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1##################### generated by xml-casa (v2) from initweights.xml ############### 

2##################### dc4e272a28b720b03ce054150b7b2269 ############################## 

3from __future__ import absolute_import 

4import numpy 

5from casatools.typecheck import CasaValidator as _val_ctor 

6_pc = _val_ctor( ) 

7from casatools.coercetype import coerce as _coerce 

8from casatools.errors import create_error_string 

9from .private.task_initweights import initweights as _initweights_t 

10from casatasks.private.task_logging import start_log as _start_log 

11from casatasks.private.task_logging import end_log as _end_log 

12from casatasks.private.task_logging import except_log as _except_log 

13 

14class _initweights: 

15 """ 

16 initweights ---- Initializes weight information in the MS 

17 

18 --------- parameter descriptions --------------------------------------------- 

19 

20 vis Name of input visibility file (MS) 

21 wtmode Initialization mode 

22 tsystable Tsys calibration table to apply on the fly 

23 gainfield Select a subset of calibrators from Tsys table 

24 interp Interpolation type in time[,freq]. default==\'linear,linear\' 

25 spwmap Spectral windows combinations to form for gaintable(s) 

26 dowtsp Initialize the WEIGHT_SPECTRUM column 

27 RETURNS void 

28 

29 --------- examples ----------------------------------------------------------- 

30 

31  

32  

33 This task provides for initialization of the weight information 

34 in the MS. For ALMA interferometry and EVLA data, it should not 

35 generally be necessary to use this task, as the per-spectral window 

36 weight information should have been initialized properly at 

37 fill time (v4.2.2 and later). To set per-channel weights, use 

38 initweights(vis=finalvis,wtmode='weight',dowtsp=True) 

39  

40 Several initialization modes are supported via the wtmode parameter. 

41  

42 If wtmode='nyq' (the default), SIGMA and WEIGHT will be 

43 initialized according to bandwidth and integration time. This 

44 is the theoretically correct mode for raw normalized visibilities. 

45 (e.g., ALMA). For the EVLA, this is correct if switched-power 

46 and bandpass calibration will later be applied. 

47  

48 If wtmode='sigma', WEIGHT will be initialized according to the 

49 existing SIGMA column. 

50  

51 If wtmode='weight', WEIGHT_SPECTRUM will be initialized according 

52 to the existing WEIGHT column; dowtspec=T must be specified in 

53 this case. 

54  

55 If wtmode='ones', SIGMA and WEIGHT will be initialized with 1.0, 

56 globally. This is a traditional means of initializing weight 

57 information, and is adequate when the integration time and 

58 bandwidth are uniform. It is not recommended for modern 

59 instruments (ALMA, EVLA), where variety in observational setups 

60 is common, and properly initialized and calibrated weights 

61 will be used for imaging sensitivity estimates. 

62  

63 There are two EXPERIMENTAL modes, wtmode='tsys' and 'tinttsys'. 

64 In the modes, SIGMA and WEIGHT will be initialized according to 

65 Tsys, bandwidth, and integration time (used only in 'tinttsys'), 

66 i.e., 

67 tsys : weight=bw/Tsys^2 

68 tinttsys: weight=bw*t_int/Tsys^2 

69 These modes use Tsys values to calculate weight as is done in 

70 Tsys calibration. Tsys values are taken from a tsys calibration 

71 table given as tsystable. Selection of gain field (gainfield), 

72 interpolation method (interp), and spectral window mapping (spwmap) 

73 are supported, too. 

74 Available types of interpolation are, 

75 Time: 'nearest', 'linear', the variation of those with 'perobs' 

76 or 'perscan', e.g., 'linearperobs' (enforce obsId 

77 boundaries in interpolation) 

78 Freq: 'nearest', 'linear', 'cubic', 'spline', and the variation 

79 of those with 'flag', e.g., 'linearflag' (with 

80 channelized flag). 

81 See the help of applycal for details of interpolations. 

82 Note if the weight in an MS is initialized with these modes and 

83 Tsys calibration table is applied with calwt=True after that, the 

84 weight would be contaminated by being devided by square of Tsys 

85 twice. 

86 !!! USERS ARE ADVISED TO USE THESE EXPERIMENTAL MODES WITH CARE !!! 

