1 | from asap._asap import sdtable
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2 | from asap import rcParams
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3 | from numarray import ones,zeros
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4 | import sys
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5 |
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6 | class scantable(sdtable):
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7 | """
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8 | The ASAP container for scans
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9 | """
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10 |
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11 | def __init__(self, filename, unit=None):
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12 | """
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13 | Create a scantable from a saved one or make a reference
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14 | Parameters:
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15 | filename: the name of an asap table on disk
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16 | or
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17 | the name of a rpfits/sdfits/ms file
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18 | (integrations within scans are auto averaged
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19 | and the whole file is read)
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20 | or
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21 | [advanced] a reference to an existing
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22 | scantable
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23 | unit: brightness unit; must be consistent with K or Jy.
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24 | Over-rides the default selected by the reader
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25 | (input rpfits/sdfits/ms) or replaces the value
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26 | in existing scantables
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27 | """
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28 | self._vb = rcParams['verbose']
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29 | self._p = None
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30 | from os import stat as st
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31 | import stat
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32 | if isinstance(filename,sdtable):
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33 | sdtable.__init__(self, filename)
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34 | if unit is not None:
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35 | self.set_fluxunit(unit)
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36 | else:
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37 | import os.path
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38 | if not os.path.exists(filename):
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39 | print "File '%s' not found." % (filename)
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40 | return
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41 | filename = os.path.expandvars(filename)
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42 | if os.path.isdir(filename):
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43 | # crude check if asap table
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44 | if os.path.exists(filename+'/table.info'):
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45 | sdtable.__init__(self, filename)
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46 | if unit is not None:
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47 | self.set_fluxunit(unit)
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48 | else:
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49 | print "The given file '%s'is not a valid asap table." % (filename)
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50 | return
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51 | else:
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52 | autoav = rcParams['scantable.autoaverage']
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53 |
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54 | from asap._asap import sdreader
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55 | ifSel = -1
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56 | beamSel = -1
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57 | r = sdreader(filename,ifSel,beamSel)
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58 | print 'Importing data...'
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59 | r._read([-1])
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60 | tbl = r._getdata()
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61 | if unit is not None:
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62 | tbl.set_fluxunit(unit)
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63 | if autoav:
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64 | from asap._asap import average
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65 | tmp = tuple([tbl])
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66 | print 'Auto averaging integrations...'
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67 | tbl2 = average(tmp,(),True,'none')
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68 | sdtable.__init__(self,tbl2)
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69 | del r,tbl
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70 | else:
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71 | sdtable.__init__(self,tbl)
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72 |
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73 | def save(self, name=None, format=None, overwrite=False):
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74 | """
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75 | Store the scantable on disk. This can be an asap (aips++) Table, SDFITS,
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76 | Image FITS or MS2 format.
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77 | Parameters:
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78 | name: the name of the outputfile. For format="FITS" this
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79 | is the directory file name into which all the files will
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80 | be written (default is 'asap_FITS')
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81 | format: an optional file format. Default is ASAP.
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82 | Allowed are - 'ASAP' (save as ASAP [aips++] Table),
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83 | 'SDFITS' (save as SDFITS file)
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84 | 'FITS' (saves each row as a FITS Image)
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85 | 'ASCII' (saves as ascii text file)
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86 | 'MS2' (saves as an aips++
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87 | MeasurementSet V2)
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88 | overwrite: If the file should be overwritten if it exists.
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89 | The default False is to return with warning
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90 | without writing the output. USE WITH CARE.
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91 | Example:
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92 | scan.save('myscan.asap')
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93 | scan.save('myscan.sdfits','SDFITS')
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94 | """
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95 | from os import path
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96 | if format is None: format = rcParams['scantable.save']
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97 | suffix = '.'+format.lower()
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98 | if name is None or name =="":
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99 | name = 'scantable'+suffix
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100 | print "No filename given. Using default name %s..." % name
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101 | name = path.expandvars(name)
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102 | if path.isfile(name) or path.isdir(name):
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103 | if not overwrite:
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104 | print "File %s already exists." % name
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105 | return
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106 | if format == 'ASAP':
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107 | self._save(name)
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108 | else:
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109 | from asap._asap import sdwriter as _sw
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110 | w = _sw(format)
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111 | w.write(self, name)
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112 | return
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113 |
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114 | def copy(self):
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115 | """
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116 | Return a copy of this scantable.
