""" This is the ATNF Single Dish Analysis package. """ import os,sys def validate_bool(b): 'Convert b to a boolean or raise' bl = b.lower() if bl in ('f', 'no', 'false', '0', 0): return False elif bl in ('t', 'yes', 'true', '1', 1): return True else: raise ValueError('Could not convert "%s" to boolean' % b) def validate_int(s): 'convert s to int or raise' try: return int(s) except ValueError: raise ValueError('Could not convert "%s" to int' % s) def asap_fname(): """ Return the path to the rc file Search order: * current working dir * environ var ASAPRC * HOME/.asaprc """ fname = os.path.join( os.getcwd(), '.asaprc') if os.path.exists(fname): return fname if os.environ.has_key('ASAPRC'): path = os.environ['ASAPRC'] if os.path.exists(path): fname = os.path.join(path, '.asaprc') if os.path.exists(fname): return fname if os.environ.has_key('HOME'): home = os.environ['HOME'] fname = os.path.join(home, '.asaprc') if os.path.exists(fname): return fname return None defaultParams = { # general 'verbose' : [True, validate_bool], 'useplotter' : [True, validate_bool], 'insitu' : [False, validate_bool], # plotting 'plotter.stacking' : ['p', str], 'plotter.panelling' : ['s', str], # scantable 'scantable.save' : ['ASAP', str], 'scantable.autoaverage' : [True, validate_bool], 'scantable.freqframe' : ['LSRK', str], #default frequency frame 'scantable.allaxes' : [True, validate_bool], # apply action to all axes 'scantable.plotter' : [True, validate_bool], # use internal plotter 'scantable.verbosesummary' : [False, validate_bool] # fitter } def list_rcparameters(): print """ # general # print verbose output verbose : True # preload a default plotter useplotter : True # apply operations on the input scantable or return new one insitu : False # plotting # default mode for colour stacking plotter.stacking : 'Pol' # default mode for panelling plotter.panelling : 'scan' # scantable # default ouput format when saving scantable.save : 'ASAP' # auto averaging on read scantable.autoaverage : True # default frequency frame to set when function # scantable.set_freqfrmae is called scantable.freqframe : 'LSRK' # apply action to all axes not just the cursor location scantable.allaxes : True # use internal plotter scantable.plotter : True # Control the level of information printed by summary scantable.verbosesummary : False # Fitter """ def rc_params(): 'Return the default params updated from the values in the rc file' fname = asap_fname() if fname is None or not os.path.exists(fname): message = 'could not find rc file; returning defaults' ret = dict([ (key, tup[0]) for key, tup in defaultParams.items()]) #print message return ret cnt = 0 for line in file(fname): cnt +=1 line = line.strip() if not len(line): continue if line.startswith('#'): continue tup = line.split(':',1) if len(tup) !=2: print ('Illegal line #%d\n\t%s\n\tin file "%s"' % (cnt, line, fname)) continue key, val = tup key = key.strip() if not defaultParams.has_key(key): print ('Bad key "%s" on line %d in %s' % (key, cnt, fname)) continue default, converter = defaultParams[key] ind = val.find('#') if ind>=0: val = val[:ind] # ignore trailing comments val = val.strip() try: cval = converter(val) # try to convert to proper type or raise except Exception, msg: print ('Bad val "%s" on line #%d\n\t"%s"\n\tin file "%s"\n\t%s' % (val, cnt, line, fname, msg)) continue else: # Alles Klar, update dict defaultParams[key][0] = cval # strip the conveter funcs and return ret = dict([ (key, tup[0]) for key, tup in defaultParams.items()]) print ('loaded rc file %s'%fname) return ret # this is the instance used by the asap classes rcParams = rc_params() rcParamsDefault = dict(rcParams.items()) # a copy def rc(group, **kwargs): """ Set the current rc params. Group is the grouping for the rc, eg for scantable.save the group is 'scantable', for plotter.stacking, the group is 'plotter', and so on. kwargs is a list of attribute name/value pairs, eg rc('scantable', save='SDFITS') sets the current rc params and is equivalent to rcParams['scantable.save'] = 'SDFITS' Use rcdefaults to restore the default rc params after changes. """ aliases = {} for k,v in kwargs.items(): name = aliases.get(k) or k key = '%s.%s' % (group, name) if not rcParams.has_key(key): raise KeyError('Unrecognized key "%s" for group "%s" and name "%s"' % (key, group, name)) rcParams[key] = v def rcdefaults(): """ Restore the default rc params - the ones that were created at asap load time """ rcParams.update(rcParamsDefault) from asapfitter import * from asapreader import reader from asapmath import * from scantable import * from asaplinefind import * from numarray import logical_and as mask_and from numarray import logical_or as mask_or from numarray import logical_not as mask_not if rcParams['useplotter']: if os.environ.has_key('DISPLAY'): print "Initialising asapplotter with the name 'plotter' ..." import asapplotter plotter = asapplotter.asapplotter() else: print "No $DISPLAY set. Disabling plotter.