify=False)
                tbt.putcol('PhaseDir_Ref', oldrefcol)
                tbt.close()

        else:
            casalog.post("UVW coordinates not changed.", 'NORMAL')

        if (ParallelTaskHelper.isParallelMS(vis)):
            casalog.post("Tidying up the MMS subtables ...", 'NORMAL')
            ParallelTaskHelper.restoreSubtableAgreement(vis)

        mst = None
        tbt = None

        return True

    except Exception, instance:
        mst = None
        tbt = None
        imt = None
        casalog.post("*** Error \'%s\' " % (instance), 'SEVERE')
        return False
Esempio n. 20
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 def __init__(self, args = {}):
     ParallelTaskHelper.__init__(self,'oldpartition', args)
     self._calScanList = None
     self._selectionScanList = None
     self._msTool = None
     self._tbTool = None
Esempio n. 21
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    def initialize(self):
        '''
        This method will prepare the system for working, in particular:
           * Open the input MS as a msTool
           * Create the Output Directory and the Data subdirectory
           * Populate the global data selection filter (if necessary)
        '''
        ParallelTaskHelper.initialize(self)

        for (arg,value) in self._arg.items():
            if value == None:
                self._arg[arg] = ''

                              
        # Since we are here we know that the outputvis should not be ''
        if self._arg['outputvis'] == '':
            raise ValueError, "An output vis was required."
        if os.path.exists(self._arg['outputvis']): 
                raise ValueError, \
                      "Vis directory for output (%s) already exists" %\
                      self._arg['outputvis']
            
        # Find the absolute path to the outputvis
        self._arg['outputvis'] = os.path.abspath(self._arg['outputvis'])
        outputPath, self.outputBase = os.path.split(self._arg['outputvis'])
        try:
            self.outputBase = self.outputBase[:self.outputBase.rindex('.')]
        except ValueError:
            # outputBase must not have a trailing .
            pass

        self.dataDir = outputPath + '/' + self.outputBase+'.data'
        if self._arg['createmms']:
            if os.path.exists(self.dataDir): 
                shutil.rmtree(self.dataDir)

            os.mkdir(self.dataDir)

            ## handle the POINTING and SYSCAL tables ##
            self.ptab = self._arg['vis']+'/POINTING'
            self.stab = self._arg['vis']+'/SYSCAL'

            mytb = tbtool()

            # test their properties
            self.pointingisempty = True
            self.makepointinglinks = False
            self.pwriteaccess = True

            mytb.open(self.ptab)
            self.pointingisempty = (mytb.nrows()==0)
            mytb.close()
            self.makepointinglinks = not self.pointingisempty
            self.pwriteaccess = True
            
            self.syscalisempty = True
            self.makesyscallinks = False
            self.swriteaccess = True
            if(os.path.exists(self.stab)): # syscal is optional
                mytb.open(self.stab)
                self.syscalisempty = (mytb.nrows()==0)
                mytb.close()
                self.makesyscallinks = not self.syscalisempty

            if not self.pointingisempty:
                if os.access(os.path.dirname(self.ptab), os.W_OK) \
                       and not os.path.islink(self.ptab):
                    # move to datadir
                    os.system('mv '+self.ptab+' '+self.dataDir)
                    # create empty copy in original place so partition does not need to deal with it
                    mytb.open(self.dataDir+'/POINTING')
                    tmpp = mytb.copy(newtablename=self.ptab, norows=True)
                    tmpp.close()
                    mytb.close()
                else:
                    self.pwriteaccess = False
                    

            if not self.syscalisempty:
                if os.access(os.path.dirname(self.stab), os.W_OK) \
                       and not os.path.islink(self.stab):
                    # move to datadir
                    os.system('mv '+self.stab+' '+self.dataDir)
                    # create empty copy in original place so partition does not need to deal with it
                    mytb.open(self.dataDir+'/SYSCAL')
                    tmpp = mytb.copy(newtablename=self.stab, norows=True)
                    tmpp.close()
                    mytb.close()
                else:
                    self.swriteaccess = False
Esempio n. 22
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def flagdata(
        vis,
        mode,
        autocorr,  # mode manual parameter
        inpfile,  # mode list parameters
        reason,
        tbuff,
        spw,  # data selection parameters
        field,
        antenna,
        uvrange,
        timerange,
        correlation,
        scan,
        intent,
        array,
        observation,
        feed,
        clipminmax,  # mode clip parameters
        datacolumn,
        clipoutside,
        channelavg,
        timeavg,
        timebin,
        clipzeros,
        quackinterval,  # mode quack parameters
        quackmode,
        quackincrement,
        tolerance,  # mode shadow parameter
        addantenna,
        lowerlimit,  # mode elevation parameters
        upperlimit,
        ntime,  # mode tfcrop
        combinescans,
        timecutoff,
        freqcutoff,
        timefit,
        freqfit,
        maxnpieces,
        flagdimension,
        usewindowstats,
        halfwin,
        extendflags,
        winsize,  # rflag parameters
        timedev,
        freqdev,
        timedevscale,
        freqdevscale,
        spectralmax,
        spectralmin,
        extendpols,  # mode extend
        growtime,
        growfreq,
        growaround,
        flagneartime,
        flagnearfreq,
        minrel,  # mode summary
        maxrel,
        minabs,
        maxabs,
        spwchan,
        spwcorr,
        basecnt,
        fieldcnt,
        name,
        action,  # run or not the tool
        display,
        flagbackup,
        savepars,  # save the current parameters to FLAG_CMD  or to a file
        cmdreason,  # reason to save to flag cmd
        outfile,  # output file to save flag commands
        writeflags  # HIDDEN parameter
):

    #
    # Task flagdata
    #    Flags data from an MS or calibration table based on data selection in various ways

    casalog.origin('flagdata')

    if (action == 'none' or action == '' or action == 'calculate'):
        flagbackup = False

    # SMC: moved the flagbackup to before initializing the cluster.
    # Note that with this change, a flag backup will be created even if
    # an error happens that prevents the flagger tool from running.
    if (mode != 'summary' and flagbackup):
        casalog.post('Backup original flags before applying new flags')
        fh.backupFlags(aflocal=None, msfile=vis, prename='flagdata')
        # Set flagbackup to False because only the controller
        # should create a backup
        flagbackup = False

    # Initialize the helper class
    orig_locals = locals()
    FHelper = FlagHelper()

    # Check if vis is a MS, MMS or cal table:
    # typevis = 1 --> cal table
    # typevis = 0 --> MS
    # typevis = 2 --> MMS
    iscal = False
    typevis = fh.isCalTable(vis)
    if typevis == 1:
        iscal = True

    # ***************** Input is MMS -- Parallel Processing ***********************

    if typevis == 2 and action != '' and action != 'none':

        # Create a temporary input file with .tmp extension.
        # Use this file for all the processing from now on.
        if (isinstance(inpfile,str) and inpfile != '') or \
           (isinstance(inpfile, list) and os.path.isfile(inpfile[0])):
            inpfile = FHelper.setupInputFile(inpfile)
            if inpfile != None:
                orig_locals['inpfile'] = inpfile

        if outfile != '':
            outfile = os.path.abspath(outfile)
            orig_locals['outfile'] = outfile
        if isinstance(addantenna, str) and addantenna != '':
            addantenna = os.path.abspath(addantenna)
            orig_locals['addantenna'] = addantenna
        if isinstance(timedev, str) and timedev != '':
            timedev = os.path.abspath(timedev)
            orig_locals['timedev'] = timedev
        if isinstance(freqdev, str) and freqdev != '':
            freqdev = os.path.abspath(freqdev)
            orig_locals['freqdev'] = freqdev

        FHelper.__init__(orig_locals)

        # For tests only
        #        FHelper.bypassParallelProcessing(1)

        FHelper.setupCluster('flagdata')
        # (CAS-4119): Override summary minabs,maxabs,minrel,maxrel
        # so that it is done after consolidating the summaries

        # By-pass options to filter summary
        filterSummary = False
        if ((mode == 'summary') and ((minrel != 0.0) or (maxrel != 1.0) or
                                     (minabs != 0) or (maxabs != -1))):
            filterSummary = True

            myms = mstool()
            myms.open(vis)
            subMS_list = myms.getreferencedtables()
            myms.close()

            if (minrel != 0.0):
                minreal_dict = create_arg_dict(subMS_list, 0.0)
                FHelper.override_arg('minrel', minreal_dict)
            if (maxrel != 1.0):
                maxrel_dict = create_arg_dict(subMS_list, 1.0)
                FHelper.override_arg('maxrel', maxrel_dict)
            if (minabs != 0):
                minabs_dict = create_arg_dict(subMS_list, 0)
                FHelper.override_arg('minabs', minabs_dict)
            if (maxabs != -1):
                maxabs_dict = create_arg_dict(subMS_list, -1)
                FHelper.override_arg('maxabs', maxabs_dict)

        # By-pass options to filter summary
        if savepars:

            myms = mstool()
            myms.open(vis)
            subMS_list = myms.getreferencedtables()
            myms.close()

            savepars_dict = create_arg_dict(subMS_list, False)
            FHelper.override_arg('savepars', savepars_dict)

        # Execute the parallel engines
        retVar = FHelper.go()

        # In async mode return the job ids
        if ParallelTaskHelper.getAsyncMode():
            return retVar
        else:
            # Filter summary at MMS level
            if (mode == 'summary'):
                if filterSummary:
                    retVar = filter_summary(retVar, minrel, maxrel, minabs,
                                            maxabs)
                return retVar
            # Save parameters at MMS level
            elif savepars:
                action = 'none'
            else:
                return retVar

    summary_stats = {}

    #    if pCASA.is_mms(vis):
    #        pCASA.execute("flagdata", orig_locals)
    #        return

    # ***************** Input is a normal MS/cal table ****************

    # Create local tools
    aflocal = casac.agentflagger()
    mslocal = mstool()

    try:
        # Verify the ntime value
        newtime = 0.0
        if type(ntime) == float or type(ntime) == int:
            if ntime <= 0:
                raise Exception, 'Parameter ntime cannot be < = 0'
            else:
                # units are seconds
                newtime = float(ntime)

        elif type(ntime) == str:
            if ntime == 'scan':
                # iteration time step is a scan
                newtime = 0.0
            else:
                # read the units from the string
                qtime = qa.quantity(ntime)

                if qtime['unit'] == 'min':
                    # convert to seconds
                    qtime = qa.convert(qtime, 's')
                elif qtime['unit'] == '':
                    qtime['unit'] = 's'

                # check units
                if qtime['unit'] == 's':
                    newtime = qtime['value']
                else:
                    casalog.post(
                        'Cannot convert units of ntime. Will use default 0.0s',
                        'WARN')

        casalog.post(
            "New ntime is of type %s and value %s" % (type(newtime), newtime),
            'DEBUG')

        # Open the MS and attach it to the tool
        if ((type(vis) == str) & (os.path.exists(vis))):
            aflocal.open(vis, newtime)
        else:
            raise Exception, 'Visibility data set not found - please verify the name'

        # Get the parameters for the mode
        agent_pars = {}

        # By default, write flags to the MS
        writeflags = True

        # Only the apply action writes to the MS
        # action=apply     --> write to the MS
        # action=calculate --> do not write to the MS
        # action=''        --> do not run the tool and do not write to the MS
        if action != 'apply':
            writeflags = False

        # Default mode
        if mode == '' or mode == 'manualflag':
            mode = 'manual'

        # Read in the list of commands
        # Make a dictionary of the input commands. Select by reason if requested
        flagcmd = {}

        if mode == 'list':
            casalog.post('List mode is active')
            doPadding = True
            try:
                # If tbuff is requested, read and Parse
                if tbuff == 0.0 or tbuff == [] or tbuff == None:
                    doPadding = False

                if doPadding:
                    casalog.post('Will apply time buffer padding')

                    # inpfile is a file
                    if isinstance(inpfile, str):
                        inpfile = [inpfile]

                    # read in the list and do a simple parsing to apply tbuff
                    flaglist = fh.readAndParse(inpfile, tbuff)

                else:
                    # inpfile is a file
                    if isinstance(inpfile, str) and os.path.isfile(inpfile):
                        flaglist = fh.readFile(inpfile)
                        nlines = len(flaglist)
                        casalog.post('Read %s command(s) from file: %s' %
                                     (nlines, inpfile))

                    # inpfile is a list of files
                    elif isinstance(inpfile, list) and os.path.isfile(
                            inpfile[0]):
                        flaglist = fh.readFiles(inpfile)

                    # Python list of strings
                    elif isinstance(inpfile, list):
                        flaglist = inpfile

                    else:
                        raise Exception, 'Unsupported input list of flag commands or input file does not exist'

                # Parse and create a dictionary
                flagcmd = fh.parseDictionary(flaglist, reason)

                # Validate the dictionary.
                # IMPORTANT: if any parameter changes its type, the following
                # function needs to be updated. The same if any new parameter is
                # added or removed from the task
                fh.evaluateFlagParameters(flagcmd, orig_locals)

                # List of flag commands in dictionary
                vrows = flagcmd.keys()

                casalog.post('%s' % flagcmd, 'DEBUG1')

            except Exception, instance:
                casalog.post('%s' % instance, 'ERROR')
                raise Exception, 'Error reading the input list. Make sure the syntax used in the list '\
                                 'follows the rules given in the inline help of the task.'

            casalog.post('Selected ' + str(vrows.__len__()) +
                         ' commands from combined input list(s) ')

        elif mode == 'manual':
            agent_pars['autocorr'] = autocorr
            casalog.post('Manual mode is active')
Esempio n. 23
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    def setupCluster(self, thistask=''):
        '''Get a simple_cluster to execute this task'''
        if thistask == '':
            thistask = 'flagdata'

        ParallelTaskHelper.__init__(self, task_name=thistask, args=self.__args)
Esempio n. 24
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def flagdata(vis,
             mode,
             autocorr,      # mode manual parameter
             inpfile,       # mode list parameters
             reason,
             tbuff,
             spw,           # data selection parameters
             field,
             antenna,
             uvrange,
             timerange,
             correlation,
             scan,
             intent,
             array,
             observation,
             feed,
             clipminmax,    # mode clip parameters
             datacolumn,
             clipoutside,
             channelavg,
             chanbin,
             timeavg,
             timebin,
             clipzeros,
             quackinterval, # mode quack parameters
             quackmode,
             quackincrement,
             tolerance,      # mode shadow parameter
             addantenna,
             lowerlimit,    # mode elevation parameters
             upperlimit,
             ntime,         # mode tfcrop
             combinescans,
             timecutoff,    
             freqcutoff,
             timefit,
             freqfit,
             maxnpieces,
             flagdimension,
             usewindowstats,
             halfwin,
             extendflags,
             winsize,    # rflag parameters
             timedev,
             freqdev,
             timedevscale,
             freqdevscale,
             spectralmax,
             spectralmin,
             extendpols,    # mode extend
             growtime,
             growfreq,
             growaround,
             flagneartime,
             flagnearfreq,
             minrel,        # mode summary
             maxrel,
             minabs,
             maxabs,
             spwchan,
             spwcorr,
             basecnt,
             fieldcnt,
             name,
             action,           # run or not the tool
             display,
             flagbackup,
             savepars,      # save the current parameters to FLAG_CMD  or to a file
             cmdreason,     # reason to save to flag cmd
             outfile,       # output file to save flag commands
             overwrite,     # overwrite the outfile file
             writeflags    # HIDDEN parameter
            ):      