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117 | Parameters:
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118 | none
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119 | Example:
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120 | copiedscan = scan.copy()
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121 | """
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122 | sd = scantable(sdtable._copy(self))
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123 | return sd
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124 |
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125 | def get_scan(self, scanid=None):
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126 | """
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127 | Return a specific scan (by scanno) or collection of scans (by
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128 | source name) in a new scantable.
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129 | Parameters:
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130 | scanid: a scanno or a source name
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131 | Example:
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132 | scan.get_scan('323p459')
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133 | # gets all scans containing the source '323p459'
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134 | """
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135 | if scanid is None:
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136 | print "Please specify a scan no or name to retrieve from the scantable"
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137 | try:
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138 | if type(scanid) is str:
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139 | s = sdtable._getsource(self,scanid)
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140 | return scantable(s)
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141 | elif type(scanid) is int:
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142 | s = sdtable._getscan(self,[scanid])
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143 | return scantable(s)
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144 | elif type(scanid) is list:
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145 | s = sdtable._getscan(self,scanid)
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146 | return scantable(s)
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147 | else:
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148 | print "Illegal scanid type, use 'int' or 'list' if ints."
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149 | except RuntimeError:
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150 | print "Couldn't find any match."
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151 |
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152 | def __str__(self):
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153 | return sdtable._summary(self,True)
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154 |
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155 | def summary(self,filename=None, verbose=None):
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156 | """
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157 | Print a summary of the contents of this scantable.
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158 | Parameters:
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159 | filename: the name of a file to write the putput to
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160 | Default - no file output
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161 | verbose: print extra info such as the frequency table
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162 | The default (False) is taken from .asaprc
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163 | """
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164 | info = sdtable._summary(self, verbose)
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165 | if verbose is None: verbose = rcParams['scantable.verbosesummary']
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166 | if filename is not None:
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167 | if filename is "":
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168 | filename = 'scantable_summary.txt'
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169 | from os.path import expandvars, isfile
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170 | filename = expandvars(filename)
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171 | if isfile(filename):
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172 | data = open(filename, 'w')
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173 | data.write(info)
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174 | data.close()
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175 | else:
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176 | print "Illegal file name '%s'." % (filename)
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177 | print info
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178 |
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179 | def set_cursor(self, thebeam=0,theif=0,thepol=0):
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180 | """
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181 | Set the spectrum for individual operations.
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182 | Parameters:
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183 | thebeam,theif,thepol: a number
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184 | Example:
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185 | scan.set_cursor(0,0,1)
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186 | pol1sig = scan.stats(all=False) # returns std dev for beam=0
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187 | # if=0, pol=1
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188 | """
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189 | self.setbeam(thebeam)
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190 | self.setpol(thepol)
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191 | self.setif(theif)
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192 | return
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193 |
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194 | def get_cursor(self):
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195 | """
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196 | Return/print a the current 'cursor' into the Beam/IF/Pol cube.
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197 | Parameters:
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198 | none
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199 | Returns:
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200 | a list of values (currentBeam,currentIF,currentPol)
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201 | Example:
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202 | none
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203 | """
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204 | i = self.getbeam()
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205 | j = self.getif()
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206 | k = self.getpol()
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207 | if self._vb:
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208 | print "--------------------------------------------------"
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209 | print " Cursor position"
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210 | print "--------------------------------------------------"
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211 | out = 'Beam=%d IF=%d Pol=%d ' % (i,j,k)
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212 | print out
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213 | return i,j,k
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214 |
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215 | def stats(self, stat='stddev', mask=None, all=None):
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216 | """
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217 | Determine the specified statistic of the current beam/if/pol
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218 | Takes a 'mask' as an optional parameter to specify which
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219 | channels should be excluded.
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220 | Parameters:
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221 | stat: 'min', 'max', 'sumsq', 'sum', 'mean'
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222 | 'var', 'stddev', 'avdev', 'rms', 'median'
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223 | mask: an optional mask specifying where the statistic
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224 | should be determined.
