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# This file was automatically generated by SWIG (http://www.swig.org). 

# Version 2.0.4 

# 

# Do not make changes to this file unless you know what you are doing--modify 

# the SWIG interface file instead. 

 

 

 

from sys import version_info 

if version_info >= (2,6,0): 

    def swig_import_helper(): 

        from os.path import dirname 

        import imp 

        fp = None 

        try: 

            fp, pathname, description = imp.find_module('_singledishms', [dirname(__file__)]) 

        except ImportError: 

            import _singledishms 

            return _singledishms 

        if fp is not None: 

            try: 

                _mod = imp.load_module('_singledishms', fp, pathname, description) 

            finally: 

                fp.close() 

            return _mod 

    _singledishms = swig_import_helper() 

    del swig_import_helper 

else: 

    import _singledishms 

del version_info 

try: 

    _swig_property = property 

except NameError: 

    pass # Python < 2.2 doesn't have 'property'. 

def _swig_setattr_nondynamic(self,class_type,name,value,static=1): 

    if (name == "thisown"): return self.this.own(value) 

    if (name == "this"): 

        if type(value).__name__ == 'SwigPyObject': 

            self.__dict__[name] = value 

            return 

    method = class_type.__swig_setmethods__.get(name,None) 

    if method: return method(self,value) 

    if (not static): 

        self.__dict__[name] = value 

    else: 

        raise AttributeError("You cannot add attributes to %s" % self) 

 

def _swig_setattr(self,class_type,name,value): 

    return _swig_setattr_nondynamic(self,class_type,name,value,0) 

 

def _swig_getattr(self,class_type,name): 

    if (name == "thisown"): return self.this.own() 

    method = class_type.__swig_getmethods__.get(name,None) 

    if method: return method(self) 

    raise AttributeError(name) 

 

def _swig_repr(self): 

    try: strthis = "proxy of " + self.this.__repr__() 

    except: strthis = "" 

    return "<%s.%s; %s >" % (self.__class__.__module__, self.__class__.__name__, strthis,) 

 

try: 

    _object = object 

    _newclass = 1 

except AttributeError: 

    class _object : pass 

    _newclass = 0 

 

 

class singledishms(_object): 

    """Proxy of C++ casac::singledishms class""" 

    __swig_setmethods__ = {} 

    __setattr__ = lambda self, name, value: _swig_setattr(self, singledishms, name, value) 

    __swig_getmethods__ = {} 

    __getattr__ = lambda self, name: _swig_getattr(self, singledishms, name) 

    __repr__ = _swig_repr 

    def __init__(self): 

        """__init__(self) -> singledishms""" 

        this = _singledishms.new_singledishms() 

        try: self.this.append(this) 

        except: self.this = this 

    __swig_destroy__ = _singledishms.delete_singledishms 

    __del__ = lambda self : None; 

    def open(self, *args, **kwargs): 

        """ 

        open(self, ms_name = string("")) -> bool 

 

        Summary 

                Open a new MeasurementSet for processing after closing current MeasurementSet 

            

 

        Description 

                 

        Close the current MeasurementSet and open a new MeasurementSet 

        instead. The current state of { t sdms} is retained, except for 

        the data selection. 

 

 

        Input Parameters: 

                ms_name          New MeasurementSet to be processed  

                 

        Example: 

                 

        sdms.open('m100_sd.ms') 

 

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_open(self, *args, **kwargs) 

 

    def close(self): 

        """ 

        close(self) -> bool 

 

        Summary 

                Close the {tt sdms} tool, with data written on disk, keeping sdms running for future use 

            

 

        Description 

                 

        This is used to close { t sdms} tools. Note that the 

        data is written to disk and detached from {     t sdms} tool. 

        This is a synonym for done. 

            

        Example: 

                 

        sdms.close() 

            

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_close(self) 

 

    def done(self): 

        """ 

        done(self) -> bool 

 

        Summary 

                Close the {tt sdms} tool 

 

        Description 

                 

        This is used to close and {     t sdms} tools. Note that the 

        data is written to disk  and detached from {    t sdms} tool. 

        This is a synonym for close. 

           

        Example: 

                 

        sdms.done() 

            

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_done(self) 

 

    def name(self): 

        """ 

        name(self) -> string 

 

        Summary 

                Provide the name of the attached MeasurementSet 

 

        Description 

                 

            Returns the name of the attached MeasurementSet. 

           

        Example: 

                 

        sdms.name() 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_name(self) 

 

    def scale(self, *args, **kwargs): 

        """ 

        scale(self, factor = 1.0, datacolumn = string("data"), outfile = string("")) -> bool 

 

        Summary 

                Multiply a scaling factor to spectra 

           

 

        Description 

                 

        Multipy a scaling factor to selected spectra. 

