Jim -- I agree with most of your assertions and you have phrased it right "relatively compliant with physical structure". Some of these examples from programming languages would be " COBOL occur depending upon clause" and as you mentioned in the example "a previous value in the structure indicating which field in the choice will be present or how many occurrences a subsequent field will have" etc.. These are the most common kind of constructs that occur quite frequently in the programming structures. I think DFDL standard is addressing a very critical requirement "rendering a logical structure to physical format and vice versa" which no other public standard has addressed so far to my knowledge and this work is/will be very complimentary with other standards. Suman Kalia IBM Toronto Lab WebSphere Business Integration Application Connectivity Tools Tel : 905-413-3923 T/L 969-3923 Fax : 905-413-4850 Internet ID : kalia@ca.ibm.com ----- Forwarded by Suman Kalia/Toronto/IBM on 11/19/2004 02:05 PM ----- "Myers, James D" <jim.myers@pnl.gov> Sent by: owner-dfdl-wg@ggf.org 11/19/2004 12:34 PM To dfdl-wg@gridforum.org cc Subject RE: [dfdl-wg] simple way to study hard DFDL example problem - IBMFormat VS rec ords as XML Unfortuantely, there's a slippery slope here - there are no ints on the disk, just logical ones and zeros that you can transform into a second logical structure composed of ints, assuming you specify byte order. I think we have a whole stream of examples beyond that - removing delimiters, using a length prefix to define the length of a subsequent structure, etc. - that we see as minor transformations to something still relatively "compliant" with the physical structure, but, I believe, require the same machinery as things I think we will all agree are beyond the scope of what DFDL should aim for. In practice, I think people should get out of DFDL as soon as possible just as you say - use other technologies once you get an initial structure. But I think there are cases where you have to stay in DFDL - anything where I have to transform the initial physically-compliant structure to interpret subsequent fields - x and y ints tell me how many pixel repeats, an int greater than another int read previsouly implies a different subsequent structure, etc. And again, the minimal mechinery to do that lets you go farther than you'd want people to go in practice. There may also be reasonable use cases where the ability to stay in DFDL is important. For example, take digital preservation, where I might want to map all document files to a standardized schema, regardless of whether it was word, pdf, etc. Being able to specify the full descriptions in one file that then requires only one parser to interpret all formats *might* be worth the cost to do complex things in DFDL. I don't think our goal for a version 1 should be to support such use, but I don't think we can meet our simple goals without 'accidentally' making it possible. I'd be happy to be proved wrong - seems like a deep point that would be cool to understand. I'm not sure how we get to a 'proof' though - we're trying to prove that there exists something DFDL as currently formulated can't describe. So - we either need to find that example or turn to some sort of logic formalism to discover what primitive(s) we're missing that keep us for emulating some class of parser/programming. (Or find something in DFDL that we don't need to support the examples we do want to target...). Jim -----Original Message----- From: owner-dfdl-wg@ggf.org [mailto:owner-dfdl-wg@ggf.org] On Behalf Of Suman Kalia Sent: Friday, November 19, 2004 11:50 AM To: dfdl-wg@gridforum.org Subject: Fw: [dfdl-wg] simple way to study hard DFDL example problem - IBMFormat VS rec ords as XML I tend to agree that there 2 inherent logical structures in this scenario. DFDL scope in my option should be restricted to parsing the physical stream and populating the logical structure which is complaint with the structure of physical stream and vice versa. We have numerous options and technologies (XSLT, XSD<->XSD mappers, good old programming languages, Xquery) which do pretty good job to transform one logical structure to another logical structure. Building some kinds of annotations which would allow a physical stream to map to a completely different logical structure will make the DFDL language very complex. Suman Kalia IBM Toronto Lab WebSphere Business Integration Application Connectivity Tools Tel : 905-413-3923 T/L 969-3923 Fax : 905-413-4850 Internet ID : kalia@ca.ibm.com ----- Forwarded by Suman Kalia/Toronto/IBM on 11/19/2004 11:36 AM ----- "Myers, James D" <jim.myers@pnl.gov> Sent by: owner-dfdl-wg@ggf.org 11/19/2004 11:05 AM To dfdl-wg@gridforum.org cc Subject RE: [dfdl-wg] simple way to study