87  

88 For the above wtmodes, if dowtsp=T (or if the WEIGHT_SPECTRUM 

89 column already exists), the WEIGHT_SPECTRUM column will be 

90 initialized (uniformly in channel in wtmode='nyq', 'sigma', 

91 'weight', and 'ones'), in a manner consistent with the 

92 disposition of the WEIGHT column. If the WEIGHT_SPECTRUM 

93 column does not exist, dowtsp=T will force its creation. 

94 Use of the WEIGHT_SPECTRUM column is only meaningful 

95 for ALMA data which will be calibrated with channelized 

96 Tsys information, or if the weights will become channelized 

97 after calibration, e.g., via averaging over time- and 

98 channel-dependent flagging. (A task for channel-dependent 

99 weight estimation from the data itself is also currently under 

100 development). 

101 In non-channelized modes (wtmode='nyq', 'sigma', 'weight', and 

102 'ones') or when dowtsp=F, SIGMA_SPECTRUM column will be removed 

103 from MS. On the other hand, SIGMA_SPECTRUM column is added and 

104 initialized in channelized modes (wtmode='tsys' and 'tinttsys') 

105 if dowtsp=T or WEIGHT_SPECTRUM already column exists. 

106  

107 Two additional modes are available for managing the spectral 

108 weight info columns; these should be used with extreme care: If 

109 wtmode='delwtsp', the WEIGHT_SPECTRUM column will be deleted (if 

110 it exists). If wtmode='delsigsp', the SIGMA_SPECTRUM column 

111 will be deleted (if it exists). Note that creation of 

112 SIGMA_SPECTRUM is not supported via this method. 

113  

114 Note that this task does not support any prior selection. 

115 Intialization of the weight information must currently be done 

116 globally or not at all. This is to maintain consistency. 

117  

118  

119 

120 

121 """ 

122 

123 _info_group_ = """calibration""" 

124 _info_desc_ = """Initializes weight information in the MS""" 

125 

126 def __call__( self, vis='', wtmode='nyq', tsystable='', gainfield='', interp='', spwmap=[ ], dowtsp=False ): 

127 schema = {'vis': {'type': 'cReqPath', 'coerce': _coerce.expand_path}, 'wtmode': {'type': 'cStr', 'coerce': _coerce.to_str, 'allowed': [ 'delwtsp', 'nyq', 'ones', 'tsys', 'weight', 'tinttsys', 'sigma', 'delsigsp' ]}, 'tsystable': {'type': 'cPath', 'coerce': _coerce.expand_path}, 'gainfield': {'type': 'cStr', 'coerce': _coerce.to_str}, 'interp': {'type': 'cStr', 'coerce': _coerce.to_str}, 'spwmap': {'type': 'cIntVec', 'coerce': [_coerce.to_list,_coerce.to_intvec]}, 'dowtsp': {'type': 'cBool'}} 

128 doc = {'vis': vis, 'wtmode': wtmode, 'tsystable': tsystable, 'gainfield': gainfield, 'interp': interp, 'spwmap': spwmap, 'dowtsp': dowtsp} 

129 assert _pc.validate(doc,schema), create_error_string(_pc.errors) 

130 _logging_state_ = _start_log( 'initweights', [ 'vis=' + repr(_pc.document['vis']), 'wtmode=' + repr(_pc.document['wtmode']), 'tsystable=' + repr(_pc.document['tsystable']), 'gainfield=' + repr(_pc.document['gainfield']), 'interp=' + repr(_pc.document['interp']), 'spwmap=' + repr(_pc.document['spwmap']), 'dowtsp=' + repr(_pc.document['dowtsp']) ] ) 

131 task_result = None 

132 try: 

133 task_result = _initweights_t( _pc.document['vis'], _pc.document['wtmode'], _pc.document['tsystable'], _pc.document['gainfield'], _pc.document['interp'], _pc.document['spwmap'], _pc.document['dowtsp'] ) 

134 except Exception as exc: 

135 _except_log('initweights', exc) 

136 raise 

137 finally: 

138 task_result = _end_log( _logging_state_, 'initweights', task_result ) 

139 return task_result 

140 

141initweights = _initweights( ) 

142