           

 

        Input Parameters: 

                factor           the scaling factor 1.0  

                datacolumn       the name of data column to process data data float_data corrected_data  

                outfile          The name of output MeasurementSet  

                 

        Example: 

                 

        sdms.open('m100_sd.ms') 

        sdms.set_selection(field='M100') 

        sdms.scale(factor=2.0) 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_scale(self, *args, **kwargs) 

 

    def subtract_baseline(self, *args, **kwargs): 

        """ 

        subtract_baseline(self, datacolumn = string("data"), outfile = string(""),  

            bltable = string(""), dosubtract = True, spw = initialize_variant(""),  

            pol = initialize_variant(""),  

            order = 5, clip_threshold_sigma = 3.0,  

            num_fitting_max = 1) -> bool 

 

        Summary 

                Invoke baseline subtraction 

           

 

        Description 

                 

        Fit baseline and subtract it from selected spectra 

           

 

        Input Parameters: 

                datacolumn       the name of data column to process data data float_data corrected_data  

                outfile          The name of output MeasurementSet  

                bltable          The name of Baseline Table to be output  

                dosubtract       Execute baseline subtraction from the input data true  

                spw              Spectral Window Ids (0 relative) to select; -1 interpreted as all  

                pol              Select data by polarization(s).  

                order            polynomial order 5  

                clip_threshold_sigma     threshold for clipping in unit of sigma 3.0  

                num_fitting_max  maximum number of recursive clipping 1  

                 

        Example: 

                 

        sdms.open('m100_sd.ms') 

        sdms.set_selection(field='M100') 

        sdms.subtract_baseline(order=3,clip_threshold_sigma=5.0,num_fitting_max=6) 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_subtract_baseline(self, *args, **kwargs) 

 

    def subtract_baseline_cspline(self, *args, **kwargs): 

        """ 

        subtract_baseline_cspline(self, datacolumn = string("data"), outfile = string(""),  

            bltable = string(""), dosubtract = True, spw = initialize_variant(""),  

            pol = initialize_variant(""),  

            npiece = 5, clip_threshold_sigma = 3.0,  

            num_fitting_max = 1) -> bool 

 

        Summary 

                Invoke baseline subtraction 

           

 

        Description 

                 

        Fit baseline and subtract it from selected spectra 

           

 

        Input Parameters: 

                datacolumn       the name of data column to process data data float_data corrected_data  

                outfile          The name of output MeasurementSet  

                bltable          The name of Baseline Table to be output  

                dosubtract       Execute baseline subtraction from the input data true  

                spw              Spectral Window Ids (0 relative) to select; -1 interpreted as all  

                pol              Select data by polarization(s).  

                npiece           cspline npice 5  

                clip_threshold_sigma     threshold for clipping in unit of sigma 3.0  

                num_fitting_max  maximum number of recursive clipping 1  

                 

        Example: 

                 

        sdms.open('m100_sd.ms') 

        sdms.set_selection(field='M100') 

        sdms.subtract_baseline_cspline(npiece=3,clip_threshold_sigma=5.0,num_fitting_max=6) 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_subtract_baseline_cspline(self, *args, **kwargs) 

 

    def subtract_baseline_variable(self, *args, **kwargs): 

        """ 

        subtract_baseline_variable(self, datacolumn = string("data"), outfile = string(""),  

            bltable = string(""), dosubtract = True, spw = initialize_variant(""),  

            pol = initialize_variant(""),  

            blparam = string("")) -> bool 

 

        Summary 

                Invoke baseline subtraction by parameters stored in a file. 

           

 

        Description 

                 

        Fit baseline and subtract it from selected spectra. 

        Fit parameters for each spectrum are obtained from a text file. 

           

 

        Input Parameters: 

                datacolumn       the name of data column to process data data float_data corrected_data  

                outfile          The name of output MeasurementSet  

                bltable          The name of Baseline Table to be output  

                dosubtract       Execute baseline subtraction from the input data true  

                spw              Spectral Window Ids (0 relative) to select; -1 interpreted as all  

                pol              Select data by polarization(s).  

                blparam          The name of text file that stores fit parameters for each spectrum of selected MS  

                 

        Example: 

                 

        sdms.open('m100_sd.ms') 

        sdms.set_selection(field='M100') 

        sdms.subtract_baseline_variable('m100_fitparam.txt') 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_subtract_baseline_variable(self, *args, **kwargs) 

 

    def set_selection(self, *args, **kwargs): 

        """ 

        set_selection(self, spw = initialize_variant(""), field = initialize_variant(""),  

            antenna = initialize_variant(""),  

            timerange = initialize_variant(""), scan = initialize_variant(""),  

            observation = initialize_variant(""),  

            polarization = initialize_variant(""),  

            beam = initialize_variant(""), intent = initialize_variant(""),  

            taql = string("")) -> bool 

 

        Summary 

                Select Measurementset to process 

 

        Description 

                 

 

           

 

        Input Parameters: 

                spw              Spectral Window Ids (0 relative) to select; -1 interpreted as all  

                field            Field Ids (0 relative) or Field names (msselection syntax and wilcards are used) to select  

                antenna          Antenna Ids (0 relative) or Antenna names (msselection syntax and wilcards are used) to select  

                timerange        Limit data selected to be within a given time range. Syntax is the defined in the msselection link  

                scan             Limit data selected on scan numbers. Syntax is the defined in the msselection link  

                observation      Select data by observation ID(s). The syntax is the same as for scan numbers.  

                polarization     Select data by polarization(s).  

                beam             Beam Ids (0 relative) to select; CURRENTLY NOT AVAILABLE!!!  

                intent           Select data by intent(s)  

                taql             For the TAQL experts, flexible data selection using the TAQL syntax  

                 

        Example: 

                 

        sdms.set_selection(field='M100', spw='3,5') 

           

        -------------------------------------------------------------------------------- 

                       

        """ 

        return _singledishms.singledishms_set_selection(self, *args, **kwargs) 

 

singledishms_swigregister = _singledishms.singledishms_swigregister 

singledishms_swigregister(singledishms) 

 

# This file is compatible with both classic and new-style classes.