hard DFDL example problem - IBMFormat VS rec ords as XML I was thinking that step 1 involved recognizing the <first/> and <data> elements and creating a sequence of <myfirst>here's the data</myfirst>, <mymiddle>more data</mymiddle> and <mylast>... elements and then assembling the new layer by some sort of choice to concatenate the relevant myfirst, optional mymiddle, and myend elements for each item. I think that requires a way to make a choice based on the <first/>, <middle/>, <last/> elements and populate either a <myfirst>, <mymiddle>, or <mylast> elements (all subtypes of string?) with the contents of the following data element, which I think we can do in DFDL. This is just our standard choice flag that decides which of several options exist. Then, I think you'd need logic to decide how many elements represent one item, which I think we have, followed by a way to concatenate these elements to produce a string source, which again I think we have (same as saying a complex can be built from two floats referenced from another layer instead of from a float stream). This part is the same problem as having a text file where one <CR> separates lines and <CR><CR> separates paragraphs and you want to create single strings (from a variable number of lines) for each paragraph. Again, I won't argue that this is simple and fun, but I think the machinery exists and is the same as that from our simple examples. Jim -----Original Message----- From: owner-dfdl-wg@ggf.org [mailto:owner-dfdl-wg@ggf.org] On Behalf Of mike.beckerle@ascentialsoftware.com Sent: Friday, November 19, 2004 10:44 AM To: Myers, James D; dfdl-wg@gridforum.org Subject: RE: [dfdl-wg] simple way to study hard DFDL example problem - IBMFormat VS rec ords as XML You are thinking along the lines I was; however, the challenge is that I cannot find a way to do this using multilayer so I'm uncomfortable suggesting that it's possible at all anymore. Here's some reasoning why. In particular, it's the intersection of the induction across the items with the first, middle*, last thing, and the spanning that seems to defy my efforts to cut it up into progressive transformation layer by layer. In some conversations I've referred to this problem as the "non-conforming trees" problem. The fundamental shapes of the trees are not compatible, and expressing the transformation between them isn't easily done via induction of any kind on one or the other of the trees. To me the First, Middle*, Last thing is very problematic. It's effectively a little regular language (in the formal sense) that has to be recognized. Generally this requires a finite-state-machine, and what makes FSMs interesting and complex is always the way you diagnose malformed data in addition to recognizing correct data. Now, a finite-state-machine is, to my mind, the ultimate procedural abstraction, the quintessential opposite of "declarative" expression. To be declarative about a FSM you end up saying "recognize this regular language", and providing a description of the regular language, which is of course, just begging the question of how it actually works. (And for us, we're not really talking about a regular language of character text, but a pattern of usage in the binary data layout that obeys the pattern of a regular language. So it's not like having a little regular expression thing for validating text strings helps with this problem.) I guess I'm arguing that a black box approach to this is not only acceptable, but is highly likely to be the only "good" way to do it. In light of this I've suggested a rep property called "streamFormat" (perhaps should be renamed "recordFormat"), which gets values from the set VS, V, VBS, FB, FBS, etc. etc. all these well-defined legacy data formats (there are 19 of them I think). In additon, one should be able to extend this by introduction of a blackbox transformation. And ... here's the rub...if that's true for this case, then other "hard" examples like run-length encoding seem also in this category. There's several "leaps of faith" just made in these arguments, so i'd still like people to take this "XML challenge" and see if there's some magic I'm overlooking. ...mikeb From: Myers, James D [mailto:jim.myers@pnl.gov] Sent: Friday, November 19, 2004 9:52 AM To: dfdl-wg@gridforum.org Subject: RE: [dfdl-wg] simple way to study hard DFDL example problem - IBM Format VS rec ords as XML Without digging too much into the details, I'd say this is an example where multi-layer comes in. The DFDL would describe a hidden layer in which the first, middle, last data elements would be identified and put into a list, and then that hidden list would be used as the input to create items in the output layer. I think this is conceptually similar to one of our run-length encoding