    
    #
    # Task flagdata
    #    Flags data from an MS or calibration table based on data selection in various ways
    
    casalog.origin('flagdata')
                    
    if (action == 'none' or action=='' or action=='calculate'):
        flagbackup = False
        
    # SMC: moved the flagbackup to before initializing the cluster.
    # Note that with this change, a flag backup will be created even if
    # an error happens that prevents the flagger tool from running.    
    if (mode != 'summary' and flagbackup):
        casalog.post('Backup original flags before applying new flags')
        fh.backupFlags(aflocal=None, msfile=vis, prename='flagdata')
        # Set flagbackup to False because only the controller
        # should create a backup
        flagbackup = False

    # Initialize the helper class
    orig_locals = copy.deepcopy(locals())
    FHelper = FlagHelper()

    # Check if vis is a MS, MMS or cal table:
    # typevis = 1 --> cal table
    # typevis = 0 --> MS
    # typevis = 2 --> MMS
    iscal = False
    typevis = fh.isCalTable(vis)
    if typevis == 1:
        iscal = True


    # ***************** Input is MMS -- Parallel Processing ***********************   
         
    if FHelper.isMPIEnabled() and typevis == 2 and action != '' and action != 'none':
                            
        # Create a temporary input file with .tmp extension.
        # Use this file for all the processing from now on.
        if (isinstance(inpfile,str) and inpfile != '') or \
           (isinstance(inpfile, list) and os.path.isfile(inpfile[0])):
            inpfile = FHelper.setupInputFile(inpfile)
            if inpfile != None:
                orig_locals['inpfile'] = inpfile
        
        if outfile != '':
            outfile = os.path.abspath(outfile)
            orig_locals['outfile'] = outfile
        if isinstance(addantenna, str) and addantenna != '':
            addantenna = os.path.abspath(addantenna)
            orig_locals['addantenna'] = addantenna
        if isinstance(timedev, str) and timedev != '':
            timedev = os.path.abspath(timedev)
            orig_locals['timedev'] = timedev
        if isinstance(freqdev, str) and freqdev != '':
            freqdev = os.path.abspath(freqdev)
            orig_locals['freqdev'] = freqdev    
    
        FHelper.__init__(orig_locals)
        
        # For tests only
#        FHelper.bypassParallelProcessing(1)

        FHelper.setupCluster('flagdata')
        # (CAS-4119): Override summary minabs,maxabs,minrel,maxrel 
        # so that it is done after consolidating the summaries
        
        # By-pass options to filter summary
        filterSummary = False
        if ((mode == 'summary') and ((minrel != 0.0) or (maxrel != 1.0) or (minabs != 0) or (maxabs != -1))):
            filterSummary = True
            
            myms = mstool()
            myms.open(vis)
            subMS_list = myms.getreferencedtables()
            myms.close()
            
            if (minrel != 0.0):
                minreal_dict = create_arg_dict(subMS_list,0.0)
                FHelper.override_arg('minrel',minreal_dict)
            if (maxrel != 1.0):
                maxrel_dict = create_arg_dict(subMS_list,1.0)
                FHelper.override_arg('maxrel',maxrel_dict)
            if (minabs != 0):
                minabs_dict = create_arg_dict(subMS_list,0)
                FHelper.override_arg('minabs',minabs_dict)
            if (maxabs != -1):
                maxabs_dict = create_arg_dict(subMS_list,-1)
                FHelper.override_arg('maxabs',maxabs_dict)
                
        # By-pass options to filter summary
        if savepars:  
            
            myms = mstool()
            myms.open(vis)
            subMS_list = myms.getreferencedtables()
            myms.close()
            
            savepars_dict = create_arg_dict(subMS_list,False)
            FHelper.override_arg('savepars',savepars_dict)
            
        # Execute the parallel engines
        retVar = FHelper.go()
        
        # In async mode return the job ids
        if ParallelTaskHelper.getAsyncMode():
            return retVar
        else:
            # Filter summary at MMS level
            if (mode == 'summary'):
                if filterSummary:
                    retVar = filter_summary(retVar,minrel,maxrel,minabs,maxabs)
                return retVar
            # Save parameters at MMS level
            elif savepars:
                action = 'none'
            else:
                return retVar
    
    summary_stats={};
    
    
    # ***************** Input is a normal MS/cal table ****************
    
    # Create local tools
    aflocal = casac.agentflagger()
    mslocal = mstool()

    try: 
        # Verify the ntime value
        newtime = 0.0
        if type(ntime) == float or type(ntime) == int:
            if ntime <= 0:
                raise Exception, 'Parameter ntime cannot be < = 0'
            else:
                # units are seconds
                newtime = float(ntime)
        
        elif type(ntime) == str:
            if ntime == 'scan':
                # iteration time step is a scan
                newtime = 0.0
            else:
                # read the units from the string
                qtime = qa.quantity(ntime)
                
                if qtime['unit'] == 'min':
                    # convert to seconds
                    qtime = qa.convert(qtime, 's')
                elif qtime['unit'] == '':
                    qtime['unit'] = 's'
                    
                # check units
                if qtime['unit'] == 's':
                    newtime = qtime['value']
                else:
                    casalog.post('Cannot convert units of ntime. Will use default 0.0s', 'WARN')
                                    
        casalog.post("New ntime is of type %s and value %s"%(type(newtime),newtime), 'DEBUG')
                
        # Open the MS and attach it to the tool
        if ((type(vis) == str) & (os.path.exists(vis))):
            aflocal.open(vis, newtime)
        else:
            raise Exception, 'Visibility data set not found - please verify the name'


        # Get the parameters for the mode
        agent_pars = {}
        
        # By default, write flags to the MS
        writeflags = True
        
        # Only the apply action writes to the MS
        # action=apply     --> write to the MS
        # action=calculate --> do not write to the MS
        # action=''        --> do not run the tool and do not write to the MS
        if action != 'apply':
            writeflags = False
                                         
        # Default mode
        if mode == '' or mode == 'manualflag':
            mode = 'manual'
        
        # Read in the list of commands
        # Make a dictionary of the input commands. Select by reason if requested
        flagcmd = {}
        
        if mode == 'list':
            casalog.post('List mode is active')
            doPadding = True
            try:
                # If tbuff is requested, read and Parse
                if tbuff == 0.0 or tbuff == [] or tbuff == None:
                    doPadding = False
                     
                if doPadding:
                    casalog.post('Will apply time buffer padding')
 
                    # inpfile is a file
                    if isinstance(inpfile, str):
                        inpfile = [inpfile]
                         
                    # read in the list and do a simple parsing to apply tbuff
                    flaglist = fh.readAndParse(inpfile, tbuff)
                     
                else:                    
                    # inpfile is a file
                    if isinstance(inpfile, str) and os.path.isfile(inpfile):
                        flaglist = fh.readFile(inpfile)
                        nlines = len(flaglist)
                        casalog.post('Read %s command(s) from file: %s'%(nlines, inpfile))                              
                         
                    # inpfile is a list of files
                    elif isinstance(inpfile, list) and os.path.isfile(inpfile[0]):
                        flaglist = fh.readFiles(inpfile)
                         
                    # Python list of strings
                    elif isinstance(inpfile, list):                    
                        flaglist = inpfile
                        
                    else:
                        raise Exception, 'Unsupported input list of flag commands or input file does not exist'
                             
                         
                # Parse and create a dictionary
                flagcmd = fh.parseDictionary(flaglist, reason)
                 
                # Validate the dictionary. 
                # IMPORTANT: if any parameter changes its type, the following
                # function needs to be updated. The same if any new parameter is
                # added or removed from the task
                fh.evaluateFlagParameters(flagcmd,orig_locals)
                     
                # List of flag commands in dictionary
                vrows = flagcmd.keys()
 
                casalog.post('%s'%flagcmd,'DEBUG1')
                 
                 
            except Exception, instance:
                casalog.post('%s'%instance,'ERROR')
                raise Exception, 'Error reading the input list. Make sure the syntax used in the list '\
                                 'follows the rules given in the inline help of the task.'

            casalog.post('Selected ' + str(vrows.__len__())
                         + ' commands from combined input list(s) ')
                             
        elif mode == 'manual':
            agent_pars['autocorr'] = autocorr
            casalog.post('Manual mode is active')
Esempio n. 25
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 def setupCluster(self, thistask=''):
     '''Get a cluster to execute this task'''
     if thistask == '':
         thistask = 'flagdata'
         
     ParallelTaskHelper.__init__(self, task_name=thistask, args=self.__args)
Esempio n. 26
0
  4. It gets the right answer for a known line + 0th order continuum,
     even when fitorder = 4.
'''
datapath = os.environ.get('CASAPATH').split()[0] + '/data/regression/unittest'
uvcdatadir = 'uvcontsub'

# Pick up alternative data directory to run tests on MMSs
testmms = False
if os.environ.has_key('TEST_DATADIR'):
    testmms = True
    DATADIR = str(os.environ.get('TEST_DATADIR'))
    if os.path.isdir(DATADIR):
        datapath = DATADIR

if os.environ.has_key('BYPASS_PARALLEL_PROCESSING'):
    ParallelTaskHelper.bypassParallelProcessing(1)

#Commented out for refactoring (eliminated test_split dependence)
#class UVContChecker(SplitChecker):
#    """
#    Base class for uvcontsub unit testing.
#    """
#    need_to_initialize = True
#    records = {}
#
#    def do_split(self, corrsel):
#        """
#        This is only called do_split because it comes from SplitChecker.
#        run_task (uvcontsub in this case) would have been a better name.
#        """
#        record = {}
Esempio n. 27
0
def concat(vislist, concatvis, freqtol, dirtol, respectname, timesort,
           copypointing, visweightscale):
    """concatenate visibility datasets
	The list of data sets given in the vis argument are chronologically concatenated 
	into an output data set in concatvis, i.e. the data sets in vis are first ordered
	by the time of their earliest integration and then concatenated.  
	
	If there are fields whose direction agrees within the direction tolerance
	(parameter dirtol), the actual direction in the resulting, merged output field
	will be the one from the chronologically first input MS.

	If concatvis already exists (e.g., it is the same as the first input data set), 
	then the other input data sets will be appended to the concatvis data set.  
	There is no limit to the number of input data sets.

	If none of the input data sets have any scratch columns (model and corrected
	columns), none are created in the concatvis.  Otherwise these columns are
	created on output and initialized to their default value (1 in model column,
	data in corrected column) for those data with no input columns.

	Spectral windows for each data set with the same chanelization, and within a
	specified frequency tolerance of another data set will be combined into one
	spectral window.

	A field position in one data set that is within a specified direction tolerance
	of another field position in any other data set will be combined into one
	field.  The field names need not be the same---only their position is used.

	Each appended dataset is assigned a new observation id (provided the entries
	in the observation table are indeed different).
	
	Keyword arguments:
	vis -- Name of input visibility files to be combined
		default: none; example: vis = ['src2.ms','ngc5921.ms','ngc315.ms']
	concatvis -- Name of visibility file that will contain the concatenated data
		note: if this file exits on disk then the input files are 
		      added to this file.  Otherwise the new file contains  
		      the concatenated data.  Be careful here when concatenating to
		      an existing file.
		default: none; example: concatvis='src2.ms'
			 example: concatvis='outvis.ms'

		other examples: 
		   concat(vis=['src2.ms','ngc5921.ms'], concatvis='src2.ms')
		       will concatenate 'ngc5921.ms' into 'src2.ms', and the original
		       src2.ms is lost

		   concat(vis=['src2.ms','ngc5921.ms'], concatvis='out.ms') 
		       will concatenate 'ngc5921.ms' and 'src2.ms' into a file named 
		       'out.ms'; the original 'ngc5921.ms' and 'src2.ms' are untouched.

		   concat(vis=['v1.ms','v2.ms'], concatvis = 'vall.ms')
		      then
		   concat(vis=['v3.ms','v4.ms'], concatvis = 'vall.ms')
		     vall.ms will contains v1.ms+v2.ms+v3.ms+v4.ms

	     Note: run flagmanager to save flags in the concatvis

	freqtol -- Frequency shift tolerance for considering data to be in the same
		   spwid.  The number of channels must also be the same.
		default: '' == 1 Hz
		example: freqtol='10MHz' will not combine spwid unless they are
		   within 10 MHz.
		Note: This option is useful to combine spectral windows with very slight
		   frequency differences caused by Doppler tracking, for example.

	dirtol -- Direction shift tolerance for considering data as the same field
		default: '' == 1 mas (milliarcsec)
		example: dirtol='1.arcsec' will not combine data for a field unless
		   their phase center differ by less than 1 arcsec.  If the field names
		   are different in the input data sets, the name in the output data
		   set will be the first relevant data set in the list.

	respectname -- If true, fields with a different name are not merged even if their 
                direction agrees (within dirtol)
                default: False

	timesort -- If true, the output visibility table will be sorted in time.
		default: false.  Data in order as read in.
		example: timesort=true
	     Note: There is no constraint on data that is simultaneously observed for
		more than one field; for example multi-source correlation of VLBA data.

	copypointing -- Make a proper copy of the POINTING subtable (can be time consuming).
		If False, the result is an empty POINTING table.
		default: True

	visweightscale -- The weights of the individual MSs will be scaled in the concatenated
		output MS by the factors in this list. Useful for handling heterogeneous arrays.
		Use plotms to inspect the "Wt" column as a reference for determining the scaling 
		factors. See the cookbook for more details.
		example: [1.,3.,3.] - scale the weights of the second and third MS by a factor 3.
		default: [] (empty list) - no scaling

	"""

    ###
    #Python script
    try:
        casalog.origin('concat')
        t = tbtool()
        m = mstool()

        #break the reference between vis and vislist as we modify vis
        if (type(vislist) == str):
            vis = [vislist]
        else:
            vis = list(vislist)
        #dto. for concavis
        theconcatvis = concatvis

        # warn if there are MMSs
        mmslist = []
        for elvis in vis:  ###Oh no Elvis does not exist Mr Bill
            if (ParallelTaskHelper.isParallelMS(elvis)):
                mmslist.append(elvis)
        if len(mmslist) > 0:
            if (vis[0] == mmslist[0]):
                casalog.post(
                    '*** The first input MS is a multi-MS to which no row can be added. Cannot proceed.',
                    'WARN')
                casalog.post(
                    '*** Please use virtualconcat or convert the first input MS to a normal MS using split.',
                    'WARN')
                raise Exception, 'Cannot append to a multi-MS. Please use virtualconcat.'

            casalog.post(
                '*** The following input measurement sets are multi-MSs',
                'INFO')
            for mname in mmslist:
                casalog.post('***   ' + mname, 'INFO')
            casalog.post(
                '*** Use virtualconcat to produce a single multi-MS from several multi-MSs.',
                'INFO')

        doweightscale = False
        if (len(visweightscale) > 0):
            if (len(visweightscale) != len(vis)):
                raise Exception, 'parameter visweightscale must have same number of elements as parameter vis'
            for factor in visweightscale:
                if factor < 0.:
                    raise Exception, 'parameter visweightscale must only contain positive numbers'
                elif factor != 1.:
                    doweightscale = True

