The HDF_SD_SETINFO procedure sets information about an SD dataset.
Setting a label, unit, format, or coordinate system string that has more than 256 characters can have unpredictable results.
HDF_SD_SETINFO, SDdataset_id [, CALDATA=structure] [, COORDSYS=string] [, FILL=value] [, FORMAT=string] [, LABEL=string] [, RANGE=[max, min]] [, UNIT=string]
An SD dataset ID as returned by HDF_SD _SELECT or HDF_SD_CREATE.
Set this keyword to a structure that contains the calibration data. This structure must contain five tags as shown below. The first four tags are of double-precision floating-point type. The fifth tag should be a long integer that specifies the HDF number type. The structure should have the following form:
CALDATA={ Cal: 0.0D $ ;Calibration Factor
Cal_Err: 0.0D $ ;Calibration Error
Offset: 0.0D $ ;Uncalibrated Offset
Offset_Err: 0.0D $ ;Uncalibrated Offset Error
Num_Type: 0L } ;Number Type of Uncalibrated Data
The relationship between HDF and IDL number types is illustrated by the following table:
|
HDF Number Type |
IDL Data Type |
|
0L |
UNDEFINED |
|
3L |
STRING |
|
21L |
BYTE |
|
22L |
INTEGER |
|
24L |
LONG INTEGER |
|
5L |
FLOATING-POINT |
|
6L |
DOUBLE-PRECISION |
The relationship between the calibrated data (CD) and the uncalibrated data (UD) is given by the equation:
CD = Cal * (UD - Offset)
Cal and Offset are the values of the Cal and Offset structure fields described above.
Set this keyword to a string to be used as the SD dataset coordinate system.
Set this keyword to the fill value of the SD dataset.
Set this keyword to a string to be used as the SD dataset format.
Set this keyword to a string to be used as the SD dataset label.
Set this keyword to a two dimensional array that contains the minimum and maximum values of the SD dataset.
Set this keyword to a string to be used as the SD dataset units.
; Open an HDF file:
SDinterface_id = HDF_SD_START('demo.hdf', /RDWR)
; Define a new dataset for the file:
SDdataset_id = HDF_SD_CREATE(SDinterface_id, 'variable1', [10, 20], /DOUBLE)
; Create a calibration data structure:
CAL={Cal:1.0D, Cal_Err:0.1D, Offset:2.5D, Offset_Err:0.1D, $
Num_Type:6L}
; Set information about the dataset:
HDF_SD_SETINFO, SDdataset_id, LABEL='label1', unit='unit1', $
format='format1', coordsys='coord1', FILL=999.991, $
RANGE=[99.99,-78], caldata=CAL
; Retrieve the information:
HDF_SD_GETINFO, SDdataset_id, LABEL=l, UNIT=u, FORMAT=f, $
COORDSYS=c, FILL=fill, RANGE=r, CALDATA=cd, $
NDIMS=ndims, DIMS=dims, TYPE=ty
; Print information about the returned variables:
HELP, l, u, f, c, fill, r, cd, ndims, dims, ty
; Print the range:
PRINT, r
; Print the calibration data:
PRINT, cd
; Print the dimensions:
PRINT, dims
; Close the SD interface:
HDF_SD_ENDACCESS, SDdataset_id
HDF_SD_END, SDinterface_id
L STRING = 'label1'
U STRING = 'unit1'
F STRING = 'format1'
C STRING = 'coord1'
FILL DOUBLE = 999.99103
R DOUBLE = Array(2)
CD STRUCT = -> < Anonymous > Array(1)
NDIMS LONG = 2
DIMS LONG = Array(2)
TY STRING = 'DOUBLE'
-78.000000 99.989998
{ 1.0000000 0.10000000 2.5000000 0.10000000 6}
10 20
|
4.0 |
Introduced |