examples (more complex of course). If you read a sequence if ints and then a sequence of floats and need to output a sequence of floats with int[i] repeats of float[i], it would be easiest to create a hidden layer representing the int and float sequences and to then produce output from that. If you don't think about a layer, even this example gets painful - I need to read an int, skip forward somewhere to find a float, skip back to get the next int, etc. Mike's full example, not starting with the XML-ized version, might be something that requires more than one layer - read the original into something with with XML schema Mike defines, then a layer making a sequence of data elements, and then something that has the desired logical output. I guess I would claim that this would not be too bad a way to describe a fairly complex format in terms of a fairly different logical structure. Whether one *should* do this in DFDL, or whether it would make more sense to a) write a black box parser to get to items, or b) use DFDL to get to the initial schema Mike wrote and use XSLT afterwards to convert to the desired logical structure. I think there are enough cases where we need the multilayer functionality in DFDL that are relatively simple that we have to have it, which means it will then be possible to deal with complex transformations in DFDL even if not simple/practical. Jim -----Original Message----- From: owner-dfdl-wg@ggf.org [mailto:owner-dfdl-wg@ggf.org] On Behalf Of mike.beckerle@ascentialsoftware.com Sent: Thursday, November 18, 2004 9:53 PM To: dfdl-wg@gridforum.org Subject: [dfdl-wg] simple way to study hard DFDL example problem - IBM Format VS rec ords as XML I've come up with a way to articulate the difficulties I'm having with DFDL for complex file formats. This problem may not be that hard for someone with more XML, XPath or XQuery experience, so I'd apprecate it if you could look it over and if necessary even run it by your resident XML experts. In case the emailer mangles all the line lengths, I've also attached the below as a file. <!-- Example motivated by DFDL for IBM Format-VS --> <!-- see http://tinyurl.com/3s2bq for details on IBM Format-VS --> <!-- Logically, our data is this: --> <ITEM>The first item</ITEM> <ITEM>This is the second item</ITEM> <ITEM>The third</ITEM> <!-- That is, data having this "logical" schema --> <sequence> <element name="ITEM" type="string" minOccurs="0" maxOccurs="unbounded"/> </sequence> <!-- But the below is the input data were starting from. What you see below simulates the structural issues of IBM Format-VS, but converting the problem into an XML to XML transformation problem --> <BLOCK> <SEGMENT> <WHOLE/> <!-- a WHOLE segment holds a whole item (Duh!). This element is really a type tag. --> <DATA>The first item</DATA> </SEGMENT> </BLOCK> <BLOCK> <SEGMENT> <FIRST/> <!-- a FIRST segment holds the first part of an item. --> <DATA>Thi</DATA> </SEGMENT> </BLOCK> <BLOCK> <SEGMENT> <MIDDLE/> <!-- a MIDDLE segment holds data from the center of an item --> <DATA>s is t</DATA> </SEGMENT> </BLOCK> <BLOCK> <SEGMENT> <MIDDLE/> <DATA>he sec</DATA> </SEGMENT> </BLOCK> <BLOCK> <SEGMENT> <LAST/> <!-- a LAST segment holds data from the end of the item. --> <DATA>ond item</DATA> </SEGMENT> <SEGMENT> <WHOLE/><!-- This second segment in this block is a WHOLE segment. However in general the 2nd segment of a block could be a WHOLE or the FIRST segment of another multi-segment multi-block spanning item --> <DATA>Third item</DATA> </SEGMENT> </BLOCK> <!-- Some observations: --> <!-- Data is organized into BLOCKs --> <!-- Each block contains 1 or 2 SEGMENTs --> <!-- Each SEGMENT is either a WHOLE item, or the item spans 2 or more SEGMENTs --> <!-- Spanning data is broken on arbitrary boundaries across segments it spans --> <!-- Spanning involves a FIRST, MIDDLE*, LAST segment structure. --> <!-- MIDDLE* means zero or more MIDDLE segments. --> <!-- The question: how can we express the transformation into the desired logical form? Or is this beyond the call of duty for DFDL? Goals include to be as declarative as possible, and ideally, do it as a set of XML Schema annotations in the GGF DFDL style. --> <!-- here's an XSD (untested) for the input data structure --> <complexType name="Format_VS_t"> <sequence> <element name="BLOCK" type="Block_t" minOccurs="0" maxOccurs="unbounded"/> </sequence> </complexType> <complexType name="Block_t"> <sequence> <element name="SEGMENT" type="Segment_t" minOccurs="1" maxOccurs="2"/> </sequence> </complexType> <complexType name="Segment_t"> <sequence> <choice> <element name="WHOLE"> </element> <element name="FIRST"> </element> <element name="LAST"> </element> <element name="MIDDLE"> </element> </choice> <element name="DATA" type="string"/> </sequence> </complexType>