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

2##################### 0184451bd9f27710329ee9eca37ad8be ############################## 

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_imrebin import imrebin as _imrebin_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 _imrebin: 

15 """ 

16 imrebin ---- Rebin an image by the specified integer factors 

17 

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

19 

20 imagename Name of the input image 

21 outfile Output image name. 

22 factor Binning factors for each axis. Use imhead or ia.summary to determine axis ordering. 

23 region Region selection. Default is to use the full image. 

24 box Rectangular region to select in direction plane. Default is to use the entire direction plane. 

25 chans Channels to use. Default is to use all channels. 

26 stokes Stokes planes to use. Default is to use all Stokes planes. Stokes planes cannot be rebinned. 

27 mask Mask to use. Default is none. 

28 dropdeg Drop degenerate axes? 

29 overwrite Overwrite the output if it exists? Default False 

30 stretch Stretch the mask if necessary and possible? 

31 crop Remove pixels from the end of an axis to be rebinned if there are not enough to form an integral bin? 

32 RETURNS bool 

33 

34 --------- examples ----------------------------------------------------------- 

35 

36  

37 PARAMETER SUMMARY 

38 imagename Name of the input (CASA, FITS, MIRIAD) image 

39 outfile Name of output CASA image. Must be specified. 

40 factor Array of binning factors for each axis, eg [2,3]. Use imhead or ia.summary() 

41 to determine order of axes in your image. 

42 region Region selection. Default is to use the 

43 full image. 

44 box Rectangular region to select in direction plane. for 

45 details. Default is to use the entire direction plane. 

46 chans Channels to use. Default is to use all channels. 

47 stokes Stokes planes to use. Default is to use all 

48 Stokes planes. Stokes planes cannot be rebiined. 

49 mask Mask to use. Default is none. 

50 dropdeg Drop degenerate axes? 

51 overwrite Should the image of the same name as specified in outfile be overwritten? 

52 If true, the file if it exists is automatically overwritten. 

53 stretch Stretch the input mask if necessary and possible. 

54 crop Only considered if the length of the input axis is not an integral multiple of 

55 the associated binning factor. If True, pixels at the end of the axis that do not 

56 form a complete bin are not included in the binning. If False, the remaining extra 

57 pixels are averaged to form the final bin along the axis. 

58  

59 DESCRIPTION 

60  

61 This application rebins the specified image by the specified integer binning 

62 factors for each axis. It supports both float valued and complex valued images. 

63 The corresponding output pixel value is the average of the 

64 input pixel values. The output pixel will be masked False if there 

65 were no good input pixels. A polarization axis cannot be rebinned. 

66  

67 The binning factors array must contain at least one element and no more 

68 elements than the number of input image axes. If the number of elements 

69 specified is less than the number of image axes, then the remaining axes 

70 not specified are not rebinned. All specified values must be positive. A 

71 value of one indicates that no rebinning of the associated axis will occur. 

72 Should this array contain any float values, they will be rounded to the next 

73 lowest integer. Note that in many images with both frequency and polarization 

74 axes, the polarization axis preceeds the frequency axis. If you wish to rebin 

75 the frequency axis, it is recommended that you inspect your image with imhead 

76 or ia.summary() to determine the axis ordering. 

77  

78 Binning starts from the origin pixel of the bounding box of the selected region or 

79 the origin pixel of the input image if no region is specified. The value of crop 

80 is used to determine how to handle cases where there are pixels 

81 at the end of the axis that do not form a complete bin. If crop=True, 

82 extra pixels at the end of the axis are discarded. If crop=False, the remaining 

83 pixels are averaged into the final bin along that axis. Should the length 

84 of the axis to be rebinned be an integral multiple of the associated binning 

85 factor, the value of crop is irrelevant. 

86  

87 A value of dropdeg=True will result in the output image not containing 

88 axes that are degenerate in the specified region or in the input image if no 

89 region is specified. Note that, however, the binning 

90 factors array must still account for degenerate axes, and the binning 

91 factor associated with a degenerate axis must always be 1. 

92  

93 EXAMPLE 

94  

95 # rebin the first two axes (normally the direction axes) 

96 imrebin(imagename="my.im", outfile="rebinned.im", factor=[2,3]) 

97  

98 # rebin the frequency axis, which is the fourth axis in this image 

99 imrebin(imagename="my2.im", outfile="rebinned2.im", factor=[1,1,1,4]) 

100  

101  

102 

103 

104 """ 

105 

106 _info_group_ = """analysis""" 

107 _info_desc_ = """Rebin an image by the specified integer factors""" 

108 

109 def __call__( self, imagename='', outfile='', factor=[ ], region='', box='', chans='', stokes='', mask='', dropdeg=False, overwrite=False, stretch=False, crop=True ): 

110 schema = {'imagename': {'type': 'cReqPath', 'coerce': _coerce.expand_path}, 'outfile': {'type': 'cStr', 'coerce': _coerce.to_str}, 'factor': {'type': 'cIntVec', 'coerce': [_coerce.to_list,_coerce.to_intvec]}, 'region': {'type': 'cVariant', 'coerce': [_coerce.to_variant]}, 'box': {'type': 'cStr', 'coerce': _coerce.to_str}, 'chans': {'type': 'cStr', 'coerce': _coerce.to_str}, 'stokes': {'type': 'cStr', 'coerce': _coerce.to_str}, 'mask': {'type': 'cStr', 'coerce': _coerce.to_str}, 'dropdeg': {'type': 'cBool'}, 'overwrite': {'type': 'cBool'}, 'stretch': {'type': 'cBool'}, 'crop': {'type': 'cBool'}} 

111 doc = {'imagename': imagename, 'outfile': outfile, 'factor': factor, 'region': region, 'box': box, 'chans': chans, 'stokes': stokes, 'mask': mask, 'dropdeg': dropdeg, 'overwrite': overwrite, 'stretch': stretch, 'crop': crop} 

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

113 _logging_state_ = _start_log( 'imrebin', [ 'imagename=' + repr(_pc.document['imagename']), 'outfile=' + repr(_pc.document['outfile']), 'factor=' + repr(_pc.document['factor']), 'region=' + repr(_pc.document['region']), 'box=' + repr(_pc.document['box']), 'chans=' + repr(_pc.document['chans']), 'stokes=' + repr(_pc.document['stokes']), 'mask=' + repr(_pc.document['mask']), 'dropdeg=' + repr(_pc.document['dropdeg']), 'overwrite=' + repr(_pc.document['overwrite']), 'stretch=' + repr(_pc.document['stretch']), 'crop=' + repr(_pc.document['crop']) ] ) 

114 task_result = None 

115 try: 

116 task_result = _imrebin_t( _pc.document['imagename'], _pc.document['outfile'], _pc.document['factor'], _pc.document['region'], _pc.document['box'], _pc.document['chans'], _pc.document['stokes'], _pc.document['mask'], _pc.document['dropdeg'], _pc.document['overwrite'], _pc.document['stretch'], _pc.document['crop'] ) 

117 except Exception as exc: 

118 _except_log('imrebin', exc) 

119 raise 

120 finally: 

121 task_result = _end_log( _logging_state_, 'imrebin', task_result ) 

122 return task_result 

123 

124imrebin = _imrebin( ) 

125