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225 | all: if true show all (default or .asaprc) rather
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226 | that the cursor selected spectrum of Beam/IF/Pol
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227 |
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228 | Example:
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229 | scan.set_unit('channel')
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230 | msk = scan.create_mask([100,200],[500,600])
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231 | scan.stats(stat='mean', mask=m)
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232 | """
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233 | if all is None: all = rcParams['scantable.allaxes']
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234 | from asap._asap import stats as _stats
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235 | from numarray import array,zeros,Float
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236 | if mask == None:
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237 | mask = ones(self.nchan())
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238 | axes = ['Beam','IF','Pol','Time']
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239 |
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240 | if all:
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241 | n = self.nbeam()*self.nif()*self.npol()*self.nrow()
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242 | shp = [self.nbeam(),self.nif(),self.npol(),self.nrow()]
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243 | arr = array(zeros(n),shape=shp,type=Float)
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244 |
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245 | for i in range(self.nbeam()):
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246 | self.setbeam(i)
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247 | for j in range(self.nif()):
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248 | self.setif(j)
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249 | for k in range(self.npol()):
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250 | self.setpol(k)
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251 | arr[i,j,k,:] = _stats(self,mask,stat,-1)
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252 | retval = {'axes': axes, 'data': arr, 'cursor':None}
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253 | tm = [self._gettime(val) for val in range(self.nrow())]
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254 | if self._vb:
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255 | self._print_values(retval,stat,tm)
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256 | return retval
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257 |
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258 | else:
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259 | i,j,k = (self.getbeam(),self.getif(),self.getpol())
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260 | statval = _stats(self,mask,stat,-1)
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261 | out = ''
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262 | for l in range(self.nrow()):
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263 | tm = self._gettime(l)
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264 | out += 'Time[%s]:\n' % (tm)
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265 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i)
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266 | if self.nif() > 1: out += ' IF[%d] ' % (j)
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267 | if self.npol() > 1: out += ' Pol[%d] ' % (k)
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268 | out += '= %3.3f\n' % (statval[l])
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269 | out += "--------------------------------------------------\n"
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270 |
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271 | if self._vb:
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272 | print "--------------------------------------------------"
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273 | print " ",stat
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274 | print "--------------------------------------------------"
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275 | print out
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276 | retval = {'axes': axes, 'data': array(statval), 'cursor':(i,j,k)}
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277 | return retval
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278 |
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279 | def stddev(self,mask=None, all=None):
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280 | """
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281 | Determine the standard deviation of the current beam/if/pol
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282 | Takes a 'mask' as an optional parameter to specify which
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283 | channels should be excluded.
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284 | Parameters:
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285 | mask: an optional mask specifying where the standard
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286 | deviation should be determined.
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287 | all: optional flag to show all or a cursor selected
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288 | spectrum of Beam/IF/Pol. Default is all or taken
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289 | from .asaprc
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290 |
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291 | Example:
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292 | scan.set_unit('channel')
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293 | msk = scan.create_mask([100,200],[500,600])
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294 | scan.stddev(mask=m)
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295 | """
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296 | if all is None: all = rcParams['scantable.allaxes']
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297 | return self.stats(stat='stddev',mask=mask, all=all);
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298 |
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299 | def get_tsys(self, all=None):
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300 | """
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301 | Return the System temperatures.
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302 | Parameters:
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303 | all: optional parameter to get the Tsys values for all
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304 | Beams/IFs/Pols (default) or just the one selected
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305 | with scantable.set_cursor()
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306 | [True or False]
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307 | Returns:
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308 | a list of Tsys values.
