[102] | 1 | from asap._asap import sdtable |
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[189] | 2 | from numarray import ones,zeros |
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[102] | 3 | import sys |
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| 4 | |
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| 5 | class scantable(sdtable): |
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| 6 | """ |
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| 7 | The ASAP container for scans |
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| 8 | """ |
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[113] | 9 | |
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[102] | 10 | def __init__(self, filename): |
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| 11 | """ |
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| 12 | Create a scantable from a saved one or make a reference |
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| 13 | Parameters: |
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[181] | 14 | filename: the name of an asap table on disk |
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| 15 | or |
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| 16 | the name of a rpfits/sdfits/ms file |
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| 17 | (integrations within scans are auto averaged |
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| 18 | and the whole file is read) |
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| 19 | or |
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| 20 | [advanced] a reference to an existing |
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[102] | 21 | scantable |
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| 22 | """ |
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[113] | 23 | self._vb = True |
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| 24 | self._p = None |
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[181] | 25 | from os import stat as st |
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| 26 | import stat |
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| 27 | if isinstance(filename,sdtable): |
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| 28 | sdtable.__init__(self, filename) |
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| 29 | else: |
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| 30 | mode = st(filename)[stat.ST_MODE] |
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| 31 | if stat.S_ISDIR(mode): |
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| 32 | # crude check if asap table |
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| 33 | if stat.S_ISREG(st(filename+'/table.info')[stat.ST_MODE]): |
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| 34 | sdtable.__init__(self, filename) |
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| 35 | else: |
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| 36 | print 'The given file is not a valid asap table' |
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| 37 | else: |
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| 38 | from asap._asap import sdreader |
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| 39 | r = sdreader(filename) |
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| 40 | print 'Importing data...' |
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| 41 | r.read([-1]) |
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| 42 | tbl = r.getdata() |
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| 43 | |
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| 44 | from asap._asap import average |
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| 45 | tmp = tuple([tbl]) |
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| 46 | print 'Auto averging integrations...' |
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| 47 | tbl2 = average(tmp,(),True,'none') |
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| 48 | sdtable.__init__(self,tbl2) |
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| 49 | del r,tbl |
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[102] | 50 | |
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[196] | 51 | def save(self, name="", format='ASAP'): |
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[116] | 52 | """ |
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| 53 | Store the scantable on disk. This can be a asap file or SDFITS/MS2. |
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| 54 | Parameters: |
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[196] | 55 | name: the name of the outputfile. For format="FITS" this |
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| 56 | is the root file name (and can be empty). |
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[116] | 57 | format: an optional file format. Default is ASAP. |
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[194] | 58 | Allowed are - 'ASAP' (save as ASAP Table), |
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| 59 | 'SDFITS' (save as SDFITS file) |
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| 60 | 'FITS' (saves each row as a FITS Image) |
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[200] | 61 | 'ASCII' (saves as ascii text file) |
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[194] | 62 | 'MS2' (saves as an aips++ MeasurementSet V2) |
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[116] | 63 | Example: |
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| 64 | scan.save('myscan.asap') |
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| 65 | scan.save('myscan.sdfits','SDFITS') |
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| 66 | """ |
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| 67 | if format == 'ASAP': |
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| 68 | self._save(name) |
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| 69 | else: |
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| 70 | from asap._asap import sdwriter as _sw |
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[194] | 71 | w = _sw(format) |
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| 72 | w.write(self, name) |
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[116] | 73 | return |
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| 74 | |
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[113] | 75 | def _verbose(self, *args): |
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| 76 | """ |
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| 77 | Set the verbose level True or False, to indicate if output |
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| 78 | should be printed as well as returned. |
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| 79 | """ |
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[126] | 80 | if len(args) == 0: |
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| 81 | return self._vb |
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| 82 | elif type(args[0]) is bool: |
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[113] | 83 | self._vb = args[0] |
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| 84 | return |
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| 85 | |
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[102] | 86 | def copy(self): |
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| 87 | """ |
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| 88 | Return a copy of this scantable. |
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| 89 | Parameters: |
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[113] | 90 | none |
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[102] | 91 | Example: |
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| 92 | copiedscan = scan.copy() |
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| 93 | """ |