        # process the input MSs in chronological order
        sortedvis = []
        sortedvisweightscale = []
        namestuples = []
        for name in vis:
            t.open(name)
            times = t.getcol('TIME')
            t.close()
            times.sort()
            if doweightscale:
                namestuples.append(
                    (times[0], name, visweightscale[vis.index(name)]))
            else:
                namestuples.append((times[0], name, 0))

        sorted_namestuples = sorted(namestuples, key=lambda msname: msname[0])

        for i in range(0, len(vis)):
            sortedvis.append(sorted_namestuples[i][1])
            sortedvisweightscale.append(sorted_namestuples[i][2])

        if ((type(concatvis) != str) or (len(concatvis.split()) < 1)):
            raise Exception, 'parameter concatvis is invalid'

        existingconcatvis = False
        if (vis.count(concatvis) > 0):
            existingconcatvis = True
            cvisindex = sortedvis.index(concatvis)
            if not sorted_namestuples[cvisindex][0] == sorted_namestuples[0][0]:
                raise Exception, 'If concatvis is set to the name of an existing MS in vis, it must be the chronologically first.'+\
                      '\n I.e. in this case you should set concatvis to '+sortedvis[0]
            sortedvis.pop(cvisindex)
            if doweightscale:
                vwscale = sortedvisweightscale[cvisindex]
                sortedvisweightscale.pop(cvisindex)
                sortedvisweightscale = [
                    vwscale
                ] + sortedvisweightscale  # move the corresponding weight to the front

        if not vis == sortedvis:
            casalog.post(
                'The list of input MSs is not in chronological order and will need to be sorted.',
                'INFO')
            casalog.post(
                'The chronological order in which the concatenation will take place is:',
                'INFO')
            if existingconcatvis:
                casalog.post(
                    '   MJD ' + str(
                        qa.splitdate(qa.quantity(sorted_namestuples[0][0],
                                                 's'))['mjd']) + ': ' +
                    concatvis, 'INFO')
            for name in sortedvis:
                casalog.post(
                    '   MJD ' + str(
                        qa.splitdate(
                            qa.quantity(
                                sorted_namestuples[sortedvis.index(name)][0],
                                's'))['mjd']) + ': ' + name, 'INFO')
            if doweightscale:
                casalog.post(
                    'In this new order, the weights are:' +
                    str(sortedvisweightscale), 'INFO')

        # replace the original vis and visweightscale by the sorted ones (with concatvis removed if it exists)
        vis = sortedvis
        visweightscale = sortedvisweightscale

        if (os.path.exists(concatvis)):
            casalog.post(
                'Will be concatenating into the existing ms ' + concatvis,
                'WARN')
            if doweightscale and not existingconcatvis:
                visweightscale = [
                    1.
                ] + visweightscale  # set the weight for this existing MS to 1.
                casalog.post(
                    'The weights for this existing MS will be left unchanged.',
                    'WARN')
        else:
            if (len(vis) >
                    0):  # (note: in case len is 1, we only copy, essentially)
                casalog.post('copying ' + vis[0] + ' to ' + theconcatvis,
                             'INFO')
                shutil.copytree(vis[0], theconcatvis)
                # note that the resulting copy is writable even if the original was read-only
                vis.pop(0)
                # don't need to pop visweightscale here!

        if not copypointing:  # remove the rows from the POINTING table of the first MS
            casalog.post(
                '*** copypointing==False: resulting MS will have empty POINTING table.',
                'INFO')
            tmptabname = 'TMPPOINTING' + str(time.time())
            shutil.rmtree(tmptabname, ignore_errors=True)
            shutil.move(theconcatvis + '/POINTING', tmptabname)
            t.open(tmptabname)
            if (t.nrows() > 0):
                ttab = t.copy(newtablename=theconcatvis + '/POINTING',
                              deep=False,
                              valuecopy=True,
                              norows=True)
                ttab.close()
                t.close()
                shutil.rmtree(tmptabname, ignore_errors=True)
            else:  # the POINTING table is already empty
                casalog.post('***    Input POINTING table was already empty.',
                             'INFO')
                shutil.move(tmptabname, theconcatvis + '/POINTING')
                t.close()

        # Determine if scratch columns should be considered at all
        # by checking if any of the MSs has them.

        considerscrcols = False
        considercorr = False
        considermodel = False
        needscrcols = []
        needmodel = []
        needcorr = []
        if ((type(theconcatvis) == str) and (os.path.exists(theconcatvis))):

            # check if all scratch columns are present
            t.open(theconcatvis)
            if (t.colnames().count('MODEL_DATA') == 1):
                considermodel = True
            if (t.colnames().count('CORRECTED_DATA') == 1):
                considercorr = True

            needscrcols.append(t.colnames().count('CORRECTED_DATA') == 0
                               or t.colnames().count('MODEL_DATA') == 0)
            needmodel.append(t.colnames().count('MODEL_DATA') == 0)
            needcorr.append(t.colnames().count('CORRECTED_DATA') == 0)
            t.close()
        else:
            raise Exception, 'Visibility data set ' + theconcatvis + ' not found - please verify the name'

        for elvis in vis:  ###Oh no Elvis does not exist Mr Bill
            if (not os.path.exists(elvis)):
                raise Exception, 'Visibility data set ' + elvis + ' not found - please verify the name'

            # check if all scratch columns are present
            t.open(elvis)
            if (t.colnames().count('MODEL_DATA') == 1):
                considermodel = True
            if (t.colnames().count('CORRECTED_DATA') == 1):
                considercorr = True

            needscrcols.append(t.colnames().count('CORRECTED_DATA') == 0
                               or t.colnames().count('MODEL_DATA') == 0)
            needmodel.append(t.colnames().count('MODEL_DATA') == 0)
            needcorr.append(t.colnames().count('CORRECTED_DATA') == 0)
            t.close()

        considerscrcols = (considercorr
                           or considermodel)  # there are scratch columns

        # start actual work, file existence has already been checked
        i = 0
        if (considerscrcols and needscrcols[i]):
            # create scratch cols
            casalog.post('creating scratch columns in ' + theconcatvis, 'INFO')
            cb.open(theconcatvis,
                    addcorr=(considercorr and needcorr[i]),
                    addmodel=(considermodel and needmodel[i]
                              ))  # calibrator-open creates scratch columns
            cb.close()

        # scale the weights and sigma of the first MS in the chain
        if doweightscale:
            wscale = visweightscale[i]
            if (wscale == 1.):
                casalog.post('Will leave the weights for this MS unchanged.',
                             'INFO')
            else:
                casalog.post(
                    'Scaling weights for first MS by factor ' + str(wscale),
                    'INFO')
                t.open(theconcatvis, nomodify=False)
                for colname in ['WEIGHT', 'WEIGHT_SPECTRUM']:
                    if (colname in t.colnames()) and (t.iscelldefined(
                            colname, 0)):
                        for j in xrange(0, t.nrows()):
                            a = t.getcell(colname, j)
                            a *= wscale
                            t.putcell(colname, j, a)
                for colname in ['SIGMA']:
                    if (wscale > 0.
                            and colname in t.colnames()) and (t.iscelldefined(
                                colname, 0)):
                        sscale = 1. / sqrt(wscale)
                        for j in xrange(0, t.nrows()):
                            a = t.getcell(colname, j)
                            a *= sscale
                            t.putcell(colname, j, a)
                t.close()

        # determine handling switch value
        handlingswitch = 0
        if not copypointing:
            handlingswitch = 2

        m.open(theconcatvis, nomodify=False)
        mmsmembers = [theconcatvis]

        for elvis in vis:
            i = i + 1
            destms = ""
            casalog.post('concatenating ' + elvis + ' into ' + theconcatvis,
                         'INFO')

            wscale = 1.
            if doweightscale:
                wscale = visweightscale[i]
                if (wscale == 1.):
                    casalog.post(
                        'Will leave the weights for this MS unchanged.',
                        'INFO')
                else:
                    casalog.post(
                        'Will scale weights for this MS by factor ' +
                        str(wscale), 'INFO')

            if (considerscrcols and needscrcols[i]):
                if (ParallelTaskHelper.isParallelMS(elvis)):
                    raise Exception, 'Cannot create scratch columns in a multi-MS. Use virtualconcat.'
                else:
                    # create scratch cols
                    casalog.post(
                        'creating scratch columns for ' + elvis +
                        ' (original MS unchanged)', 'INFO')
                    tempname = elvis + '_with_scrcols'
                    shutil.rmtree(tempname, ignore_errors=True)
                    shutil.copytree(elvis, tempname)
                    cb.open(
                        tempname,
                        addcorr=(considercorr and needcorr[i]),
                        addmodel=(considermodel and needmodel[i]
                                  ))  # calibrator-open creates scratch columns
                    cb.close()
                    # concatenate copy instead of original file
                    m.concatenate(msfile=tempname,
                                  freqtol=freqtol,
                                  dirtol=dirtol,
                                  respectname=respectname,
                                  weightscale=wscale,
                                  handling=handlingswitch,
                                  destmsfile=destms)
                    shutil.rmtree(tempname, ignore_errors=True)
            else:
                m.concatenate(msfile=elvis,
                              freqtol=freqtol,
                              dirtol=dirtol,
                              respectname=respectname,
                              weightscale=wscale,
                              handling=handlingswitch,
                              destmsfile=destms)

        if timesort:
            casalog.post('Sorting main table by TIME ...', 'INFO')
            m.timesort()

        m.writehistory(message='taskname=concat', origin='concat')
        m.writehistory(message='vis          = "' + str(vis) + '"',
                       origin='concat')
        m.writehistory(message='concatvis    = "' + str(concatvis) + '"',
                       origin='concat')
        m.writehistory(message='freqtol      = "' + str(freqtol) + '"',
                       origin='concat')
        m.writehistory(message='dirtol       = "' + str(dirtol) + '"',
                       origin='concat')
        m.writehistory(message='respectname  = "' + str(respectname) + '"',
                       origin='concat')
        m.writehistory(message='copypointing = "' + str(copypointing) + '"',
                       origin='concat')
        m.writehistory(message='visweightscale = "' + str(visweightscale) +
                       '"',
                       origin='concat')

        m.close()

        return True

    except Exception, instance:
        print '*** Error ***', instance
        raise Exception, instance
Esempio n. 28
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def virtualconcat(vislist,concatvis,freqtol,dirtol,respectname,
		  visweightscale,keepcopy,copypointing):
	"""
	Concatenate visibility data sets creating a multi-MS.
	
	Combine the input datasets into a multi-MS.
	NOTE: The input datasets are moved into the multi-MS and may be modified
	to account for subtable reference changes.
	If none of the input MSs have any scratch columns, none are created.
	Otherwise scratch columns are created and initialized in those MSs
	which don't have a complete set.


	Keyword arguments:
	vis -- Name of input visibility files (MS)
		default: none; example: vis=['ngc5921-1.ms', 'ngc5921-2.ms']
	concatvis -- Name of the output visibility file
		default: none; example: concatvis='src2.ms'
	freqtol -- Frequency shift tolerance for considering data as the same spwid
		default: ''  means always combine
		example: freqtol='10MHz' will not combine spwid unless they are
		within 10 MHz
	dirtol -- Direction shift tolerance for considering data as the same field
		default: ;; means always combine
		example: dirtol='1.arcsec' will not combine data for a field unless
		their phase center is less than 1 arcsec.
	respectname -- If true, fields with a different name are not merged even if their 
                direction agrees (within dirtol)
                default: True
	visweightscale -- list of the weight scales to be applied to the individual MSs
	        default: [] (don't modify weights, equivalent to setting scale to 1 for each MS)
        keepcopy -- If true, a copy of the input MSs is kept in their original place.
                default: false
	copypointing --  If true, the POINTING table information will be present in the output.
                If false, the result is an empty POINTING table.
                default: True

	"""

        ###
	#Python script

	tempdir = ''
	originalvis = vislist
	try:
		casalog.origin('virtualconcat')
		t = tbtool()
		m = mstool()
		
		#break the reference between vis and vislist as we modify vis
		if(type(vislist)==str):
			vis=[vislist]
		else:
			vis=list(vislist)
		#dto. for concavis
		theconcatvis = concatvis

		doweightscale = False
		if(len(visweightscale)>0):
			if (len(visweightscale) != len(vis)):
				raise Exception, 'parameter visweightscale must have same number of elements as parameter vis'
			for factor in visweightscale:
				if factor<0.:
					raise Exception, 'parameter visweightscale must only contain positive numbers'
				elif factor!=1.:
					doweightscale=True
					
		if((type(concatvis)!=str) or (len(concatvis.split()) < 1)):
			raise Exception, 'Parameter concatvis is invalid.'

		if(vis.count(concatvis) > 0):
			raise Exception, 'Parameter concatvis must not be equal to one of the members of parameter vis.'

		if(os.path.exists(concatvis)):
			raise Exception, 'The output MMS must not yet exist.'

		# process the input MSs in chronological order
		sortedvis = []
		sortedvisweightscale = []
		namestuples = []
		for name in vis:
			t.open(name)
			times = t.getcol('TIME')
			t.close()
			times.sort()
			if doweightscale:
				namestuples.append( (times[0], name, visweightscale[vis.index(name)]) )
			else:
				namestuples.append( (times[0], name, 0) )

		sorted_namestuples = sorted(namestuples, key=lambda msname: msname[0]) 
    
		for i in range(0,len(vis)):
			sortedvis.append(sorted_namestuples[i][1])
			sortedvisweightscale.append(sorted_namestuples[i][2])

		if not vis == sortedvis:
			casalog.post('The list of input MSs is not in chronological order and will need to be sorted.' , 'INFO')
			casalog.post('The chronological order in which the concatenation will take place is:' , 'INFO')
			for name in sortedvis:
				casalog.post('   MJD '+str(qa.splitdate(qa.quantity(sorted_namestuples[sortedvis.index(name)][0],'s'))['mjd'])+': '+name, 'INFO')
			if doweightscale:
				casalog.post('In this new order, the weights are:'+str(sortedvisweightscale) , 'INFO')

		# replace the original vis and visweightscale by the sorted ones (with concatvis removed if it exists)
		vis = sortedvis
		visweightscale = sortedvisweightscale