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309 | """
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310 | if all is None: all = rcParams['scantable.allaxes']
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311 | from numarray import array,zeros,Float
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312 | axes = ['Beam','IF','Pol','Time']
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313 |
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314 | if all:
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315 | n = self.nbeam()*self.nif()*self.npol()*self.nrow()
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316 | shp = [self.nbeam(),self.nif(),self.npol(),self.nrow()]
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317 | arr = array(zeros(n),shape=shp,type=Float)
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318 |
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319 | for i in range(self.nbeam()):
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320 | self.setbeam(i)
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321 | for j in range(self.nif()):
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322 | self.setif(j)
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323 | for k in range(self.npol()):
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324 | self.setpol(k)
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325 | arr[i,j,k,:] = self._gettsys()
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326 | retval = {'axes': axes, 'data': arr, 'cursor':None}
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327 | tm = [self._gettime(val) for val in range(self.nrow())]
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328 | if self._vb:
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329 | self._print_values(retval,'Tsys',tm)
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330 | return retval
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331 |
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332 | else:
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333 | i,j,k = (self.getbeam(),self.getif(),self.getpol())
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334 | statval = self._gettsys()
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335 | out = ''
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336 | for l in range(self.nrow()):
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337 | tm = self._gettime(l)
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338 | out += 'Time[%s]:\n' % (tm)
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339 | if self.nbeam() > 1: out += ' Beam[%d] ' % (i)
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340 | if self.nif() > 1: out += ' IF[%d] ' % (j)
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341 | if self.npol() > 1: out += ' Pol[%d] ' % (k)
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342 | out += '= %3.3f\n' % (statval[l])
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343 | out += "--------------------------------------------------\n"
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344 |
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345 | if self._vb:
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346 | print "--------------------------------------------------"
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347 | print " TSys"
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348 | print "--------------------------------------------------"
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349 | print out
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350 | retval = {'axes': axes, 'data': array(statval), 'cursor':(i,j,k)}
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351 | return retval
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352 |
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353 | def get_time(self, row=-1):
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354 | """
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355 | Get a list of time stamps for the observations.
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356 | Return a string for each integration in the scantable.
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357 | Parameters:
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358 | row: row no of integration. Default -1 return all rows
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359 | Example:
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360 | none
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361 | """
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362 | out = []
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363 | if row == -1:
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364 | for i in range(self.nrow()):
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365 | out.append(self._gettime(i))
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366 | return out
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367 | else:
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368 | if row < self.nrow():
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369 | return self._gettime(row)
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370 |
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371 | def set_unit(self, unit='channel'):
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372 | """
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373 | Set the unit for all following operations on this scantable
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374 | Parameters:
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375 | unit: optional unit, default is 'channel'
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376 | one of '*Hz','km/s','channel', ''
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377 | """
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378 |
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379 | if unit in ['','pixel', 'channel']:
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380 | unit = ''
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381 | inf = list(self._getcoordinfo())
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382 | inf[0] = unit
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383 | self._setcoordinfo(inf)
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384 | if self._p: self.plot()
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385 |
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386 | def set_instrument (self, instr):
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387 | """
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388 | Set the instrument for subsequent processing
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389 | Parameters:
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390 | instr: Select from 'ATPKSMB', 'ATPKSHOH', 'ATMOPRA',
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391 | 'DSS-43' (Tid), 'CEDUNA', and 'HOBART'
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392 | """
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393 | self._setInstrument(instr)
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394 |
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395 | def set_doppler(self, doppler='RADIO'):
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396 | """
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397 | Set the doppler for all following operations on this scantable.
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398 | Parameters:
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399 | doppler: One of 'RADIO', 'OPTICAL', 'Z', 'BETA', 'GAMMA'
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400 | """
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401 |
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402 | inf = list(self._getcoordinfo())
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403 | inf[2] = doppler
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404 | self._setcoordinfo(inf)
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405 | if self._p: self.plot()
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406 |
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407 | def set_freqframe(self, frame=None):
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408 | """
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409 | Set the frame type of the Spectral Axis.
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410 | Parameters:
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411 | frame: an optional frame type, default 'LSRK'.