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[113] | 94 | sd = scantable(sdtable._copy(self)) |
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| 95 | return sd |
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| 96 | |
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[102] | 97 | def get_scan(self, scanid=None): |
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| 98 | """ |
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| 99 | Return a specific scan (by scanno) or collection of scans (by |
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| 100 | source name) in a new scantable. |
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| 101 | Parameters: |
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| 102 | scanid: a scanno or a source name |
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| 103 | Example: |
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[113] | 104 | scan.get_scan('323p459') |
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[102] | 105 | # gets all scans containing the source '323p459' |
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| 106 | """ |
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| 107 | if scanid is None: |
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| 108 | print "Please specify a scan no or name to retrieve from the scantable" |
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| 109 | try: |
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| 110 | if type(scanid) is str: |
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[113] | 111 | s = sdtable._getsource(self,scanid) |
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[102] | 112 | return scantable(s) |
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| 113 | elif type(scanid) is int: |
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[113] | 114 | s = sdtable._getscan(self,scanid) |
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[102] | 115 | return scantable(s) |
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| 116 | except RuntimeError: |
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| 117 | print "Couldn't find any match." |
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| 118 | |
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| 119 | def __str__(self): |
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| 120 | return sdtable.summary(self) |
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| 121 | |
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| 122 | def summary(self,filename=None): |
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| 123 | """ |
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| 124 | Print a summary of the contents of this scantable. |
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| 125 | Parameters: |
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| 126 | filename: the name of a file to write the putput to |
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| 127 | Default - no file output |
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| 128 | """ |
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| 129 | info = sdtable.summary(self) |
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| 130 | if filename is not None: |
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| 131 | data = open(filename, 'w') |
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| 132 | data.write(info) |
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| 133 | data.close() |
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| 134 | print info |
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| 135 | |
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| 136 | def set_selection(self, thebeam=0,theif=0,thepol=0): |
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| 137 | """ |
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| 138 | Set the spectrum for individual operations. |
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| 139 | Parameters: |
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| 140 | thebeam,theif,thepol: a number |
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| 141 | Example: |
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| 142 | scan.set_selection(0,0,1) |
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[135] | 143 | pol1sig = scan.stats(all=False) # returns std dev for beam=0 |
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[181] | 144 | # if=0, pol=1 |
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[102] | 145 | """ |
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| 146 | self.setbeam(thebeam) |
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| 147 | self.setpol(thepol) |
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| 148 | self.setif(theif) |
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| 149 | return |
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| 150 | |
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| 151 | def get_selection(self): |
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[113] | 152 | """ |
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| 153 | Return/print a the current 'cursor' into the Beam/IF/Pol cube. |
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| 154 | Parameters: |
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| 155 | none |
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| 156 | Returns: |
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| 157 | a list of values (currentBeam,currentIF,currentPol) |
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| 158 | Example: |
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| 159 | none |
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| 160 | """ |
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[102] | 161 | i = self.getbeam() |
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| 162 | j = self.getif() |
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| 163 | k = self.getpol() |
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[113] | 164 | if self._vb: |
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[181] | 165 | print "--------------------------------------------------" |
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| 166 | print " Cursor selection" |
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| 167 | print "--------------------------------------------------" |
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[113] | 168 | out = 'Beam=%d IF=%d Pol=%d '% (i,j,k) |
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| 169 | print out |
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[102] | 170 | return i,j,k |
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| 171 | |
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[135] | 172 | def stats(self, stat='stddev', mask=None, all=True): |
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[102] | 173 | """ |
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[135] | 174 | Determine the specified statistic of the current beam/if/pol |
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[102] | 175 | Takes a 'mask' as an optional parameter to specify which |
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| 176 | channels should be excluded. |
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| 177 | Parameters: |
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[135] | 178 | stat: 'min', 'max', 'sumsq', 'sum', 'mean' |
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| 179 | 'var', 'stddev', 'avdev', 'rms', 'median' |
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| 180 | mask: an optional mask specifying where the statistic |
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[102] | 181 | should be determined. |
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[156] | 182 | all: optional flag to show all (default) or a selected |
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[102] | 183 | spectrum of Beam/IF/Pol |