		# if there are MMSs among the input, make their constituents the new input
		mmslist = []
		ismaster = []
		for elvis in vis:
			ismaster.append(True) # may be revised later
			if(ParallelTaskHelper.isParallelMS(elvis)):
				mmslist.append(elvis)
		if len(mmslist)>0:
			casalog.post('*** The following input measurement sets are multi-MSs', 'INFO')
			for mname in mmslist:
				casalog.post('***   '+mname, 'INFO')
			oldvis = vis
			oldvisweightscale = visweightscale
			vis = []
			visweightscale = []
			ismaster = [] # reset ismaster
			i = 0
			for elvis in oldvis:
				if elvis in mmslist: # append the subMSs individually
					m.open(elvis)
					mses = m.getreferencedtables()
					m.close()
					mses.sort()
					mastername = os.path.basename(os.path.dirname(os.path.realpath(elvis+'/ANTENNA')))
					for mname in mses:
						#print 'subms: ', mname
						vis.append(mname)
						if doweightscale:
							visweightscale.append(oldvisweightscale[i])
						if os.path.basename(mname) == mastername:
							ismaster.append(True)
						else:
							ismaster.append(False)
				else:
					vis.append(elvis)
					if doweightscale:
						visweightscale.append(oldvisweightscale[i])
					ismaster.append(True)
				i += 1



		if keepcopy:
			casalog.post('*** keepcopy==True: creating copy of input MSs to keep ...' , 'INFO')
			tempdir = 'concat_tmp_'+str(time.time())
			os.mkdir(tempdir)
			for elvis in originalvis:
				shutil.move(elvis,tempdir) # keep timestamps and permissions
				shutil.copytree(tempdir+'/'+elvis, elvis, True) # symlinks=True

		casalog.post('Concatenating ...' , 'INFO')

		if not copypointing: # delete the rows of all pointing tables
			casalog.post('*** copypointing==False: resulting MMS will have empty POINTING table.', 'INFO')
			tmptabname = 'TMPPOINTING'+str(time.time())
			tmptabname2 = 'TMPPOINTING2'+str(time.time())
			shutil.rmtree(tmptabname, ignore_errors=True)
			shutil.rmtree(tmptabname2, ignore_errors=True)
			shutil.move(vis[0]+'/POINTING', tmptabname)
			t.open(tmptabname)
			if(t.nrows()>0): 
				ttab = t.copy(newtablename=tmptabname2, deep=False, valuecopy=True, norows=True)
				ttab.close()
				t.close()
				shutil.rmtree(tmptabname, ignore_errors=True)
			else: # the POINTING table is already empty
				t.close()
				casalog.post('***    Input POINTING table was already empty.', 'INFO')
				shutil.move(tmptabname, tmptabname2)
				
			for i in range(len(vis)): # replace the POINTING tables by the empty one
				os.system('rm -rf '+vis[i]+'/POINTING')
				shutil.copytree(tmptabname2, vis[i]+'/POINTING')
			shutil.rmtree(tmptabname2, ignore_errors=True)
					
		if(len(vis) >0): # (note: in case len is 1, we only copy, essentially)
			theconcatvis = vis[0]
			if(len(vis)==1):
				shutil.copytree(vis[0], concatvis, True)
			vis.remove(vis[0])

		# Determine if scratch columns should be considered at all
		# by checking if any of the MSs has them.
		
		considerscrcols = False
		needscrcols = []
                if ((type(theconcatvis)==str) and (os.path.exists(theconcatvis))):
			
			# check if all scratch columns are present
			t.open(theconcatvis)
			if(t.colnames().count('CORRECTED_DATA')==1 
			   or  t.colnames().count('MODEL_DATA')==1):
				considerscrcols = True  # there are scratch columns
				
			needscrcols.append(t.colnames().count('CORRECTED_DATA')==0 
					   or  t.colnames().count('MODEL_DATA')==0)
			t.close()
                else:
                        raise Exception, 'Visibility data set '+theconcatvis+' not found - please verify the name'

		for elvis in vis : 			###Oh no Elvis does not exist Mr Bill
			if(not os.path.exists(elvis)):
				raise Exception, 'Visibility data set '+elvis+' not found - please verify the name'

			# check if all scratch columns are present
			t.open(elvis)
			if(t.colnames().count('CORRECTED_DATA')==1 
                           or  t.colnames().count('MODEL_DATA')==1):
				considerscrcols = True  # there are scratch columns

			needscrcols.append(t.colnames().count('CORRECTED_DATA')==0 
					  or  t.colnames().count('MODEL_DATA')==0)
			t.close()

		# start actual work, file existence has already been checked

		if(considerscrcols and needscrcols[0]):
			# create scratch cols			
			casalog.post('creating scratch columns in '+theconcatvis , 'INFO')
			cb.open(theconcatvis) # calibrator-open creates scratch columns
			cb.close()

		# scale the weights of the first MS in the chain
		if doweightscale:
			wscale = visweightscale[0]
			if(wscale==1.):
				casalog.post('Will leave the weights for this MS unchanged.', 'INFO')
			else:
				casalog.post('Scaling weights for first MS by factor '+str(wscale), 'INFO')
				t.open(theconcatvis, nomodify=False)
				for colname in [ 'WEIGHT', 'WEIGHT_SPECTRUM']:
					if (colname in t.colnames()) and (t.iscelldefined(colname,0)):
						for j in xrange(0,t.nrows()):
							a = t.getcell(colname, j)
							a *= wscale
							t.putcell(colname, j, a)
				t.close()

		m.open(theconcatvis,nomodify=False)
		mmsmembers = [theconcatvis]
	
		auxfile = 'concat_aux_'+str(time.time())

		i = 0
		for elvis in vis : 
			i = i + 1

			mmsmembers.append(elvis)
			casalog.post('adding '+elvis+' to multi-MS '+concatvis, 'INFO')

			wscale = 1.
			if doweightscale:
				wscale = visweightscale[i]
				if(wscale==1.):
					casalog.post('Will leave the weights for this MS unchanged.', 'INFO')
				else:
					casalog.post('Will scale weights for this MS by factor '+str(wscale) , 'INFO')

			if(considerscrcols and needscrcols[i]):
				# create scratch cols			
				casalog.post('creating scratch columns for '+elvis, 'INFO')
				cb.open(elvis) # calibrator-open creates scratch columns
				cb.close()
				
			m.virtconcatenate(msfile=elvis,
					  auxfilename=auxfile,
					  freqtol=freqtol,dirtol=dirtol,respectname=respectname,
					  weightscale=wscale)
		#end for
		os.remove(auxfile)

		m.writehistory(message='taskname=virtualconcat',origin='virtualconcat')
		m.writehistory(message='vis          = "'+str(vis)+'"',origin='virtualconcat')
		m.writehistory(message='concatvis    = "'+str(concatvis)+'"',origin='virtualconcat')
		m.writehistory(message='freqtol      = "'+str(freqtol)+'"',origin='virtualconcat')
		m.writehistory(message='dirtol       = "'+str(dirtol)+'"',origin='virtualconcat')
		m.writehistory(message='respectname  = "'+str(respectname)+'"',origin='virtualconcat')
		m.writehistory(message='visweightscale = "'+str(visweightscale)+'"',origin='virtualconcat')

		m.close()

		# concatenate the POINTING tables
		masterptable = mmsmembers[0]+'/POINTING'
		ptablemembers = []
		if os.path.exists(masterptable) and copypointing:
			casalog.post('Concatenating the POINTING tables ...', 'INFO')
			i = 0
			for i in xrange(len(mmsmembers)):
				ptable = mmsmembers[i]+'/POINTING'
				if ismaster[i] and os.path.exists(ptable):
					casalog.post('   '+ptable, 'INFO')
					shutil.move(ptable, ptable+str(i))
					ptablemembers.append(ptable+str(i))
			#end for
			t.createmultitable(masterptable, ptablemembers, 'SUBTBS')
		# endif

	 	ph.makeMMS(concatvis, mmsmembers,
 			   True, # copy subtables from first to all other members 
 			   ['POINTING', 'SYSCAL', 'SYSPOWER']) # excluding tables which will be linked

		# remove the remaining "hulls" of the emptied input MMSs (if there are any)
		for elvis in mmslist:
			shutil.rmtree(elvis)
		
		if keepcopy:
			for elvis in originalvis:
				shutil.move(tempdir+'/'+elvis, elvis)
			os.rmdir(tempdir)

	except Exception, instance:
		print '*** Error ***',instance
		if keepcopy and tempdir!='':
			print "Restoring original MSs ..."
			for elvis in originalvis:
				if os.path.exists(tempdir+'/'+elvis):
					shutil.rmtree(elvis)
					shutil.move(tempdir+'/'+elvis, elvis)
			os.rmdir(tempdir)
		raise Exception, instance
Esempio n. 29
0
def virtualconcat(vislist, concatvis, freqtol, dirtol, respectname,
                  visweightscale, keepcopy, copypointing):
    """
    Concatenate visibility data sets creating a Multi-MS.
    
    Combine the input datasets into a Multi-MS.
    NOTE: The input datasets are moved into the Multi-MS and may be modified
    to account for subtable reference changes.
    If none of the input MSs have any scratch columns, none are created.
    Otherwise scratch columns are created and initialized in those MSs
    which don't have a complete set.


    Keyword arguments:
    vis -- Name of input visibility files (MS)
        default: none; example: vis=['ngc5921-1.ms', 'ngc5921-2.ms']
    concatvis -- Name of the output visibility file
        default: none; example: concatvis='src2.ms'
    freqtol -- Frequency shift tolerance for considering data as the same spwid
        default: ''  means always combine
        example: freqtol='10MHz' will not combine spwid unless they are
        within 10 MHz
    dirtol -- Direction shift tolerance for considering data as the same field
        default: ;; means always combine
        example: dirtol='1.arcsec' will not combine data for a field unless
        their phase center is less than 1 arcsec.
    respectname -- If true, fields with a different name are not merged even if their 
                direction agrees (within dirtol)
                default: True
    visweightscale -- list of the weight scales to be applied to the individual MSs
            default: [] (don't modify weights, equivalent to setting scale to 1 for each MS)
        keepcopy -- If true, a copy of the input MSs is kept in their original place.
                default: false
    copypointing --  If true, the POINTING table information will be present in the output.
                If false, the result is an empty POINTING table.
                default: True

    """

    ###
    #Python script

    tempdir = ''
    originalvis = vislist
    try:
        casalog.origin('virtualconcat')
        t = tbtool()
        m = mstool()

        #break the reference between vis and vislist as we modify vis
        if (type(vislist) == str):
            vis = [vislist]
        else:
            vis = list(vislist)
        #dto. for concavis
        theconcatvis = concatvis

        doweightscale = False
        if (len(visweightscale) > 0):
            if (len(visweightscale) != len(vis)):
                raise Exception, 'parameter visweightscale must have same number of elements as parameter vis'
            for factor in visweightscale:
                if factor < 0.:
                    raise Exception, 'parameter visweightscale must only contain positive numbers'
                elif factor != 1.:
                    doweightscale = True

        if ((type(concatvis) != str) or (len(concatvis.split()) < 1)):
            raise Exception, 'Parameter concatvis is invalid.'

        if (vis.count(concatvis) > 0):
            raise Exception, 'Parameter concatvis must not be equal to one of the members of parameter vis.'

        if (os.path.exists(concatvis)):
            raise Exception, 'The output MMS must not yet exist.'

        # process the input MSs in chronological order
        sortedvis = []
        sortedvisweightscale = []
        namestuples = []
        for name in vis:
            t.open(name)
            times = t.getcol('TIME')
            t.close()
            times.sort()
            if doweightscale:
                namestuples.append(
                    (times[0], name, visweightscale[vis.index(name)]))
            else:
                namestuples.append((times[0], name, 0))

        sorted_namestuples = sorted(namestuples, key=lambda msname: msname[0])

        for i in range(0, len(vis)):
            sortedvis.append(sorted_namestuples[i][1])
            sortedvisweightscale.append(sorted_namestuples[i][2])

        if not vis == sortedvis:
            casalog.post(
                'The list of input MSs is not in chronological order and will need to be sorted.',
                'INFO')
            casalog.post(
                'The chronological order in which the concatenation will take place is:',
                'INFO')
            for name in sortedvis:
                casalog.post(
                    '   MJD ' + str(
                        qa.splitdate(
                            qa.quantity(
                                sorted_namestuples[sortedvis.index(name)][0],
                                's'))['mjd']) + ': ' + name, 'INFO')
            if doweightscale:
                casalog.post(
                    'In this new order, the weights are:' +
                    str(sortedvisweightscale), 'INFO')

        # replace the original vis and visweightscale by the sorted ones (with concatvis removed if it exists)
        vis = sortedvis
        visweightscale = sortedvisweightscale

        # if there are MMSs among the input, make their constituents the new input
        mmslist = []
        ismaster = []
        for elvis in vis:
            ismaster.append(True)  # may be revised later
            if (ParallelTaskHelper.isParallelMS(elvis)):
                mmslist.append(elvis)
        if len(mmslist) > 0:
            casalog.post(
                '*** The following input measurement sets are multi-MSs',
                'INFO')
            for mname in mmslist:
                casalog.post('***   ' + mname, 'INFO')
            oldvis = vis
            oldvisweightscale = visweightscale
            vis = []
            visweightscale = []
            ismaster = []  # reset ismaster
            i = 0
            for elvis in oldvis:
                if elvis in mmslist:  # append the subMSs individually
                    m.open(elvis)
                    mses = m.getreferencedtables()
                    m.close()
                    mses.sort()
                    mastername = os.path.basename(
                        os.path.dirname(os.path.realpath(elvis + '/ANTENNA')))
                    for mname in mses:
                        #print 'subms: ', mname
                        vis.append(mname)
                        if doweightscale:
                            visweightscale.append(oldvisweightscale[i])
                        if os.path.basename(mname) == mastername:
                            ismaster.append(True)
                        else:
                            ismaster.append(False)
                else:
                    vis.append(elvis)
                    if doweightscale:
                        visweightscale.append(oldvisweightscale[i])
                    ismaster.append(True)
                i += 1

        if keepcopy:
            casalog.post(
                '*** keepcopy==True: creating copy of input MSs to keep ...',
                'INFO')
            tempdir = 'concat_tmp_' + str(time.time())
            os.mkdir(tempdir)
            for elvis in originalvis:
                shutil.move(elvis, tempdir)  # keep timestamps and permissions
                shutil.copytree(tempdir + '/' + elvis, elvis,
                                True)  # symlinks=True

        casalog.post('Concatenating ...', 'INFO')

        if not copypointing:  # delete the rows of all pointing tables
            casalog.post(
                '*** copypointing==False: resulting MMS will have empty POINTING table.',
                'INFO')
            tmptabname = 'TMPPOINTING' + str(time.time())
            tmptabname2 = 'TMPPOINTING2' + str(time.time())
            shutil.rmtree(tmptabname, ignore_errors=True)
            shutil.rmtree(tmptabname2, ignore_errors=True)
            shutil.move(vis[0] + '/POINTING', tmptabname)
            t.open(tmptabname)
            if (t.nrows() > 0):
                ttab = t.copy(newtablename=tmptabname2,
                              deep=False,
                              valuecopy=True,
                              norows=True)
                ttab.close()
                t.close()
                shutil.rmtree(tmptabname, ignore_errors=True)
            else:  # the POINTING table is already empty
                t.close()
                casalog.post('***    Input POINTING table was already empty.',
                             'INFO')
                shutil.move(tmptabname, tmptabname2)

            for i in range(
                    len(vis)):  # replace the POINTING tables by the empty one
                os.system('rm -rf ' + vis[i] + '/POINTING')
                shutil.copytree(tmptabname2, vis[i] + '/POINTING')
            shutil.rmtree(tmptabname2, ignore_errors=True)

        if (len(vis) >
                0):  # (note: in case len is 1, we only copy, essentially)
            theconcatvis = vis[0]
            if (len(vis) == 1):
                shutil.copytree(vis[0], concatvis, True)
            vis.remove(vis[0])