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412 | Examples:
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413 | scan.set_freqframe('BARY')
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414 | """
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415 | if not frame: frame = rcParams['scantable.freqframe']
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416 | valid = ['REST','TOPO','LSRD','LSRK','BARY', \
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417 | 'GEO','GALACTO','LGROUP','CMB']
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418 | if frame in valid:
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419 | inf = list(self._getcoordinfo())
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420 | inf[1] = frame
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421 | self._setcoordinfo(inf)
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422 | else:
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423 | print "Please specify a valid freq type. Valid types are:\n",valid
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424 |
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425 | def get_unit(self):
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426 | """
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427 | Get the default unit set in this scantable
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428 | Parameters:
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429 | Returns:
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430 | A unit string
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431 | """
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432 | inf = self._getcoordinfo()
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433 | unit = inf[0]
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434 | if unit == '': unit = 'channel'
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435 | return unit
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436 |
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437 | def get_abcissa(self, rowno=0):
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438 | """
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439 | Get the abcissa in the current coordinate setup for the currently
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440 | selected Beam/IF/Pol
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441 | Parameters:
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442 | rowno: an optional row number in the scantable. Default is the
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443 | first row, i.e. rowno=0
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444 | Returns:
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445 | The abcissa values and it's format string (as a dictionary)
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446 | """
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447 | abc = self._getabcissa(rowno)
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448 | lbl = self._getabcissalabel(rowno)
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449 | return abc, lbl
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450 | #return {'abcissa':abc,'label':lbl}
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451 |
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452 | def create_mask(self, *args, **kwargs):
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453 | """
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454 | Compute and return a mask based on [min,max] windows.
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455 | The specified windows are to be INCLUDED, when the mask is
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456 | applied.
|
---|
457 | Parameters:
|
---|
458 | [min,max],[min2,max2],...
|
---|
459 | Pairs of start/end points specifying the regions
|
---|
460 | to be masked
|
---|
461 | invert: optional argument. If specified as True,
|
---|
462 | return an inverted mask, i.e. the regions
|
---|
463 | specified are EXCLUDED
|
---|
464 | Example:
|
---|
465 | scan.set_unit('channel')
|
---|
466 |
|
---|
467 | a)
|
---|
468 | msk = scan.set_mask([400,500],[800,900])
|
---|
469 | # masks everything outside 400 and 500
|
---|
470 | # and 800 and 900 in the unit 'channel'
|
---|
471 |
|
---|
472 | b)
|
---|
473 | msk = scan.set_mask([400,500],[800,900], invert=True)
|
---|
474 | # masks the regions between 400 and 500
|
---|
475 | # and 800 and 900 in the unit 'channel'
|
---|
476 |
|
---|
477 | """
|
---|
478 | u = self._getcoordinfo()[0]
|
---|
479 | if self._vb:
|
---|
480 | if u == "": u = "channel"
|
---|
481 | print "The current mask window unit is", u
|
---|
482 | n = self.nchan()
|
---|
483 | data = self._getabcissa()
|
---|
484 | msk = zeros(n)
|
---|
485 | for window in args:
|
---|
486 | if (len(window) != 2 or window[0] > window[1] ):
|
---|
487 | print "A window needs to be defined as [min,max]"
|
---|
488 | return
|
---|
489 | for i in range(n):
|
---|
490 | if data[i] >= window[0] and data[i] < window[1]:
|
---|
491 | msk[i] = 1
|
---|
492 | if kwargs.has_key('invert'):
|
---|
493 | if kwargs.get('invert'):
|
---|
494 | from numarray import logical_not
|
---|
495 | msk = logical_not(msk)
|
---|
496 | return msk
|
---|
497 |
|
---|
498 | def get_restfreqs(self):
|
---|
499 | """
|
---|
500 | Get the restfrequency(s) stored in this scantable.
|
---|
501 | The return value(s) are always of unit 'Hz'
|
---|
502 | Parameters:
|
---|
503 | none
|
---|
504 | Returns:
|
---|
505 | a list of doubles
|
---|
506 | """
|
---|
507 | return list(self._getrestfreqs())
|
---|
508 |
|
---|
509 | def lines(self):
|
---|
510 | """
|
---|
511 | Print the list of known spectral lines
|
---|
512 | """
|
---|
513 | sdtable._lines(self)
|
---|
514 |
|
---|
515 | def set_restfreqs(self, freqs=None, unit='Hz', lines=None, source=None, theif=None):
|
---|
516 | """
|
---|
517 | Select the restfrequency for the specified source and IF OR
|
---|
518 | replace for all IFs. If the 'freqs' argument holds a scalar,
|
---|
519 | then that rest frequency will be applied to the selected
|
---|
520 | data (and added to the list of available rest frequencies).