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| 184 | |
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| 185 | Example: |
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[113] | 186 | scan.set_unit('channel') |
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[102] | 187 | msk = scan.create_mask([100,200],[500,600]) |
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[135] | 188 | scan.stats(stat='mean', mask=m) |
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[102] | 189 | """ |
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[135] | 190 | from asap._asap import stats as _stats |
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[102] | 191 | if mask == None: |
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| 192 | mask = ones(self.nchan()) |
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| 193 | if all: |
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| 194 | out = '' |
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| 195 | tmp = [] |
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[181] | 196 | for l in range(self.nrow()): |
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| 197 | tm = self._gettime(l) |
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| 198 | out += 'Time[%s]:\n' % (tm) |
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| 199 | for i in range(self.nbeam()): |
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| 200 | self.setbeam(i) |
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| 201 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i) |
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| 202 | for j in range(self.nif()): |
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| 203 | self.setif(j) |
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| 204 | if self.nif() > 1: out += ' IF[%d] ' % (j) |
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| 205 | for k in range(self.npol()): |
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| 206 | self.setpol(k) |
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| 207 | if self.npol() > 1: out += ' Pol[%d] ' % (k) |
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| 208 | statval = _stats(self,mask,stat) |
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| 209 | tmp.append(statval) |
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| 210 | out += '= %3.3f\n' % (statval[l]) |
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| 211 | out += "--------------------------------------------------\n" |
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| 212 | |
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| 213 | if self._vb: |
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| 214 | print "--------------------------------------------------" |
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| 215 | print " ",stat |
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| 216 | out += "--------------------------------------------------\n" |
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| 217 | print out |
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[102] | 218 | return tmp |
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| 219 | |
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| 220 | else: |
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| 221 | i = self.getbeam() |
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| 222 | j = self.getif() |
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| 223 | k = self.getpol() |
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[181] | 224 | statval = _stats(self,mask,stat) |
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| 225 | out = '' |
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| 226 | for l in range(self.nrow()): |
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| 227 | tm = self._gettime(l) |
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| 228 | out += 'Time[%s]:\n' % (tm) |
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| 229 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i) |
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| 230 | if self.nif() > 1: out += ' IF[%d] ' % (j) |
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| 231 | if self.npol() > 1: out += ' Pol[%d] ' % (k) |
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| 232 | out += '= %3.3f\n' % (statval[l]) |
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| 233 | out += "--------------------------------------------------\n" |
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| 234 | if self._vb: |
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| 235 | print "--------------------------------------------------" |
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| 236 | print " ",stat |
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| 237 | print "--------------------------------------------------" |
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| 238 | print out |
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| 239 | return statval |
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[102] | 240 | |
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[135] | 241 | def stddev(self,mask=None, all=True): |
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| 242 | """ |
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| 243 | Determine the standard deviation of the current beam/if/pol |
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| 244 | Takes a 'mask' as an optional parameter to specify which |
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| 245 | channels should be excluded. |
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| 246 | Parameters: |
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| 247 | mask: an optional mask specifying where the standard |
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| 248 | deviation should be determined. |
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| 249 | all: optional flag to show all or a selected |
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| 250 | spectrum of Beam/IF/Pol |
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| 251 | |
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| 252 | Example: |
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| 253 | scan.set_unit('channel') |
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| 254 | msk = scan.create_mask([100,200],[500,600]) |
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| 255 | scan.stddev(mask=m) |
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| 256 | """ |
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| 257 | return self.stats(stat='stddev',mask=mask, all=all); |
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| 258 | |
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[102] | 259 | def get_tsys(self, all=True): |
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[113] | 260 | """ |
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| 261 | Return the System temperatures. |
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| 262 | Parameters: |
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| 263 | all: optional parameter to get the Tsys values for all |
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| 264 | Beams/IFs/Pols (default) or just the one selected |
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| 265 | with scantable.set_selection() |
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| 266 | [True or False] |
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| 267 | Returns: |
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| 268 | a list of Tsys values. |
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| 269 | """ |
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[102] | 270 | if all: |
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[181] | 271 | out = '' |
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[102] | 272 | tmp = [] |