        # Determine if scratch columns should be considered at all
        # by checking if any of the MSs has them.

        considerscrcols = False
        needscrcols = []
        if ((type(theconcatvis) == str) and (os.path.exists(theconcatvis))):
            # check if all scratch columns are present
            t.open(theconcatvis)
            if (t.colnames().count('CORRECTED_DATA') == 1
                    or t.colnames().count('MODEL_DATA') == 1):
                considerscrcols = True  # there are scratch columns

            needscrcols.append(t.colnames().count('CORRECTED_DATA') == 0
                               or t.colnames().count('MODEL_DATA') == 0)
            t.close()
        else:
            raise Exception, 'Visibility data set ' + theconcatvis + ' not found - please verify the name'

        for elvis in vis:  ###Oh no Elvis does not exist Mr Bill
            if (not os.path.exists(elvis)):
                raise Exception, 'Visibility data set ' + elvis + ' not found - please verify the name'

            # check if all scratch columns are present
            t.open(elvis)
            if (t.colnames().count('CORRECTED_DATA') == 1
                    or t.colnames().count('MODEL_DATA') == 1):
                considerscrcols = True  # there are scratch columns

            needscrcols.append(t.colnames().count('CORRECTED_DATA') == 0
                               or t.colnames().count('MODEL_DATA') == 0)
            t.close()

        # start actual work, file existence has already been checked

        if (considerscrcols and needscrcols[0]):
            # create scratch cols
            casalog.post('creating scratch columns in ' + theconcatvis, 'INFO')
            _cb.open(theconcatvis)  # calibrator-open creates scratch columns
            _cb.close()

        # scale the weights of the first MS in the chain
        if doweightscale:
            wscale = visweightscale[0]
            if (wscale == 1.):
                casalog.post('Will leave the weights for this MS unchanged.',
                             'INFO')
            else:
                casalog.post(
                    'Scaling weights for first MS by factor ' + str(wscale),
                    'INFO')
                t.open(theconcatvis, nomodify=False)
                for colname in ['WEIGHT', 'WEIGHT_SPECTRUM']:
                    if (colname in t.colnames()) and (t.iscelldefined(
                            colname, 0)):
                        for j in xrange(0, t.nrows()):
                            a = t.getcell(colname, j)
                            a *= wscale
                            t.putcell(colname, j, a)
                t.close()

        m.open(theconcatvis, nomodify=False)
        mmsmembers = [theconcatvis]

        auxfile = 'concat_aux_' + str(time.time())

        i = 0
        for elvis in vis:
            i = i + 1

            mmsmembers.append(elvis)
            casalog.post('adding ' + elvis + ' to multi-MS ' + concatvis,
                         'INFO')

            wscale = 1.
            if doweightscale:
                wscale = visweightscale[i]
                if (wscale == 1.):
                    casalog.post(
                        'Will leave the weights for this MS unchanged.',
                        'INFO')
                else:
                    casalog.post(
                        'Will scale weights for this MS by factor ' +
                        str(wscale), 'INFO')

            if (considerscrcols and needscrcols[i]):
                # create scratch cols
                casalog.post('creating scratch columns for ' + elvis, 'INFO')
                _cb.open(elvis)  # calibrator-open creates scratch columns
                _cb.close()

            m.virtconcatenate(msfile=elvis,
                              auxfilename=auxfile,
                              freqtol=freqtol,
                              dirtol=dirtol,
                              respectname=respectname,
                              weightscale=wscale)
        #end for
        os.remove(auxfile)

        m.writehistory(message='taskname=virtualconcat',
                       origin='virtualconcat')
        m.writehistory(message='vis          = "' + str(vis) + '"',
                       origin='virtualconcat')
        m.writehistory(message='concatvis    = "' + str(concatvis) + '"',
                       origin='virtualconcat')
        m.writehistory(message='freqtol      = "' + str(freqtol) + '"',
                       origin='virtualconcat')
        m.writehistory(message='dirtol       = "' + str(dirtol) + '"',
                       origin='virtualconcat')
        m.writehistory(message='respectname  = "' + str(respectname) + '"',
                       origin='virtualconcat')
        m.writehistory(message='visweightscale = "' + str(visweightscale) +
                       '"',
                       origin='virtualconcat')

        m.close()

        # concatenate the POINTING tables
        masterptable = mmsmembers[0] + '/POINTING'
        ptablemembers = []
        if os.path.exists(masterptable) and copypointing:
            casalog.post('Concatenating the POINTING tables ...', 'INFO')
            i = 0
            for i in xrange(len(mmsmembers)):
                ptable = mmsmembers[i] + '/POINTING'
                if ismaster[i] and os.path.exists(ptable):
                    casalog.post('   ' + ptable, 'INFO')
                    shutil.move(ptable, ptable + str(i))
                    ptablemembers.append(ptable + str(i))
            #end for
            t.createmultitable(masterptable, ptablemembers, 'SUBTBS')
        # endif

        # Get all available subtables
        thesubtables = ph.getSubtables(mmsmembers[0])

        # Remove the SOURCE and HISTORY tables, which will be the only copied.
        # All other sub-tables will be linked to first subms
        thesubtables.remove('SOURCE')
        thesubtables.remove('HISTORY')
        subtabs_to_omit = thesubtables

        ph.makeMMS(
            concatvis,
            mmsmembers,
            True,  # copy subtables from first to all other members 
            subtabs_to_omit)  # excluding tables which will be linked

        # remove the remaining "hulls" of the emptied input MMSs (if there are any)
        for elvis in mmslist:
            shutil.rmtree(elvis)

        if keepcopy:
            for elvis in originalvis:
                shutil.move(tempdir + '/' + elvis, elvis)
            os.rmdir(tempdir)

    except Exception, instance:
        print '*** Error ***', instance
        if keepcopy and tempdir != '':
            print "Restoring original MSs ..."
            for elvis in originalvis:
                if os.path.exists(tempdir + '/' + elvis):
                    shutil.rmtree(elvis)
                    shutil.move(tempdir + '/' + elvis, elvis)
            os.rmdir(tempdir)
        raise Exception, instance
Esempio n. 30
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 def test_mpi4casa_flagdata_list_return_async(self):
     """Test flagdata summary in async mode"""
     
     # First run flagdata sequentially
     bypassParallelProcessing = ParallelTaskHelper.getBypassParallelProcessing()
     ParallelTaskHelper.bypassParallelProcessing(2)
     res = flagdata(vis=self.vis, mode='summary')
     ParallelTaskHelper.bypassParallelProcessing(bypassParallelProcessing)
     
     # Make a copy of the input MMS for each flagdata instance
     os.system("cp -r %s %s" % (self.vis,self.vis2))
     os.system("cp -r %s %s" % (self.vis,self.vis3))
     
     # Set async mode in ParallelTaskHelper
     ParallelTaskHelper.setAsyncMode(True)
     
     # Run applycal in MMS mode with the first set
     request_id_1 = flagdata(vis=self.vis, mode='summary')    
     
     # Run applycal in MMS mode with the second set
     request_id_2 = flagdata(vis=self.vis2, mode='summary')
     
     # Run applycal in MMS mode with the third set
     request_id_3 = flagdata(vis=self.vis3, mode='summary')
     
     # Get response in block mode
     reques_id_list = request_id_1 + request_id_2 + request_id_3
     command_response_list = self.client.get_command_response(reques_id_list,True,True)        
     
     # Get result
     res1 = ParallelTaskHelper.getResult(request_id_1,'flagdata')
     res2 = ParallelTaskHelper.getResult(request_id_2,'flagdata')
     res3 = ParallelTaskHelper.getResult(request_id_3,'flagdata')   
     
     # Unset async mode in ParallelTaskHelper
     ParallelTaskHelper.setAsyncMode(False)         
     
     self.assertEqual(res1,res, "flagdata dictionary does not match for the first flagdata run")
     self.assertEqual(res2,res, "flagdata dictionary does not match for the second flagdata run")
     self.assertEqual(res3,res, "flagdata dictionary does not match for the third flagdata run")       
Esempio n. 31
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            imt = imtool()
            imt.open(vis, usescratch=False)
            imt.calcuvw(fldids, refcode='J2000', reuse=False)
            imt.close()
            imt = None

            if ((oldrefcol != []) and (thenewref > 0)):
                tbt.open(vis + '/FIELD', nomodify=False)
                tbt.putcol('PhaseDir_Ref', oldrefcol)
                tbt.close()

        else:
            casalog.post("UVW coordinates not changed.", 'NORMAL')

        if (ParallelTaskHelper.isParallelMS(vis)):
            casalog.post("Tidying up the MMS subtables ...", 'NORMAL')
            ParallelTaskHelper.restoreSubtableAgreement(vis)

        mst = None
        tbt = None

        return True

    except Exception, instance:
        mst = None
        tbt = None
        imt = None
        casalog.post("*** Error \'%s\' " % (instance), 'SEVERE')
        return False
Esempio n. 32
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class test_simplecluster(unittest.TestCase):

    projectname="test_simplecluster"
    clusterfile="test_simplecluster_config.txt"
    monitorFile="monitoring.log"
    cluster=None

    # Get local host configuration parameters
    host=os.uname()[1]
    cwd=os.getcwd()
    ncpu=multiprocessing.cpu_count()
    
    # jagonzal (CAS-4287): Add a cluster-less mode to by-pass parallel processing for MMSs as requested 
    if os.environ.has_key('BYPASS_SEQUENTIAL_PROCESSING'):
        ParallelTaskHelper.bypassParallelProcessing(1)
        bypassParallelProcessing = True
    else:
        bypassParallelProcessing = False
        
    vis = ""
    ref = ""
    aux = ""

    def stopCluster(self):
        # Stop thread services and cluster
        self.cluster.stop_cluster()
        # Remove log files, cluster files, and monitoring files
        self.cleanUp()

    def cleanUp(self):
        logfiles=glob.glob("engine-*.log")
        for i in logfiles:
            os.remove(i)
        if os.path.exists(self.clusterfile):
            os.remove(self.clusterfile)
        if os.path.exists(self.monitorFile):
            os.remove(self.monitorFile)

    def initCluster(self,userMonitorFile="",max_engines=2,max_memory=0.,memory_per_engine=512.):
        # First of all clean up files from previous sessions
        self.cleanUp()
        # Create cluster object
        if (len(userMonitorFile) > 0):
            self.cluster = simple_cluster(userMonitorFile)
            self.monitorFile = userMonitorFile
        else:
            self.cluster = simple_cluster()
            self.monitorFile = "monitoring.log"
        # Create cluster configuration file
        self.createClusterFile(max_engines,max_memory,memory_per_engine)
        # Initialize cluster object
        if (self.cluster.init_cluster(self.clusterfile, self.projectname)):
            self.cluster.check_resource()
            # Wait unit cluster is producing monitoring info
            if (len(userMonitorFile) > 0):
                self.waitForFile(userMonitorFile, 20)
            else:
                self.waitForFile('monitoring.log', 20)

    def createClusterFile(self,max_engines=0.,max_memory=0.,memory_per_engine=512.):
            
        if (max_engines>1):
            max_memory = 512*max_engines
            msg=self.host + ', ' + str(max_engines) + ', ' + self.cwd + ', ' + str(max_memory)
        else:
            msg=self.host + ', ' + str(max_engines) + ', ' + self.cwd + ', ' + str(max_memory) + ', ' + str(memory_per_engine) 
        f=open(self.clusterfile, 'w')
        f.write(msg)
        f.close()
        self.waitForFile(self.clusterfile, 10)

    def waitForFile(self, file, seconds):
        for i in range(0,seconds):
            if (os.path.isfile(file)):
                return
            time.sleep(1)
            
    def setUpFile(self,file,type_file):
        
        if type(file) is list:
            for file_i in file:
                self.setUpFileCore(file_i,type_file)
        else:
            self.setUpFileCore(file,type_file)
                
        if type_file=='vis':
            self.vis = file
        elif type_file =='ref':
            self.ref = file
        elif type_file=='aux':
            self.aux = file
                
    def setUpFileCore(self,file,type_file):
        
        if os.path.exists(file):
             print "%s file %s is already in the working area, deleting ..." % (type_file,file)
             os.system('rm -rf ' + file)
        print "Copy %s file %s into the working area..." % (type_file,file)
        os.system('cp -R ' + os.environ.get('CASAPATH').split()[0] +
                  '/data/regression/unittest/simplecluster/' + file + ' ' + file)
    
    def create_input(self,str_text, filename):
        """Save the string in a text file"""
    
        inp = filename
        cmd = str_text
    
        # remove file first
        if os.path.exists(inp):
            os.system('rm -f '+ inp)
        
        # save to a file    
        fid = open(inp, 'w')
        fid.write(cmd)
        
        # close file
        fid.close()

        # wait until file is visible for the filesystem
        self.waitForFile(filename, 10)
    
        return

    def test1_defaultCluster(self):
        """Test 1: Create a default cluster"""

        # Create cluster file
        self.initCluster(max_engines=0.)

        cluster_list = self.cluster.get_hosts()
        self.assertTrue(cluster_list[0][0]==self.host)
        self.assertTrue(cluster_list[0][2]==self.cwd)

        self.stopCluster()
        
    def test2_availableResourcesCluster(self):
        """Test 2: Create a custom cluster to use all the available resources"""

        # Create cluster file
        max_memory_local = self.ncpu*1024
        self.initCluster(max_engines=1.,max_memory=max_memory_local,memory_per_engine=1024.)

        cluster_list = self.cluster.get_hosts()
        self.assertTrue(cluster_list[0][0]==self.host)
        self.assertTrue(cluster_list[0][1]==self.ncpu)
        self.assertTrue(cluster_list[0][2]==self.cwd)

        self.stopCluster()        
        
    def test3_halfCPUCluster(self):
        """Test 3: Create a custom cluster to use half of available CPU capacity"""

        # Create cluster file
        max_memory_local = self.ncpu*512
        self.initCluster(max_engines=0.5,max_memory=max_memory_local,memory_per_engine=512.)

        cluster_list = self.cluster.get_hosts()
        self.assertTrue(cluster_list[0][0]==self.host)
        self.assertTrue(cluster_list[0][2]==self.cwd)

        self.stopCluster()    
        
    def test3_halfMemoryCluster(self):
        """Test 3: Create a custom cluster to use half of available RAM memory"""

        # Create cluster file
        self.initCluster(max_engines=self.ncpu,max_memory=0.5,memory_per_engine=128.)

        cluster_list = self.cluster.get_hosts()
        self.assertTrue(cluster_list[0][0]==self.host)
        self.assertTrue(cluster_list[0][2]==self.cwd)

        self.stopCluster()                

    def test4_monitoringDefault(self):
        """Test 4: Check default monitoring file exists"""
        
        # Create cluster file
        self.initCluster()
            
        fid = open('monitoring.log', 'r')
        line = fid.readline()
        self.assertTrue(line.find('Host')>=0)
        self.assertTrue(line.find('Engine')>=0)
        self.assertTrue(line.find('Status')>=0)
        self.assertTrue(line.find('CPU[%]')>=0)
        self.assertTrue(line.find('Memory[%]')>=0)
        self.assertTrue(line.find('Time[s]')>=0)
        self.assertTrue(line.find('Read[MB]')>=0)
        self.assertTrue(line.find('Write[MB]')>=0)
        self.assertTrue(line.find('Read[MB/s]')>=0)
        self.assertTrue(line.find('Write[MB/s]')>=0)
        self.assertTrue(line.find('Job')>=0)
        self.assertTrue(line.find('Sub-MS')>=0)

        self.stopCluster()

    def test5_monitoringUser(self):
        """Test 5: Check custom monitoring file exists"""
        