|
---|
521 | In this way, you can set a rest frequency for each
|
---|
522 | source and IF combination. If the 'freqs' argument holds
|
---|
523 | a vector, then it MUST be of length the number of IFs
|
---|
524 | (and the available restfrequencies will be replaced by
|
---|
525 | this vector). In this case, *all* data ('source' and
|
---|
526 | 'theif' are ignored) have the restfrequency set per IF according
|
---|
527 | to the corresponding value you give in the 'freqs' vector.
|
---|
528 | E.g. 'freqs=[1e9,2e9]' would mean IF 0 gets restfreq 1e9 and
|
---|
529 | IF 1 gets restfreq 2e9.
|
---|
530 |
|
---|
531 | You can also specify the frequencies via known line names
|
---|
532 | in the argument 'lines'. Use 'freqs' or 'lines'. 'freqs'
|
---|
533 | takes precedence. See the list of known names via function
|
---|
534 | scantable.lines()
|
---|
535 | Parameters:
|
---|
536 | freqs: list of rest frequencies
|
---|
537 | unit: unit for rest frequency (default 'Hz')
|
---|
538 | lines: list of known spectral lines names (alternative to freqs).
|
---|
539 | See possible list via scantable.lines()
|
---|
540 | source: Source name (blank means all)
|
---|
541 | theif: IF (-1 means all)
|
---|
542 | Example:
|
---|
543 | scan.set_restfreqs(freqs=1.4e9, source='NGC253', theif=2)
|
---|
544 | scan.set_restfreqs(freqs=[1.4e9,1.67e9])
|
---|
545 | """
|
---|
546 | if source is None:
|
---|
547 | source = ""
|
---|
548 | if theif is None:
|
---|
549 | theif = -1
|
---|
550 | t = type(freqs)
|
---|
551 | if t is int or t is float:
|
---|
552 | freqs = [freqs]
|
---|
553 | if freqs is None:
|
---|
554 | freqs = []
|
---|
555 | t = type(lines)
|
---|
556 | if t is str:
|
---|
557 | lines = [lines]
|
---|
558 | if lines is None:
|
---|
559 | lines = []
|
---|
560 | sdtable._setrestfreqs(self, freqs, unit, lines, source, theif)
|
---|
561 | return
|
---|
562 |
|
---|
563 |
|
---|
564 | def flag_spectrum(self, thebeam, theif, thepol):
|
---|
565 | """
|
---|
566 | This flags a selected spectrum in the scan 'for good'.
|
---|
567 | USE WITH CARE - not reversible.
|
---|
568 | Use masks for non-permanent exclusion of channels.
|
---|
569 | Parameters:
|
---|
570 | thebeam,theif,thepol: all have to be explicitly
|
---|
571 | specified
|
---|
572 | Example:
|
---|
573 | scan.flag_spectrum(0,0,1)
|
---|
574 | flags the spectrum for Beam=0, IF=0, Pol=1
|
---|
575 | """
|
---|
576 | if (thebeam < self.nbeam() and
|
---|
577 | theif < self.nif() and
|
---|
578 | thepol < self.npol()):
|
---|
579 | sdtable.setbeam(self, thebeam)
|
---|
580 | sdtable.setif(self, theif)
|
---|
581 | sdtable.setpol(self, thepol)
|
---|
582 | sdtable._flag(self)
|
---|
583 | else:
|
---|
584 | print "Please specify a valid (Beam/IF/Pol)"
|
---|
585 | return
|
---|
586 |
|
---|
587 | def plot(self, what='spectrum',col='Pol', panel=None):
|
---|
588 | """
|
---|
589 | Plot the spectra contained in the scan. Alternatively you can also
|
---|
590 | Plot Tsys vs Time
|
---|
591 | Parameters:
|
---|
592 | what: a choice of 'spectrum' (default) or 'tsys'
|
---|
593 | col: which out of Beams/IFs/Pols should be colour stacked
|
---|
594 | panel: set up multiple panels, currently not working.