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[181] | 273 | for l in range(self.nrow()): |
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| 274 | tm = self._gettime(l) |
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| 275 | out += 'Time[%s]:\n' % (tm) |
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| 276 | for i in range(self.nbeam()): |
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| 277 | self.setbeam(i) |
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| 278 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i) |
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| 279 | for j in range(self.nif()): |
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| 280 | self.setif(j) |
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| 281 | if self.nif() > 1: out += ' IF[%d] ' % (j) |
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| 282 | for k in range(self.npol()): |
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| 283 | self.setpol(k) |
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| 284 | if self.npol() > 1: out += ' Pol[%d] ' % (k) |
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| 285 | ts = self._gettsys() |
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| 286 | tmp.append(ts) |
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| 287 | out += '= %3.3f\n' % (ts[l]) |
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| 288 | out+= "--------------------------------------------------\n" |
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| 289 | |
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| 290 | if self._vb: |
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| 291 | print "--------------------------------------------------" |
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| 292 | print " Tsys" |
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| 293 | print "--------------------------------------------------" |
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| 294 | print out |
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[102] | 295 | return tmp |
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| 296 | else: |
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| 297 | i = self.getbeam() |
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| 298 | j = self.getif() |
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| 299 | k = self.getpol() |
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[113] | 300 | ts = self._gettsys() |
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[181] | 301 | out = '' |
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| 302 | for l in range(self.nrow()): |
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| 303 | tm = self._gettime(l) |
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| 304 | out += 'Time[%s]:\n' % (tm) |
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| 305 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i) |
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| 306 | if self.nif() > 1: out += ' IF[%d] ' % (j) |
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| 307 | if self.npol() > 1: out += ' Pol[%d] ' % (k) |
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| 308 | out += '= %3.3f\n' % (ts[l]) |
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| 309 | out += "--------------------------------------------------\n" |
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| 310 | |
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| 311 | if self._vb: |
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| 312 | print "--------------------------------------------------" |
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| 313 | print " Tsys" |
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| 314 | print "--------------------------------------------------" |
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| 315 | print out |
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[102] | 316 | return ts |
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[113] | 317 | |
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| 318 | def get_time(self): |
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| 319 | """ |
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| 320 | Get a list of time stamps for the observations. |
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[181] | 321 | Return a string for each integration in the scantable. |
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[113] | 322 | Parameters: |
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| 323 | none |
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| 324 | Example: |
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| 325 | none |
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| 326 | """ |
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| 327 | out = [] |
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| 328 | for i in range(self.nrow()): |
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| 329 | out.append(self._gettime(i)) |
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| 330 | return out |
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[102] | 331 | |
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| 332 | def set_unit(self, unit='channel'): |
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| 333 | """ |
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| 334 | Set the unit for all following operations on this scantable |
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| 335 | Parameters: |
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| 336 | unit: optional unit, default is 'channel' |
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[113] | 337 | one of '*Hz','km/s','channel', '' |
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[102] | 338 | """ |
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[113] | 339 | |
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| 340 | if unit in ['','pixel', 'channel']: |
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| 341 | unit = '' |
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| 342 | inf = list(self._getcoordinfo()) |
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| 343 | inf[0] = unit |
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| 344 | self._setcoordinfo(inf) |
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| 345 | if self._p: self.plot() |
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| 346 | |
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| 347 | def set_freqframe(self, frame='LSRK'): |
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| 348 | """ |
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| 349 | Set the frame type of the Spectral Axis. |
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| 350 | Parameters: |
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| 351 | frame: an optional frame type, default 'LSRK'. |
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| 352 | Examples: |
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| 353 | scan.set_freqframe('BARY') |
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| 354 | """ |
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| 355 | valid = ['REST','TOPO','LSRD','LSRK','BARY', \ |
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| 356 | 'GEO','GALACTO','LGROUP','CMB'] |
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| 357 | if frame in valid: |
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| 358 | inf = list(self._getcoordinfo()) |
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| 359 | inf[1] = frame |
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| 360 | self._setcoordinfo(inf) |
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[102] | 361 | else: |
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[113] | 362 | print "Please specify a valid freq type. Valid types are:\n",valid |