        # Create cluster file
        self.initCluster('userMonitorFile.log')

        fid = open('userMonitorFile.log', 'r')
        line = fid.readline()
        self.assertTrue(line.find('Host')>=0)
        self.assertTrue(line.find('Engine')>=0)
        self.assertTrue(line.find('Status')>=0)
        self.assertTrue(line.find('CPU[%]')>=0)
        self.assertTrue(line.find('Memory[%]')>=0)
        self.assertTrue(line.find('Time[s]')>=0)
        self.assertTrue(line.find('Read[MB]')>=0)
        self.assertTrue(line.find('Write[MB]')>=0)
        self.assertTrue(line.find('Read[MB/s]')>=0)
        self.assertTrue(line.find('Write[MB/s]')>=0)
        self.assertTrue(line.find('Job')>=0)
        self.assertTrue(line.find('Sub-MS')>=0)

        self.stopCluster()

    def test6_monitoringStandAlone(self):
        """Test 6: Check the dict structure of the stand-alone method """
        
        # Create cluster file
        self.initCluster('userMonitorFile.log')
                
        state = self.cluster.show_resource(True)
        cluster_list = self.cluster.get_hosts()
        for engine in range(cluster_list[0][1]):
            self.assertTrue(state[self.host][engine].has_key('Status'))
            self.assertTrue(state[self.host][engine].has_key('Sub-MS'))
            self.assertTrue(state[self.host][engine].has_key('Read'))
            self.assertTrue(state[self.host][engine].has_key('Write'))
            self.assertTrue(state[self.host][engine].has_key('Job'))
            self.assertTrue(state[self.host][engine].has_key('Memory'))
            self.assertTrue(state[self.host][engine].has_key('ReadRate'))
            self.assertTrue(state[self.host][engine].has_key('WriteRate'))

        self.stopCluster()
        
    def test7_bypassParallelProcessing(self):
        """Test 7: Bypass Parallel Processing mode """        
               
        simple_cluster.setDefaults(default_mem_per_engine=33554432)
        
        # Prepare MMS
        self.setUpFile("Four_ants_3C286.mms",'vis')
        
        # Create list file
        text = "mode='unflag'\n"\
               "mode='clip' clipminmax=[0,0.1]"
        filename = 'list_flagdata.txt'
        self.create_input(text, filename)

        # step 1: Do unflag+clip
        flagdata(vis=self.vis, mode='list', inpfile=filename)

        # step 2: Now do summary
        ret_dict = flagdata(vis=self.vis, mode='summary')

        # Check summary
        self.assertTrue(ret_dict['name']=='Summary')
        self.assertTrue(ret_dict['spw']['15']['flagged'] == 96284.0)
        self.assertTrue(ret_dict['spw']['0']['flagged'] == 129711.0)
        self.assertTrue(ret_dict['spw']['1']['flagged'] == 128551.0)
        self.assertTrue(ret_dict['spw']['2']['flagged'] == 125686.0)
        self.assertTrue(ret_dict['spw']['3']['flagged'] == 122862.0)
        self.assertTrue(ret_dict['spw']['4']['flagged'] == 109317.0)
        self.assertTrue(ret_dict['spw']['5']['flagged'] == 24481.0)
        self.assertTrue(ret_dict['spw']['6']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['7']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['8']['flagged'] == 0)
        self.assertTrue(ret_dict['spw']['9']['flagged'] == 27422.0)
        self.assertTrue(ret_dict['spw']['10']['flagged'] == 124638.0)
        self.assertTrue(ret_dict['spw']['11']['flagged'] == 137813.0)
        self.assertTrue(ret_dict['spw']['12']['flagged'] == 131896.0)
        self.assertTrue(ret_dict['spw']['13']['flagged'] == 125074.0)
        self.assertTrue(ret_dict['spw']['14']['flagged'] == 118039.0)    
        
        # Remove MMS
        os.system('rm -rf ' + self.vis)        
        
        # Restore default values
        simple_cluster.setDefaults(default_mem_per_engine=512)
        if not self.bypassParallelProcessing:
            ParallelTaskHelper.bypassParallelProcessing(0)
            
    def test8_IgnoreNullSelectionError(self):
        """Test 8: Check that NullSelection errors happening for some sub-MSs are ignored  """
        """Note: In this test we also check simple_cluster initialization via ParallelTaskHelper  """
        
        # Prepare MMS
        self.setUpFile("Four_ants_3C286.mms",'vis')          
        
        # Unflag entire MMS
        flagdata(vis=self.vis, mode='unflag')
        
        # Manually flag scan 30
        flagdata(vis=self.vis, mode='manual', scan='30')

        # step 2: Now do summary
        ret_dict = flagdata(vis=self.vis, mode='summary')

        # Check summary
        self.assertTrue(ret_dict['scan']['30']['flagged'] == 2187264.0)
        self.assertTrue(ret_dict['scan']['31']['flagged'] == 0)  
        
        # Stop cluster if it was started
        self.cluster = simple_cluster.getCluster()
        if (self.cluster != None):
            self.stopCluster()
            
        # Remove MMS
        os.system('rm -rf ' + self.vis)
Esempio n. 33
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def oldsplit(vis, outputvis, datacolumn, field, spw, width, antenna,
          timebin, timerange, scan, intent, array, uvrange,
          correlation, observation, combine, keepflags, keepmms):
    """Create a visibility subset from an existing visibility set:

    Keyword arguments:
    vis -- Name of input visibility file (MS)
            default: none; example: vis='ngc5921.ms'
    outputvis -- Name of output visibility file (MS)
                  default: none; example: outputvis='ngc5921_src.ms'
    datacolumn -- Which data column to split out
                  default='corrected'; example: datacolumn='data'
                  Options: 'data', 'corrected', 'model', 'all',
                  'float_data', 'lag_data', 'float_data,data', and
                  'lag_data,data'.
                  note: 'all' = whichever of the above that are present.
    field -- Field name
              default: field = '' means  use all sources
              field = 1 # will get field_id=1 (if you give it an
                          integer, it will retrieve the source with that index)
              field = '1328+307' specifies source '1328+307'.
                 Minimum match can be used, egs  field = '13*' will
                 retrieve '1328+307' if it is unique or exists.
                 Source names with imbedded blanks cannot be included.
    spw -- Spectral window index identifier
            default=-1 (all); example: spw=1
    antenna -- antenna names
               default '' (all),
               antenna = '3 & 7' gives one baseline with antennaid = 3,7.
    timebin -- Interval width for time averaging.
               default: '0s' or '-1s' (no averaging)
               example: timebin='30s'
    timerange -- Time range
                 default='' means all times.  examples:
                 timerange = 'YYYY/MM/DD/hh:mm:ss~YYYY/MM/DD/hh:mm:ss'
                 timerange='< YYYY/MM/DD/HH:MM:SS.sss'
                 timerange='> YYYY/MM/DD/HH:MM:SS.sss'
                 timerange='< ddd/HH:MM:SS.sss'
                 timerange='> ddd/HH:MM:SS.sss'
    scan -- Scan numbers to select.
            default '' (all).
    intent -- Scan intents to select.
            default '' (all).
    array -- (Sub)array IDs to select.     
             default '' (all).
    uvrange -- uv distance range to select.
               default '' (all).
    correlation -- Select correlations, e.g. 'rr, ll' or ['XY', 'YX'].
                   default '' (all).
    observation -- Select by observation ID(s).
                   default '' (all).
    combine -- Data descriptors that time averaging can ignore:
                  scan, and/or state
                  Default '' (none)
    keepflags -- Keep flagged data, if possible
                 Default True

    keepmms -- If the input is a multi-MS, make the output one, too. (experimental)
               Default: False
                 
    """

    casalog.origin('oldsplit')
    mylocals = locals()
    rval = True
    try:

        if (keepmms and ParallelTaskHelper.isParallelMS(vis)): 
            if (timebin!='0s' and timebin!='-1s'): 
                casalog.post('Averaging over time with keepmms=True may lead to results different\n'
                             +'  from those obtained with keepmms=False due to different binning.', 'WARN')
                            
            myms = mstool()
            myms.open(vis)
            mses = myms.getreferencedtables()
            myms.close() 
            mses.sort()

            nfail = 0
            if os.path.exists(outputvis):
                raise ValueError, "Output MS %s already exists - will not overwrite." % outputvis
            tempout = outputvis+str(time.time())
            os.mkdir(tempout)
            successfulmses = []
            mastersubms = ''
            masterptab = ''
            emptyptab = tempout+'/EMPTY_POINTING'
            nochangeinpointing = (str(antenna)+str(timerange)=='')

            if nochangeinpointing:    
                # resulting pointing table is the same for all
                #  -> replace by empty table if it is a link and won't be modified anyway
                #     and put back original into the master after split

                # find the master
                for m in mses:
                    theptab = m+'/POINTING'
                    if not os.path.islink(theptab):
                        #print "is master ", theptab
                        mastersubms = m
                        masterptab = m+'/POINTING'
                        # save time by not copying the POINTING table len(mses) times
                        myttb = tbtool()
                        myttb.open(masterptab)
                        tmpp = myttb.copy(newtablename=emptyptab, norows=True)
                        myttb.close()
                        del myttb
                        tmpp.close()
                        del tmpp
                        break

            mytb = tbtool()

            # prepare the input MMS for processing
            replaced = []
            outputviss = []
            theptabs = []
            
            for m in mses:

                # make sure the SORTED_TABLE keywords are disabled
                mytb.open(m, nomodify=False)
                if 'SORTED_TABLE' in mytb.keywordnames():
                    tobedel = mytb.getkeyword('SORTED_TABLE').split(' ')[1]
                    mytb.removekeyword('SORTED_TABLE')
                    os.system('rm -rf '+tobedel)
                mytb.close()

                # deal with the POINTING table
                theptab = m+'/POINTING'
                theptabs.append(theptab)

                if nochangeinpointing and os.path.islink(theptab):
                    #print "is link ", theptab
                    os.remove(theptab)
                    shutil.copytree(emptyptab, theptab)
                    replaced.append(True)
                else:
                    replaced.append(False)

                # run oldsplit
                outputviss.append(os.path.abspath(tempout+'/'+os.path.basename(m)))
            # end for

            # send off the jobs
            print 'Running split_core ... '
            helper = ParallelTaskHelper('oldsplit', mylocals)
            helper.override_arg('outputvis',outputviss)
            helper._consolidateOutput = False
            goretval = helper.go()

            for i in xrange(len(mses)):
                m = mses[i]

                # deal with the POINTING table
                if replaced[i]:
                    # restore link
                    shutil.rmtree(theptabs[i], ignore_errors=True)
                    os.symlink('../'+os.path.basename(mastersubms)+'/POINTING', theptabs[i])
                    # (link in target will be created my makeMMS)

                # accumulate list of successful splits
                if not goretval[m]:
                    nfail+=1
                else:
                    successfulmses.append(outputviss[i])

            if nfail>0: # there were unsuccessful splits
                if len(successfulmses)==0:
                    casalog.post('Split failed in all subMSs.', 'WARN')
                    rval=False
                else:
                    casalog.post('*** Summary: there were failures in '+str(nfail)+' SUBMSs:', 'WARN')
                    casalog.post('*** (these are harmless if they are caused by selection):', 'WARN')
                    for m in mses:
                        if not goretval[m]:
                            casalog.post(os.path.basename(m)+': '+str(goretval[m]), 'WARN')
                        else:
                            casalog.post(os.path.basename(m)+': '+str(goretval[m]), 'NORMAL') 

                    casalog.post('Will construct MMS from subMSs with successful selection ...', 'NORMAL')

                    if nochangeinpointing: # need to take care of POINTING table
                        # in case the master subms did not make it
                        if not (tempout+'/'+os.path.basename(mastersubms) in successfulmses):
                            # old master subms was not selected.
                            # copy the original masterptab into the new master
                            shutil.rmtree(successfulmses[0]+'/POINTING')
                            shutil.copytree(masterptab, successfulmses[0]+'/POINTING')
                    
            if rval: # construct new MMS from the output
                if(width==1 and str(field)+str(spw)+str(antenna)+str(timerange)+str(scan)+str(intent)\
                   +str(array)+str(uvrange)+str(correlation)+str(observation)==''):
                    ph.makeMMS(outputvis, successfulmses)
                else:
                    myms.open(successfulmses[0], nomodify=False)
                    auxfile = "split_aux_"+str(time.time())
                    for i in xrange(1,len(successfulmses)):
                        myms.virtconcatenate(successfulmses[i], auxfile, '1Hz', '10mas', True)
                    myms.close()
                    os.remove(auxfile)
                    ph.makeMMS(outputvis, successfulmses, True, ['POINTING']) 


            shutil.rmtree(tempout, ignore_errors=True)



        else: # do not output an MMS

            rval = split_core(vis, outputvis, datacolumn, field, spw, width, antenna,
                              timebin, timerange, scan, intent, array, uvrange,
                              correlation, observation, combine, keepflags)

    except Exception, instance:
            casalog.post("*** Error: %s" % (instance), 'SEVERE')
            rval = False
Esempio n. 34
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    def postExecution(self):
        '''
        This overrides the post execution portion of the task helper
        in this case we probably need to generate the output reference
        ms.
        '''
        
        if self._arg['createmms']:
            casalog.post("Finalizing MMS structure")

            # restore POINTING and SYSCAL
            if self.pwriteaccess and not self.pointingisempty:
                print "restoring POINTING"
                os.system('rm -rf '+self.ptab) # remove empty copy
                os.system('mv '+self.dataDir+'/POINTING '+self.ptab)
            if self.swriteaccess and not self.syscalisempty:
                print "restoring SYSCAL"
                os.system('rm -rf '+self.stab) # remove empty copy
                os.system('mv '+self.dataDir+'/SYSCAL '+self.stab)
            
            # jagonzal (CAS-4287): Add a cluster-less mode to by-pass parallel processing for MMSs as requested 
            if (ParallelTaskHelper.getBypassParallelProcessing()==1):
                outputList = self._sequential_return_list
                self._sequential_return_list = {}
            else:
                outputList = self._jobQueue.getOutputJobs()
            # We created a data directory and many SubMSs,
            # now build the reference MS
            if self._arg['calmsselection'] in ['auto','manual']:
                # A Cal MS was created in the data directory, see if it was
                # successful, if so build a multi-MS
                if os.path.exists(self._arg['calmsname']):
                    raise ValueError, "Output MS already exists"
                self._msTool.createmultims(self._arg['calmsname'],
                         [self.dataDir +'/%s.cal.ms'%self.outputBase])
            
            subMSList = []
            if (ParallelTaskHelper.getBypassParallelProcessing()==1):
                for subMS in outputList:
                    subMSList.append(subMS)
            else:
                for job in outputList:
                    if job.status == 'done':
                        subMSList.append(job.getCommandArguments()['outputvis'])
            subMSList.sort()

            if len(subMSList) == 0:
                casalog.post("Error: no subMSs were created.", 'WARN')
                return False

            mastersubms = subMSList[0]

            subtabs_to_omit = []

            # deal with POINTING table
            if not self.pointingisempty:
                shutil.rmtree(mastersubms+'/POINTING', ignore_errors=True)
                shutil.copytree(self.ptab, mastersubms+'/POINTING') # master subms gets a full copy of the original
            if self.makepointinglinks:
                for i in xrange(1,len(subMSList)):
                    theptab = subMSList[i]+'/POINTING'
                    shutil.rmtree(theptab, ignore_errors=True)
                    os.symlink('../'+os.path.basename(mastersubms)+'/POINTING', theptab)
                    # (link in target will be created my makeMMS)
                subtabs_to_omit.append('POINTING')

            # deal with SYSCAL table
            if not self.syscalisempty:
                shutil.rmtree(mastersubms+'/SYSCAL', ignore_errors=True)
                shutil.copytree(self.stab, mastersubms+'/SYSCAL') # master subms gets a full copy of the original
            if self.makesyscallinks:
                for i in xrange(1,len(subMSList)):
                    thestab = subMSList[i]+'/SYSCAL'
                    shutil.rmtree(thestab, ignore_errors=True)
                    os.symlink('../'+os.path.basename(mastersubms)+'/SYSCAL', thestab)
                    # (link in target will be created my makeMMS)
                subtabs_to_omit.append('SYSCAL')

            ph.makeMMS(self._arg['outputvis'], subMSList,
                       True, # copy subtables
                       subtabs_to_omit # omitting these
                       )

            thesubmscontainingdir = os.path.dirname(subMSList[0].rstrip('/'))
            
            os.rmdir(thesubmscontainingdir)

        return True
Esempio n. 35
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def concat(vislist,concatvis,freqtol,dirtol,respectname,timesort,copypointing,
	   visweightscale, forcesingleephemfield):
	"""concatenate visibility datasets
	The list of data sets given in the vis argument are chronologically concatenated 
	into an output data set in concatvis, i.e. the data sets in vis are first ordered
	by the time of their earliest integration and then concatenated.  
	