|
---|
595 | """
|
---|
596 | print "Warning! Not fully functional. Use plotter.plot() instead"
|
---|
597 |
|
---|
598 | validcol = {'Beam':self.nbeam(),'IF':self.nif(),'Pol':self.npol()}
|
---|
599 |
|
---|
600 | validyax = ['spectrum','tsys']
|
---|
601 | from asap.asaplot import ASAPlot
|
---|
602 | if not self._p:
|
---|
603 | self._p = ASAPlot()
|
---|
604 | #print "Plotting not enabled"
|
---|
605 | #return
|
---|
606 | if self._p.is_dead:
|
---|
607 | del self._p
|
---|
608 | self._p = ASAPlot()
|
---|
609 | npan = 1
|
---|
610 | x = None
|
---|
611 | if what == 'tsys':
|
---|
612 | n = self.nrow()
|
---|
613 | if n < 2:
|
---|
614 | print "Only one integration. Can't plot."
|
---|
615 | return
|
---|
616 | self._p.hold()
|
---|
617 | self._p.clear()
|
---|
618 | if panel == 'Time':
|
---|
619 | npan = self.nrow()
|
---|
620 | self._p.set_panels(rows=npan)
|
---|
621 | xlab,ylab,tlab = None,None,None
|
---|
622 | self._vb = False
|
---|
623 | sel = self.get_cursor()
|
---|
624 | for i in range(npan):
|
---|
625 | if npan > 1:
|
---|
626 | self._p.subplot(i)
|
---|
627 | for j in range(validcol[col]):
|
---|
628 | x = None
|
---|
629 | y = None
|
---|
630 | m = None
|
---|
631 | tlab = self._getsourcename(i)
|
---|
632 | import re
|
---|
633 | tlab = re.sub('_S','',tlab)
|
---|
634 | if col == 'Beam':
|
---|
635 | self.setbeam(j)
|
---|
636 | elif col == 'IF':
|
---|
637 | self.setif(j)
|
---|
638 | elif col == 'Pol':
|
---|
639 | self.setpol(j)
|
---|
640 | if what == 'tsys':
|
---|
641 | x = range(self.nrow())
|
---|
642 | xlab = 'Time [pixel]'
|
---|
643 | m = list(ones(len(x)))
|
---|
644 | y = []
|
---|
645 | ylab = r'$T_{sys}$'
|
---|
646 | for k in range(len(x)):
|
---|
647 | y.append(self._gettsys(k))
|
---|
648 | else:
|
---|
649 | x,xlab = self.get_abcissa(i)
|
---|
650 | y = self._getspectrum(i)
|
---|
651 | ylab = r'Flux'
|
---|
652 | m = self._getmask(i)
|
---|
653 | llab = col+' '+str(j)
|
---|
654 | self._p.set_line(label=llab)
|
---|
655 | self._p.plot(x,y,m)
|
---|
656 | self._p.set_axes('xlabel',xlab)
|
---|
657 | self._p.set_axes('ylabel',ylab)
|
---|
658 | self._p.set_axes('title',tlab)
|
---|
659 | self._p.release()
|
---|
660 | self.set_cursor(sel[0],sel[1],sel[2])
|
---|
661 | self._vb = rcParams['verbose']
|
---|
662 | return
|
---|
663 |
|
---|
664 | print out
|
---|
665 |
|
---|
666 | def _print_values(self, dat, label='', timestamps=[]):
|
---|
667 | d = dat['data']
|
---|
668 | a = dat['axes']
|
---|
669 | shp = d.getshape()
|
---|
670 | out = ''
|
---|
671 | for i in range(shp[3]):
|
---|
672 | out += '%s [%s]:\n' % (a[3],timestamps[i])
|
---|
673 | t = d[:,:,:,i]
|
---|
674 | for j in range(shp[0]):
|
---|
675 | if shp[0] > 1: out += ' %s[%d] ' % (a[0],j)
|
---|
676 | for k in range(shp[1]):
|
---|
677 | if shp[1] > 1: out += ' %s[%d] ' % (a[1],k)
|
---|
678 | for l in range(shp[2]):
|
---|
679 | if shp[2] > 1: out += ' %s[%d] ' % (a[2],l)
|
---|
680 | out += '= %3.3f\n' % (t[j,k,l])
|
---|
681 | out += "--------------------------------------------------\n"
|
---|
682 | print "--------------------------------------------------"
|
---|
683 | print " ", label
|
---|
684 | print "--------------------------------------------------"
|
---|
685 | print out
|
---|