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| 363 | |
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| 364 | def get_unit(self): |
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| 365 | """ |
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| 366 | Get the default unit set in this scantable |
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| 367 | Parameters: |
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| 368 | Returns: |
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| 369 | A unit string |
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| 370 | """ |
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| 371 | inf = self._getcoordinfo() |
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| 372 | unit = inf[0] |
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| 373 | if unit == '': unit = 'channel' |
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| 374 | return unit |
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[102] | 375 | |
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[158] | 376 | def get_abcissa(self, rowno=0): |
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[102] | 377 | """ |
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[158] | 378 | Get the abcissa in the current coordinate setup for the currently |
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[113] | 379 | selected Beam/IF/Pol |
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| 380 | Parameters: |
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| 381 | none |
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| 382 | Returns: |
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[158] | 383 | The abcissa values and it's format string. |
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[113] | 384 | """ |
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[158] | 385 | abc = self.getabcissa(rowno) |
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| 386 | lbl = self.getabcissalabel(rowno) |
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| 387 | return abc, lbl |
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[113] | 388 | |
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| 389 | def create_mask(self, *args, **kwargs): |
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| 390 | """ |
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[102] | 391 | Compute and return a mask based on [min,max] windows. |
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[189] | 392 | The specified windows are to be INCLUDED, when the mask is |
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[113] | 393 | applied. |
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[102] | 394 | Parameters: |
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| 395 | [min,max],[min2,max2],... |
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| 396 | Pairs of start/end points specifying the regions |
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| 397 | to be masked |
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[189] | 398 | invert: optional argument. If specified as True, |
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| 399 | return an inverted mask, i.e. the regions |
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| 400 | specified are EXCLUDED |
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[102] | 401 | Example: |
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[113] | 402 | scan.set_unit('channel') |
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| 403 | |
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| 404 | a) |
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[102] | 405 | msk = scan.set_mask([400,500],[800,900]) |
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[189] | 406 | # masks everything outside 400 and 500 |
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[113] | 407 | # and 800 and 900 in the unit 'channel' |
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| 408 | |
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| 409 | b) |
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| 410 | msk = scan.set_mask([400,500],[800,900], invert=True) |
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[189] | 411 | # masks the regions between 400 and 500 |
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[113] | 412 | # and 800 and 900 in the unit 'channel' |
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| 413 | |
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[102] | 414 | """ |
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[113] | 415 | u = self._getcoordinfo()[0] |
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| 416 | if self._vb: |
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| 417 | if u == "": u = "channel" |
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| 418 | print "The current mask window unit is", u |
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[102] | 419 | n = self.nchan() |
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[158] | 420 | data = self.getabcissa() |
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[189] | 421 | msk = zeros(n) |
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[102] | 422 | for window in args: |
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| 423 | if (len(window) != 2 or window[0] > window[1] ): |
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| 424 | print "A window needs to be defined as [min,max]" |
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| 425 | return |
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| 426 | for i in range(n): |
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[113] | 427 | if data[i] >= window[0] and data[i] < window[1]: |
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[189] | 428 | msk[i] = 1 |
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[113] | 429 | if kwargs.has_key('invert'): |
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| 430 | if kwargs.get('invert'): |
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| 431 | from numarray import logical_not |
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| 432 | msk = logical_not(msk) |
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[102] | 433 | return msk |
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[113] | 434 | |
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| 435 | def set_restfreqs(self, freqs, unit='Hz'): |
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[102] | 436 | """ |
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| 437 | Set the restfrequency(s) for this scantable. |
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| 438 | Parameters: |
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| 439 | freqs: one or more frequencies |
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| 440 | unit: optional 'unit', default 'Hz' |
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| 441 | Example: |
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[113] | 442 | scan.set_restfreqs([1000000000.0]) |
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[102] | 443 | """ |
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[113] | 444 | if type(freqs) is float or int: |
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| 445 | freqs = (freqs) |
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| 446 | sdtable._setrestfreqs(self,freqs, unit) |
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[102] | 447 | return |
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| 448 | |
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| 449 | def flag_spectrum(self, thebeam, theif, thepol): |
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| 450 | """ |
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| 451 | This flags a selected spectrum in the scan 'for good'. |
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| 452 | USE WITH CARE - not reversible. |