\n" #from numarray ones,zeros __date__ = '$Date: 2005-02-20 21:26:27 +0000 (Sun, 20 Feb 2005) $' __version__ = '0.2' def list_scans(t = scantable): import sys, types #meta_t = type(t) #if meta_t == types.InstanceType: # t = t.__class__ #elif meta_t not in [types.ClassType, types.TypeType]: # t = meta_t globs = sys.modules['__main__'].__dict__.iteritems() print "The user created scantables are:" x = map(lambda x: x[0], filter(lambda x: isinstance(x[1], t), globs)) print x def commands(): x = """ [The scan container] scantable - a container for integrations/scans (can open asap/rpfits/sdfits and ms files) copy - returns a copy of a scan get_scan - gets a specific scan out of a scantable summary - print info about the scantable contents set_cursor - set a specific Beam/IF/Pol 'cursor' for further use get_cursor - print out the current cursor position stats - get specified statistic of the spectra in the scantable stddev - get the standard deviation of the spectra in the scantable get_tsys - get the TSys get_time - get the timestamps of the integrations get_unit - get the currnt unit set_unit - set the abcissa unit to be used from this point on get_abcissa - get the abcissa values and name for a given row (time) set_freqframe - set the frame info for the Spectral Axis (e.g. 'LSRK') set_doppler - set the doppler to be used from this point on set_instrument - set the instrument name get_fluxunit - get the brightness flux unit set_fluxunit - set the brightness flux unit create_mask - return an mask in the current unit for the given region. The specified regions are NOT masked get_restfreqs - get the current list of rest frequencies set_restfreqs - set a list of rest frequencies lines - print list of known spectral lines flag_spectrum - flag a whole Beam/IF/Pol save - save the scantable to disk as either 'ASAP' or 'SDFITS' nbeam,nif,nchan,npol - the number of beams/IFs/Pols/Chans history - print the history of the scantable [Math] average_time - return the (weighted) time average of a scan or a list of scans average_pol - average the polarisations together. The dimension won't be reduced and all polarisations will contain the averaged spectrum. quotient - return the on/off quotient simple_math - simple mathematical operations on two scantables, 'add', 'sub', 'mul', 'div' scale - return a scan scaled by a given factor add - return a scan with given value added bin - return a scan with binned channels resample - return a scan with resampled channels smooth - return the spectrally smoothed scan poly_baseline - fit a polynomial baseline to all Beams/IFs/Pols gain_el - apply gain-elevation correction opacity - apply opacity correction convert_flux - convert to and from Jy and Kelvin brightness units rotate_xyphase - rotate XY phase of cross correlation fitter auto_fit - return a scan where the function is applied to all Beams/IFs/Pols. commit - return a new scan where the fits have been commited. fit - execute the actual fitting process get_chi2 - get the Chi^2 set_scan - set the scantable to be fit set_function - set the fitting function set_parameters - set the parameters for the function(s), and set if they should be held fixed during fitting get_parameters - get the fitted parameters [Plotter] asapplotter - a plotter for asap, default plotter is called 'plotter' plot - plot a (list of) scantable save - save the plot to a file ('png' ,'ps' or 'eps') set_mode - set the state of the plotter, i.e. what is to be plotted 'colour stacked' and what 'panelled' set_range - set the abcissa 'zoom' range set_legend - specify user labels for the legend indeces set_title - specify user labels for the panel indeces set_ordinate - specify a user label for the ordinate set_abcissa - specify a user label for the abcissa set_layout - specify the multi-panel layout (rows,cols) [Reading files] reader - access rpfits/sdfits files read - read in integrations summary - list info about all integrations [General] commands - this command print - print details about a variable list_scans - list all scantables created bt the user del - delete the given variable from memory range - create a list of values, e.g. range(3) = [0,1,2], range(2,5) = [2,3,4] help - print help for one of the listed functions execfile - execute an asap script, e.g. execfile('myscript') list_rcparameters - print out a list of possible values to be put into $HOME/.asaprc mask_and,mask_or, mask_not - boolean operations on masks created with scantable.create_mask Note: How to use this with help: # function 'summary' [xxx] is just a category Every 'sub-level' in this list should be replaces by a '.' Period when using help Example: ASAP> help scantable # to get info on ths scantable ASAP> help scantable.summary # to get help on the scantable's ASAP> help average_time """ print x return print """Welcome to ASAP - the ATNF Single Dish Analysis Package This is a testing pre-release %s Please report any bugs to: Malte.Marquarding@csiro.au [IMPORTANT: ASAP is 0-based] Type commands() to get a list of all available ASAP commands. """ % (__version__)