Talk:Data Formats Working Group: Difference between revisions
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===In the Idata tag=== | ===In the Idata tag=== | ||
votes: PRJ, | votes: PRJ, ARJN, SMK, AJJ | ||
<pre> | <pre> | ||
<SASdata> | <SASdata> | ||
| Line 16: | Line 16: | ||
<Qfwhm units="1/A"><!-- Qfwhm is optional --></Qfwhm> | <Qfwhm units="1/A"><!-- Qfwhm is optional --></Qfwhm> | ||
<Qmean units="1/A"><!-- Qmean is optional --></Qmean> | <Qmean units="1/A"><!-- Qmean is optional --></Qmean> | ||
< | <Shadowfactor units="none"><!-- Shadowfactor is optional --></Shadowfactor> | ||
</Idata> | </Idata> | ||
</SASdata> | </SASdata> | ||
Latest revision as of 15:14, 31 July 2012
Which way to declare the units?
--Jemian 18:06, 17 December 2007 (EST) Cast your vote by attaching initials to one of these three methods.
In the Idata tag
votes: PRJ, ARJN, SMK, AJJ
<SASdata>
<Idata>
<Q units="1/A"></Q>
<I units="1/cm"></I>
<Qdev units="1/A"></Qdev>
<Idev units="1/cm"></Idev>
<Qfwhm units="1/A"><!-- Qfwhm is optional --></Qfwhm>
<Qmean units="1/A"><!-- Qmean is optional --></Qmean>
<Shadowfactor units="none"><!-- Shadowfactor is optional --></Shadowfactor>
</Idata>
</SASdata>
As attributes of the SASdata tag
votes:
<SASdata
entries="Q:I:Qdev:Idev:Qfwhm:Qmean:ShadowFactor"
units="1/A:1/cm:1/A:1/cm:1/A:1/A:1/A">
<Idata>
<Q></Q>
<I></I>
<Qdev></Qdev>
<Idev></Idev>
<Qfwhm><! Qfwhm is optional ></Qfwhm>
<Qmean><!-- Qmean is optional --></Qmean>
<ShadowFactor><!-- ShadowFactor is optional --></ShadowFactor>
</Idata>
</SASdata>
As axis declarations within the SASdata tag
votes:
<SASdata>
<axis name="Q" units="1/A" type="Idata" />
<axis name="I" units="1/cm" type="Idata" />
<axis name="Qdev" units="1/A" type="constant" >0.000085</axis>
<axis name="Idev" units="1/cm" type="Idata" />
<axis name="Qfwhm" units="1/A" type="constant" >0.000191</axis>
<axis name="Qmean" units="1/A" type="undefined" />
<axis name="ShadowFactor" units="1/A" type="undefined" />
<Idata>
<Q></Q>
<I></I>
<Qdev></Qdev>
<Idev></Idev>
<Qfwhm><! Qfwhm is optional ></Qfwhm>
<Qmean><!-- Qmean is optional --></Qmean>
<ShadowFactor><!-- ShadowFactor is optional --></ShadowFactor>
</Idata>
</SASdata>
--Jemian 12:01, 14 December 2007 (EST) items moved from main page
Considerations
- a key point of what we discussed at NIST:
namely that our goal is to agree a format which that whilst using as much best XML practice as is reasonable, leaves the file instantly human-readable, editable in the simplest of editors, and importable by simple text import filters in programs that don't recognise the XML.
- document what we decide
- 1DWG will take care of documenting the format it defines.
- make that definition with a schema (for absolute validation of any proposed XML file against the standard)
- instructions on how to use that schema
- XSL style sheets to present the XML contents in various forms (also serves as examples)
- a couple of examples
- maybe also some words.
- move some of this discussion to
- discussion page
- other wiki pages
- /dev/null after its usefulness has been exhausted
- 1DWG will take care of documenting the format it defines.
- coordinate with other communities
- NeXus (http://www.nexusformat.org)
- reflectivity
- powder diffraction
- should we consider a file naming convention?
- should we consider a SAS scan naming convention?
- sequential run number from facility
- convention set by the detector software provider
- XML representation of the I vs. Q data
- tabular format
- vector format
- general XML coding style
- readability by humans
- with lots of computer skills
- with rudimentary computer skills
- readability by computers
- standard XML libraries
- generic visualization tools
- common software such as MS Excel or Open Office or XMLPLO source code for windows/linux/OSX86
- A plugin for IGOR has been written, XMLutils.xop, that can handle XML data. The sasXML and IGOR page gives details on the IGOR code required to write the prototype sasXML file.
- availability of style sheets
- readability by humans
- scalability of XML format to 2D data?
- What is required?
- What is optional?
- Use the same tags again in similar contexts
- X,Y pairs for example, whether detector position, beam center, sample position
| inconsistent | consistent |
|---|---|
<beam_size axis="x" units="mm">12.00</beam_size> <beam_size axis="y" units="mm">12.00</beam_size> <x0 units="mm">322.64</x0> <y0 units="mm">327.68</y0> <pixel_x units="mm">5.00</pixel_x> <pixel_y units="mm">5.00</pixel_y> |
<beam_size axis="x" units="mm">12.00</beam_size> <beam_size axis="y" units="mm">12.00</beam_size> <beam_center axis="x" units="mm">322.64</beam_center> <beam_center axis="y" units="mm">327.68</beam_center> <pixel_size axis="x" units="mm">5.00</pixel_size> <pixel_size axis="y" units="mm">5.00</pixel_size> |
Points for Discussion
- Do we want to advocate/recommend particular names for particular tags; eg, SASdata, SASsample, Idata, etc.?
- which ones?
- provide for (optional) inclusion of sample prep details
- provide for (optional) inclusion of other (non-SAS) data in the XML
- Need to allow for more than a single SAS data set in one .xml file
Other Points
- It's not clear how to specify that multiple runs were reduced together
- (AJJ) Assuming that those multiple runs were first stored as XML then referencing the individual files would give all that back information (a la Ghosh suggestion). At NIST we take absolute I vs Q files and combine them to produce an absolute I vs Q file thus that is reasonable here. What about elsewhere?
- How does one include the instrument information of the many runs that we used to make up the composite file
- If we have reduction information, then everything needs to be in there, i.e. the run numbers for the can, the standard, the uniform field, etc.
- Information on the averaging, is it radial, sector, rectangular, etc.