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| 453 | Use masks for non-permanent exclusion of channels. |
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| 454 | Parameters: |
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| 455 | thebeam,theif,thepol: all have to be explicitly |
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| 456 | specified |
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| 457 | Example: |
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| 458 | scan.flag_spectrum(0,0,1) |
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| 459 | flags the spectrum for Beam=0, IF=0, Pol=1 |
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| 460 | """ |
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| 461 | if (thebeam < self.nbeam() and theif < self.nif() and thepol < self.npol()): |
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| 462 | stable.setbeam(thebeam) |
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| 463 | stable.setif(theif) |
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| 464 | stable.setpol(thepol) |
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| 465 | stable._flag(self) |
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| 466 | else: |
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| 467 | print "Please specify a valid (Beam/IF/Pol)" |
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| 468 | return |
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[113] | 469 | |
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| 470 | def plot(self, what='spectrum',col='Pol', panel=None): |
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| 471 | """ |
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| 472 | Plot the spectra contained in the scan. Alternatively you can also |
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| 473 | Plot Tsys vs Time |
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| 474 | Parameters: |
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| 475 | what: a choice of 'spectrum' (default) or 'tsys' |
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[135] | 476 | col: which out of Beams/IFs/Pols should be colour stacked |
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[113] | 477 | panel: set up multiple panels, currently not working. |
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| 478 | """ |
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| 479 | validcol = {'Beam':self.nbeam(),'IF':self.nif(),'Pol':self.npol()} |
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[124] | 480 | |
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[113] | 481 | validyax = ['spectrum','tsys'] |
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[189] | 482 | from asap.asaplot import ASAPlot |
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[113] | 483 | if not self._p: |
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| 484 | self._p = ASAPlot() |
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[189] | 485 | #print "Plotting not enabled" |
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| 486 | #return |
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| 487 | if self._p.is_dead: |
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| 488 | del self._p |
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| 489 | self._p = ASAPlot() |
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[113] | 490 | npan = 1 |
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| 491 | x = None |
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| 492 | if what == 'tsys': |
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| 493 | n = self.nrow() |
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| 494 | if n < 2: |
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| 495 | print "Only one integration. Can't plot." |
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| 496 | return |
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[124] | 497 | self._p.hold() |
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| 498 | self._p.clear() |
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[113] | 499 | if panel == 'Time': |
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| 500 | npan = self.nrow() |
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[124] | 501 | self._p.set_panels(rows=npan) |
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[113] | 502 | xlab,ylab,tlab = None,None,None |
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[124] | 503 | vb = self._verbose() |
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[113] | 504 | self._verbose(False) |
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| 505 | sel = self.get_selection() |
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| 506 | for i in range(npan): |
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[124] | 507 | self._p.subplot(i) |
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[113] | 508 | for j in range(validcol[col]): |
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| 509 | x = None |
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| 510 | y = None |
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| 511 | m = None |
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| 512 | tlab = self._getsourcename(i) |
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[124] | 513 | import re |
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| 514 | tlab = re.sub('_S','',tlab) |
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[113] | 515 | if col == 'Beam': |
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| 516 | self.setbeam(j) |
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| 517 | elif col == 'IF': |
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| 518 | self.setif(j) |
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| 519 | elif col == 'Pol': |
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| 520 | self.setpol(j) |
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| 521 | if what == 'tsys': |
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| 522 | x = range(self.nrow()) |
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| 523 | xlab = 'Time [pixel]' |
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| 524 | m = list(ones(len(x))) |
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| 525 | y = [] |
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| 526 | ylab = r'$T_{sys}$' |
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| 527 | for k in range(len(x)): |
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| 528 | y.append(self._gettsys(k)) |
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| 529 | else: |
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[158] | 530 | x,xlab = self.get_abcissa(i) |
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[113] | 531 | y = self.getspectrum(i) |
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| 532 | ylab = r'Flux' |
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| 533 | m = self.getmask(i) |
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| 534 | llab = col+' '+str(j) |
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| 535 | self._p.set_line(label=llab) |
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| 536 | self._p.plot(x,y,m) |
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[124] | 537 | self._p.set_axes('xlabel',xlab) |
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| 538 | self._p.set_axes('ylabel',ylab) |
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| 539 | self._p.set_axes('title',tlab) |
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[113] | 540 | self._p.release() |
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| 541 | self.set_selection(sel[0],sel[1],sel[2]) |
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| 542 | self._verbose(vb) |
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| 543 | return |
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