	If there are fields whose direction agrees within the direction tolerance
	(parameter dirtol), the actual direction in the resulting, merged output field
	will be the one from the chronologically first input MS.

	If concatvis already exists (e.g., it is the same as the first input data set), 
	then the other input data sets will be appended to the concatvis data set.  
	There is no limit to the number of input data sets.

	If none of the input data sets have any scratch columns (model and corrected
	columns), none are created in the concatvis.  Otherwise these columns are
	created on output and initialized to their default value (1 in model column,
	data in corrected column) for those data with no input columns.

	Spectral windows for each data set with the same chanelization, and within a
	specified frequency tolerance of another data set will be combined into one
	spectral window.

	A field position in one data set that is within a specified direction tolerance
	of another field position in any other data set will be combined into one
	field.  The field names need not be the same---only their position is used.

	Each appended dataset is assigned a new observation id (provided the entries
	in the observation table are indeed different).
	
	Keyword arguments:
	vis -- Name of input visibility files to be combined
		default: none; example: vis = ['src2.ms','ngc5921.ms','ngc315.ms']
	concatvis -- Name of visibility file that will contain the concatenated data
		note: if this file exits on disk then the input files are 
		      added to this file.  Otherwise the new file contains  
		      the concatenated data.  Be careful here when concatenating to
		      an existing file.
		default: none; example: concatvis='src2.ms'
			 example: concatvis='outvis.ms'

		other examples: 
		   concat(vis=['src2.ms','ngc5921.ms'], concatvis='src2.ms')
		       will concatenate 'ngc5921.ms' into 'src2.ms', and the original
		       src2.ms is lost

		   concat(vis=['src2.ms','ngc5921.ms'], concatvis='out.ms') 
		       will concatenate 'ngc5921.ms' and 'src2.ms' into a file named 
		       'out.ms'; the original 'ngc5921.ms' and 'src2.ms' are untouched.

		   concat(vis=['v1.ms','v2.ms'], concatvis = 'vall.ms')
		      then
		   concat(vis=['v3.ms','v4.ms'], concatvis = 'vall.ms')
		     vall.ms will contains v1.ms+v2.ms+v3.ms+v4.ms

	     Note: run flagmanager to save flags in the concatvis

	freqtol -- Frequency shift tolerance for considering data to be in the same
		   spwid.  The number of channels must also be the same.
		default: '' == 1 Hz
		example: freqtol='10MHz' will not combine spwid unless they are
		   within 10 MHz.
		Note: This option is useful to combine spectral windows with very slight
		   frequency differences caused by Doppler tracking, for example.

	dirtol -- Direction shift tolerance for considering data as the same field
		default: '' == 1 mas (milliarcsec)
		example: dirtol='1.arcsec' will not combine data for a field unless
		   their phase center differ by less than 1 arcsec.  If the field names
		   are different in the input data sets, the name in the output data
		   set will be the first relevant data set in the list.

	respectname -- If true, fields with a different name are not merged even if their 
                direction agrees (within dirtol)
                default: False

	timesort -- If true, the output visibility table will be sorted in time.
		default: false.  Data in order as read in.
		example: timesort=true
	     Note: There is no constraint on data that is simultaneously observed for
		more than one field; for example multi-source correlation of VLBA data.

	copypointing -- Make a proper copy of the POINTING subtable (can be time consuming).
		If False, the result is an empty POINTING table.
		default: True

	visweightscale -- The weights of the individual MSs will be scaled in the concatenated
		output MS by the factors in this list. Useful for handling heterogeneous arrays.
		Use plotms to inspect the "Wt" column as a reference for determining the scaling 
		factors. See the cookbook for more details.
		example: [1.,3.,3.] - scale the weights of the second and third MS by a factor 3.
		default: [] (empty list) - no scaling

        forcesingleephemfield -- By default, concat will only merge two ephemeris fields if
                the first ephemeris covers the time range of the second. Otherwise, two separate
                fields with separate ephemerides are placed in the output MS.
                In order to override this behaviour and make concat merge the non-overlapping 
                or only partially overlapping input ephemerides, the name or id of the field
                in question needs to be placed into the list in parameter 'forcesingleephemfield'.
                example: ['Neptune'] - will make sure that there is only one joint ephemeris for
                                       field Neptune in the output MS
                default: '' - standard treatment of all ephemeris fields

	"""

        ###
	#Python script
	try:
		casalog.origin('concat')
		t = tbtool()
		m = mstool()
		
		#break the reference between vis and vislist as we modify vis
		if(type(vislist)==str):
			vis=[vislist]
		else:
			vis=list(vislist)
		#dto. for concavis
		theconcatvis = concatvis

		# warn if there are MMSs
		mmslist = []
		for elvis in vis : 			###Oh no Elvis does not exist Mr Bill
			if(ParallelTaskHelper.isParallelMS(elvis)):
				mmslist.append(elvis)
		if len(mmslist)>0:
			if (vis[0] == mmslist[0]):
				casalog.post('*** The first input MS is a multi-MS to which no row can be added. Cannot proceed.', 'WARN')
				casalog.post('*** Please use virtualconcat or convert the first input MS to a normal MS using split.', 'WARN')
				raise Exception, 'Cannot append to a multi-MS. Please use virtualconcat.'

			casalog.post('*** The following input measurement sets are multi-MSs', 'INFO')
			for mname in mmslist:
				casalog.post('***   '+mname, 'INFO')
			casalog.post('*** Use virtualconcat to produce a single multi-MS from several multi-MSs.', 'INFO')



		doweightscale = False
		if(len(visweightscale)>0):
			if (len(visweightscale) != len(vis)):
				raise Exception, 'parameter visweightscale must have same number of elements as parameter vis'
			for factor in visweightscale:
				if factor<0.:
					raise Exception, 'parameter visweightscale must only contain positive numbers'
				elif factor!=1.:
					doweightscale=True

		# process the input MSs in chronological order
		sortedvis = []
		sortedvisweightscale = []
		namestuples = []
		for name in vis:
			t.open(name)
			times = t.getcol('TIME')
			t.close()
			times.sort()
			if doweightscale:
				namestuples.append( (times[0], name, visweightscale[vis.index(name)]) )
			else:
				namestuples.append( (times[0], name, 0) )

		sorted_namestuples = sorted(namestuples, key=lambda msname: msname[0]) 
    
		for i in range(0,len(vis)):
			sortedvis.append(sorted_namestuples[i][1])
			sortedvisweightscale.append(sorted_namestuples[i][2])


		if((type(concatvis)!=str) or (len(concatvis.split()) < 1)):
			raise Exception, 'parameter concatvis is invalid'				

		existingconcatvis = False
		if(vis.count(concatvis) > 0):
			existingconcatvis = True
			cvisindex =  sortedvis.index(concatvis)
			if not sorted_namestuples[cvisindex][0] == sorted_namestuples[0][0]:
				raise Exception, 'If concatvis is set to the name of an existing MS in vis, it must be the chronologically first.'+\
				      '\n I.e. in this case you should set concatvis to '+sortedvis[0]
			sortedvis.pop(cvisindex)
			if doweightscale:
				vwscale = sortedvisweightscale[cvisindex]
				sortedvisweightscale.pop(cvisindex)
				sortedvisweightscale = [vwscale] + sortedvisweightscale # move the corresponding weight to the front

		if not vis == sortedvis:
			casalog.post('The list of input MSs is not in chronological order and will need to be sorted.' , 'INFO')
			casalog.post('The chronological order in which the concatenation will take place is:' , 'INFO')
			if existingconcatvis:
				casalog.post('   MJD '+str(qa.splitdate(qa.quantity(sorted_namestuples[0][0],'s'))['mjd'])+': '+concatvis, 'INFO')
			for name in sortedvis:
				casalog.post('   MJD '+str(qa.splitdate(qa.quantity(sorted_namestuples[sortedvis.index(name)][0],'s'))['mjd'])+': '+name, 'INFO')
			if doweightscale:
				casalog.post('In this new order, the weights are:'+str(sortedvisweightscale) , 'INFO')

		# replace the original vis and visweightscale by the sorted ones (with concatvis removed if it exists)
		vis = sortedvis
		visweightscale = sortedvisweightscale

		if(os.path.exists(concatvis)):
			casalog.post('Will be concatenating into the existing ms '+concatvis , 'WARN')
			if doweightscale and not existingconcatvis:
				visweightscale = [1.]+visweightscale # set the weight for this existing MS to 1.
				casalog.post('The weights for this existing MS will be left unchanged.' , 'WARN')
		else:
			if(len(vis) >0): # (note: in case len is 1, we only copy, essentially)
				casalog.post('copying '+vis[0]+' to '+theconcatvis , 'INFO')
				shutil.copytree(vis[0], theconcatvis)
				# note that the resulting copy is writable even if the original was read-only
				vis.pop(0)
				# don't need to pop visweightscale here!


		if not copypointing: # remove the rows from the POINTING table of the first MS
			casalog.post('*** copypointing==False: resulting MS will have empty POINTING table.', 'INFO')
			tmptabname = 'TMPPOINTING'+str(time.time())
			shutil.rmtree(tmptabname, ignore_errors=True)
			shutil.move(theconcatvis+'/POINTING', tmptabname)
			t.open(tmptabname)
			if(t.nrows()>0): 
				ttab = t.copy(newtablename=theconcatvis+'/POINTING', deep=False, valuecopy=True, norows=True)
				ttab.close()
				t.close()
				shutil.rmtree(tmptabname, ignore_errors=True)
			else: # the POINTING table is already empty
				casalog.post('***    Input POINTING table was already empty.', 'INFO')
				shutil.move(tmptabname, theconcatvis+'/POINTING')
				t.close()


		# handle the ephemeris concatenation
		if not forcesingleephemfield=='':
			from recipes.ephemerides import concatephem

			if type(forcesingleephemfield)==str or type(forcesingleephemfield)==int:
				forcesingleephemfield = [forcesingleephemfield]
			if not type(forcesingleephemfield) == list:
				raise Exception, 'Type of parameter forcesingleephemfield must be str, int, or list'

			themss = [theconcatvis]
			for x in vis:
				themss.append(x)

			for ephemfield in forcesingleephemfield:
				if not type(ephemfield)==int:
					ephemfield = str(ephemfield)
				casalog.post('***    Forcing single ephemeris for field '+str(ephemfield), 'INFO')
				thetabs = concatephem.findephems(themss, ephemfield)
				if thetabs != [] and not ('' in thetabs):
					tmptab = os.path.basename(thetabs[0])+'.concattmp'
					targettab = theconcatvis+'/FIELD/'+os.path.basename(thetabs[0])
					if not os.path.exists(targettab):
						raise Exception, 'Internal ERROR: ephemeris '+targettab+' does not exist'	
					concatephem.concatephem(thetabs, tmptab)
					if os.path.exists(tmptab):
						os.system('rm -rf '+targettab)
						os.system('mv '+tmptab+' '+targettab)
					else:
						casalog.post('ERROR while forcing single ephemeris for field '+str(ephemfield), 'SEVERE')
						raise Exception, 'Concatenation of ephemerides for field '+str(ephemfield)+' failed.'
				else:
					casalog.post('ERROR while forcing single ephemeris for field '+str(ephemfield), 'SEVERE')
					raise Exception, 'Cannot find ephemerides for field '+str(ephemfield)+' in all input MSs.'


		# Determine if scratch columns should be considered at all
		# by checking if any of the MSs has them.
		
		considerscrcols = False
		considercorr = False
		considermodel = False
		needscrcols = []
		needmodel = []
		needcorr = []
                if ((type(theconcatvis)==str) and (os.path.exists(theconcatvis))):
			
			# check if all scratch columns are present
			t.open(theconcatvis)
			if (t.colnames().count('MODEL_DATA')==1):
				considermodel = True
			if(t.colnames().count('CORRECTED_DATA')==1):
				considercorr = True
				
			needscrcols.append(t.colnames().count('CORRECTED_DATA')==0 
					  or  t.colnames().count('MODEL_DATA')==0)
			needmodel.append(t.colnames().count('MODEL_DATA')==0)
			needcorr.append(t.colnames().count('CORRECTED_DATA')==0)
			t.close()
                else:
                        raise Exception, 'Visibility data set '+theconcatvis+' not found - please verify the name'

		
		for elvis in vis : 			###Oh no Elvis does not exist Mr Bill
			if(not os.path.exists(elvis)):
				raise Exception, 'Visibility data set '+elvis+' not found - please verify the name'

			# check if all scratch columns are present
			t.open(elvis)
			if (t.colnames().count('MODEL_DATA')==1):
				considermodel = True
			if(t.colnames().count('CORRECTED_DATA')==1):
				considercorr = True

			needscrcols.append(t.colnames().count('CORRECTED_DATA')==0 
					  or  t.colnames().count('MODEL_DATA')==0)
			needmodel.append(t.colnames().count('MODEL_DATA')==0)
			needcorr.append(t.colnames().count('CORRECTED_DATA')==0)
			t.close()

		considerscrcols = (considercorr or considermodel)   # there are scratch columns



		# start actual work, file existence has already been checked
		i = 0
		if(considerscrcols and needscrcols[i]):
			# create scratch cols			
			casalog.post('creating scratch columns in '+theconcatvis , 'INFO')
			_cb.open(theconcatvis,
				addcorr=(considercorr and needcorr[i]),
				addmodel=(considermodel and needmodel[i])) # calibrator-open creates scratch columns
			_cb.close()

		# scale the weights and sigma of the first MS in the chain
		if doweightscale:
			wscale = visweightscale[i]
			if(wscale==1.):
				casalog.post('Will leave the weights for this MS unchanged.', 'INFO')
			else:
				casalog.post('Scaling weights for first MS by factor '+str(wscale), 'INFO')
				t.open(theconcatvis, nomodify=False)
				for colname in [ 'WEIGHT', 'WEIGHT_SPECTRUM']:
					if (colname in t.colnames()) and (t.iscelldefined(colname,0)):
						for j in xrange(0,t.nrows()):
							a = t.getcell(colname, j)
							a *= wscale
							t.putcell(colname, j, a)
				for colname in ['SIGMA']:
					if (wscale > 0. and colname in t.colnames()) and (t.iscelldefined(colname,0)):
						sscale = 1./sqrt(wscale)
						for j in xrange(0,t.nrows()):
							a = t.getcell(colname, j)
							a *= sscale
							t.putcell(colname, j, a)
				t.close()

		# determine handling switch value
		handlingswitch = 0
		if not copypointing:
			handlingswitch = 2

		m.open(theconcatvis,nomodify=False)
		mmsmembers = [theconcatvis]
	
		for elvis in vis : 
			i = i + 1
			destms = ""
			casalog.post('concatenating '+elvis+' into '+theconcatvis , 'INFO')

			wscale = 1.
			if doweightscale:
				wscale = visweightscale[i]
				if(wscale==1.):
					casalog.post('Will leave the weights for this MS unchanged.', 'INFO')
				else:
					casalog.post('Will scale weights for this MS by factor '+str(wscale) , 'INFO')

			if(considerscrcols and needscrcols[i]):
				if(ParallelTaskHelper.isParallelMS(elvis)):
					raise Exception, 'Cannot create scratch columns in a multi-MS. Use virtualconcat.'
				else:
					# create scratch cols			
					casalog.post('creating scratch columns for '+elvis+' (original MS unchanged)', 'INFO')
					tempname = elvis+'_with_scrcols'
					shutil.rmtree(tempname, ignore_errors=True)
					shutil.copytree(elvis, tempname)
					_cb.open(tempname,
						addcorr=(considercorr and needcorr[i]),
						addmodel=(considermodel and needmodel[i])) # calibrator-open creates scratch columns
					_cb.close()
					# concatenate copy instead of original file
					m.concatenate(msfile=tempname,freqtol=freqtol,dirtol=dirtol,respectname=respectname,
						      weightscale=wscale,handling=handlingswitch,
						      destmsfile=destms)
					shutil.rmtree(tempname, ignore_errors=True)
			else:
				m.concatenate(msfile=elvis,freqtol=freqtol,dirtol=dirtol,respectname=respectname,
					      weightscale=wscale,handling=handlingswitch,
					      destmsfile=destms)

		if timesort:
			casalog.post('Sorting main table by TIME ...', 'INFO')
			m.timesort()

		m.writehistory(message='taskname=concat',origin='concat')
		m.writehistory(message='vis          = "'+str(vis)+'"',origin='concat')
		m.writehistory(message='concatvis    = "'+str(concatvis)+'"',origin='concat')
		m.writehistory(message='freqtol      = "'+str(freqtol)+'"',origin='concat')
		m.writehistory(message='dirtol       = "'+str(dirtol)+'"',origin='concat')
		m.writehistory(message='respectname  = "'+str(respectname)+'"',origin='concat')
		m.writehistory(message='copypointing = "'+str(copypointing)+'"',origin='concat')
		m.writehistory(message='visweightscale = "'+str(visweightscale)+'"',origin='concat')
		m.writehistory(message='forcesingleephemfield = "'+str(forcesingleephemfield)+'"',origin='concat')

		m.close()
		
		return True

	except Exception, instance:
		print '*** Error ***',instance
		raise Exception, instance
Esempio n. 36
0
                    raise Exception, 'Tsys calibration table %s not found' % tsystable
                if len(spwmap)==0:
                    spwmap=[-1]
                if interp=="":
                    interp="linear"
            # ... and we are asked to do something...
            # open without adding anything!
            mycb.open(vis,compress=False,addcorr=False,addmodel=False)
            mycb.initweights(wtmode=wtmode,dowtsp=dowtsp,tsystable=tsystable,gainfield=gainfield,interp=interp,spwmap=spwmap)
            mycb.close()
        else:
            raise Exception, 'Visibility data set not found - please verify the name'
        
        # Write history to MS.
        # When running in parallel, history will be written in the parallel section above
        # normal MSs should write the history here
        if ParallelTaskHelper.isMPIClient():
            try:
                param_names = initweights.func_code.co_varnames[:initweights.func_code.co_argcount]
                param_vals = [eval(p) for p in param_names]
                casalog.post('Updating the history in the output', 'DEBUG1')
                write_history(myms, vis, 'initweights', param_names,
                              param_vals, casalog)
            except Exception, instance:
                casalog.post("*** Error \'%s\' updating HISTORY" % (instance),
                             'WARN')


    except Exception, instance:
        print '*** Error ***',instance
Esempio n. 37
0
def applycal(
    vis=None,
    field=None,
    spw=None,
    intent=None,
    selectdata=None,
    timerange=None,
    uvrange=None,
    antenna=None,
    scan=None,
    observation=None,
    msselect=None,
    docallib=None,
    callib=None,
    gaintable=None,
    gainfield=None,
    interp=None,
    spwmap=None,
    calwt=None,
    parang=None,
    applymode=None,
    flagbackup=None,
):

    # Python script
    casalog.origin("applycal")

    # Take care of the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):

        # Back up the flags, if requested (and if necessary)
        if flagbackup and applymode != "calonly" and applymode != "trial":
            fh.backupFlags(aflocal=None, msfile=vis, prename="applycal")
            flagbackup = False

        # To be safe convert file names to absolute paths.
        gaintable = ParallelTaskHelper.findAbsPath(gaintable)
        helper = ParallelTaskHelper("applycal", locals())
        ret = helper.go()
        if ParallelTaskHelper.getAsyncMode():
            return ret
        else:
            return

    try:
        mycb = cbtool()
        if (type(vis) == str) & os.path.exists(vis):
            # add CORRECTED_DATA column
            mycb.open(filename=vis, compress=False, addcorr=True, addmodel=False)
        else:
            raise Exception, "Visibility data set not found - please verify the name"

        # enforce default if unspecified
        if applymode == "":
            applymode = "calflag"

        # Back up the flags, if requested (and if necessary)
        if flagbackup and applymode != "calonly" and applymode != "trial":
            fh.backupFlags(aflocal=None, msfile=vis, prename="applycal")

        # Do data selection according to selectdata
        if selectdata:
            # pass all data selection parameters in as specified
            mycb.selectvis(
                time=timerange,
                spw=spw,
                scan=scan,
                field=field,
                intent=intent,
                observation=str(observation),
                baseline=antenna,
                uvrange=uvrange,
                chanmode="none",
                msselect=msselect,
            )
        else:
            # selectdata=F, so time,scan,baseline,uvrange,msselect=''
            # using spw and field specifications only
            mycb.selectvis(
                time="",
                spw=spw,
                scan="",
                field=field,
                intent=intent,
                observation="",
                baseline="",
                uvrange="",
                chanmode="none",
                msselect="",
            )

        # Arrange applies....

        if docallib:
            # by cal library from file
            mycallib = callibrary()
            mycallib.read(callib)
            mycb.setcallib(mycallib.cld)
        else:

            # by traditional parameters

            ngaintab = 0
            if gaintable != [""]:
                ngaintab = len(gaintable)

            ncalwt = len(calwt)
            if ncalwt == 1:
                calwt = [calwt[0] for i in range(ngaintab)]

            ngainfld = len(gainfield)
            nspwmap = len(spwmap)
            ninterp = len(interp)

            # handle list of list issues with spwmap
            if nspwmap > 0:
                if type(spwmap[0]) != list:
                    # first element not a list, only one spwmap specified
                    # make it a list of list
                    spwmap = [spwmap]
                    nspwmap = 1

            for igt in range(ngaintab):
                if gaintable[igt] != "":

                    # field selection is null unless specified
                    thisgainfield = ""
                    if igt < ngainfld:
                        thisgainfield = gainfield[igt]

                    # spwmap is null unless specifed
                    thisspwmap = [-1]
                    if igt < nspwmap:
                        thisspwmap = spwmap[igt]

                    # interp is 'linear' unless specified
                    thisinterp = "linear"
                    if igt < ninterp:
                        if interp[igt] == "":
                            interp[igt] = thisinterp
                        thisinterp = interp[igt]

                    mycb.setapply(
                        t=0.0,
                        table=gaintable[igt],
                        field=thisgainfield,
                        calwt=calwt[igt],
                        spwmap=thisspwmap,
                        interp=thisinterp,
                    )

        # ...and now the specialized terms

        # Apply parallactic angle, if requested
        if parang:
            mycb.setapply(type="P")

        mycb.correct(applymode)

        # report what the flags did
        reportflags(mycb.activityrec())

        mycb.close()

        # write history
        try:
            param_names = applycal.func_code.co_varnames[: applycal.func_code.co_argcount]
            param_vals = [eval(p) for p in param_names]
            write_history(mstool(), vis, "applycal", param_names, param_vals, casalog)
        except Exception, instance:
            casalog.post("*** Error '%s' updating HISTORY" % instance, "WARN")
    except Exception, instance:
        print "*** Error ***", instance
        mycb.close()
        casalog.post("Error in applycal: %s" % str(instance), "SEVERE")
        raise Exception, "Error in applycal: " + str(instance)
Esempio n. 38
0
# Path for data
datapath = os.environ.get('CASAPATH').split()[0] + "/data/regression/unittest/flagdata/"

# Pick up alternative data directory to run tests on MMSs
testmms = False
if os.environ.has_key('TEST_DATADIR'):   
    DATADIR = str(os.environ.get('TEST_DATADIR'))+'/flagdata/'
    if os.path.isdir(DATADIR):
        testmms = True
        datapath = DATADIR

print 'flagmanager tests will use data from '+datapath         

# jagonzal (CAS-4287): Add a cluster-less mode to by-pass parallel processing for MMSs as requested 
if os.environ.has_key('BYPASS_PARALLEL_PROCESSING'):
    ParallelTaskHelper.bypassParallelProcessing(1)

# Local copy of the agentflagger tool
aflocal = aftool()

# Base class which defines setUp functions for importing different data sets
class test_base(unittest.TestCase):
    
    def setUp_flagdatatest(self):
        '''VLA data set, scan=2500~2600 spw=0 1 chan, RR,LL'''
        self.vis = "flagdatatest.ms"
        if testmms:
            self.vis = "flagdatatest.mms"

        if os.path.exists(self.vis):
            print "The MS is already around, just unflag"
Esempio n. 39
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def applycal(
    vis=None,
    field=None,
    spw=None,
    intent=None,
    selectdata=None,
    timerange=None,
    uvrange=None,
    antenna=None,
    scan=None,
    observation=None,
    msselect=None,
    docallib=None,
    callib=None,
    gaintable=None,
    gainfield=None,
    interp=None,
    spwmap=None,
    calwt=None,
    parang=None,
    applymode=None,
    flagbackup=None,
    ):

    # Python script
    casalog.origin('applycal')

    # Take care of the trivial parallelization
    if ParallelTaskHelper.isParallelMS(vis):
        
        # Back up the flags, if requested (and if necessary)
        if flagbackup and applymode != 'calonly' and applymode != 'trial':
            fh.backupFlags(aflocal=None, msfile=vis, prename='applycal')
            flagbackup = False
        
        # To be safe convert file names to absolute paths.
        gaintable = ParallelTaskHelper.findAbsPath(gaintable)
        helper = ParallelTaskHelper('applycal', locals())
        ret = helper.go()
        if ParallelTaskHelper.getAsyncMode():
            return ret
        else:
            return

    try:
        mycb = cbtool()
        if (type(vis) == str) & os.path.exists(vis):
            # add CORRECTED_DATA column
            mycb.open(filename=vis, compress=False, addcorr=True,
                      addmodel=False)
        else:
            raise Exception, \
                'Visibility data set not found - please verify the name'

        # enforce default if unspecified
        if applymode == '':
            applymode = 'calflag'

        # Back up the flags, if requested (and if necessary)
        if flagbackup and applymode != 'calonly' and applymode \
            != 'trial':
            fh.backupFlags(aflocal=None, msfile=vis, prename='applycal')

        # Do data selection according to selectdata
        if selectdata:
            # pass all data selection parameters in as specified
            mycb.selectvis(
                time=timerange,
                spw=spw,
                scan=scan,
                field=field,
                intent=intent,
                observation=str(observation),
                baseline=antenna,
                uvrange=uvrange,
                chanmode='none',
                msselect=msselect,
                )
        else:
            # selectdata=F, so time,scan,baseline,uvrange,msselect=''
            # using spw and field specifications only
            mycb.selectvis(
                time='',
                spw=spw,
                scan='',
                field=field,
                intent=intent,
                observation='',
                baseline='',
                uvrange='',
                chanmode='none',
                msselect='',
                )

        # Arrange applies....

        if docallib:
            # by cal library from file
            # parsing using c++ parser
            thiscallib=mycb.parsecallibfile(callib)
            mycb.setcallib(thiscallib)

        else:

            # by traditional parameters

            ngaintab = 0
            if gaintable != ['']:
                ngaintab = len(gaintable)

            ncalwt = len(calwt)
            if ncalwt == 1:
                calwt = [calwt[0] for i in range(ngaintab)]

            ngainfld = len(gainfield)
            nspwmap = len(spwmap)
            ninterp = len(interp)

            # handle list of list issues with spwmap
            if nspwmap > 0:
                if type(spwmap[0]) != list:
                    # first element not a list, only one spwmap specified
                    # make it a list of list
                    spwmap = [spwmap]
                    nspwmap = 1

            for igt in range(ngaintab):
                if gaintable[igt] != '':

                    # field selection is null unless specified
                    thisgainfield = ''
                    if igt < ngainfld:
                        thisgainfield = gainfield[igt]

                    # spwmap is null unless specifed
                    thisspwmap = [-1]
                    if igt < nspwmap:
                        thisspwmap = spwmap[igt]

                    # interp is 'linear' unless specified
                    thisinterp = 'linear'
                    if igt < ninterp:
                        if interp[igt] == '':
                            interp[igt] = thisinterp
                        thisinterp = interp[igt]

                    mycb.setapply(
                        t=0.0,
                        table=gaintable[igt],
                        field=thisgainfield,
                        calwt=calwt[igt],
                        spwmap=thisspwmap,
                        interp=thisinterp,
                        )

        # ...and now the specialized terms

        # Apply parallactic angle, if requested
        if parang:
            mycb.setapply(type='P')

        mycb.correct(applymode)

        # report what the flags did
        reportflags(mycb.activityrec())

        mycb.close()

            # write history
        try:
            param_names = \
                applycal.func_code.co_varnames[:applycal.func_code.co_argcount]
            param_vals = [eval(p) for p in param_names]
            write_history(
                mstool(),
                vis,
                'applycal',
                param_names,
                param_vals,
                casalog,
                )
        except Exception, instance:
            casalog.post("*** Error \'%s\' updating HISTORY"
                         % instance, 'WARN')
    except Exception, instance:
        print '*** Error ***', instance
        mycb.close()
        casalog.post("Error in applycal: %s" % str(instance), "SEVERE")
        raise Exception, "Error in applycal: "+str(instance)