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Putting Semi-structured Data to Practice Alon Levy Seattle, Washingon University of Washington.

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1 Putting Semi-structured Data to Practice Alon Levy Seattle, Washingon University of Washington

2 Semi-structured Data In many applications, data does not have a rigidly and predefined schema: –e.g., structured files, scientific data, XML. Managing such data requires rethinking the design of components of a DBMS: –data model, query language, optimizer, storage system. The emergence of XML data underscores the importance of semi-structured data.

3 Outline of the Talk Semi-formal definition and examples. Modeling semi-structured data Querying semi-structured data Challenges in practice: –Application: web-site management –The XML challenge –A DBMS challenge: query optimization Current research challenges

4 Main Characteristics Schema is not what it used to be: not given in advance (often implicit in the data) descriptive, not prescriptive, partial, rapidly evolving, may be large (compared to the size of the data) Types are not what they used to be: objects and attributes are not strongly typed objects in the same collection have different representations.

5 Example: XML Database Systems Date Addison-Wesley Foundation for Object/Relational Databases Date Darwen 01-23-456

6 Example: Data Integration Mediator: uniform access to multiple data sources RDBMSOODBMS Structured file Legacy system Each source represents data differently: different data models, different schemas user

7 Physical versus Logical Structure In some cases, data can be modeled in relational or object-oriented models, but extracting the tuples is hard –extracting data from HTML: [Ashish and Knoblock, 97], [Hammer et al., 97], [Kushmerick and Weld, 97]. Semi-structured data: when the data cannot be modeled naturally or usefully using a standard data model.

8 Managing Semi-structured Data How do we model it? (directed labeled graphs). How do we query it? (many proposals, all include regular path expressions). Optimize queries? (beginning to understand). Store the data? (looking for patterns) Integrity constraints, views, updates,…,

9 Outline of the Talk Semi-formal Definition and examples. Modeling semi-structured data Querying semi-structured data Challenges in practice: –Application: web-site management –The XML challenge –A DBMS challenge: query optimization Current research challenges

10 Modeling Semi-Structured Data b01 a1 a2 “DBMS” 1997 “Ullman” “Widom” “Jeff” “http://” author title year LastName FirstName url Labeled directed graphs: (from OEM [TSIMMIS]): Nodes are objects; labels on the arcs are attribute names.

11 Querying Semi-structured Data Important features: –ability to navigate the data (regular path expressions), –querying the attribute names (arc variables), –create new structures, –type coercion. Languages: Lorel (Stanford), UnQL (U. Penn), StruQL (AT&T, INRIA, UW).

12 The StruQL Query Language A StruQL query is a function from a set of input graphs to an output graph. A StruQL expression contains two parts: A query component, and A restructuring component. Formally: INPUT graph names WHERE conjunction of regular path expression atoms CREATE name the nodes in the output graph using Skolem functions LINK specify the links in the resulting graph. OUTPUT resulting-graph name.

13 Example Query: StruQL WHERE Articles(art), art -> l -> value, l in { "Title", "Abstract", "Date", "Text", "Image", "Topimage", "RelatedSite"}, art -> * -> art1, Article(art1) CREATE ArticlePage(art), ArticlePage(art1) LINK ArticlePage(art) -> l -> att, ArticlePage(art) -> “related article” -> ArticlePage(art1)

14 StruQL Details Regular path expressions are constructed by a grammar: R <- “a” |  | R1.R2 | R1|R2 | R1* | L | _ Atoms in the WHERE clause are of the form X -> R -> Y or C(X) The LINK clause includes atoms of the form: LINK f(X) --> “new link” --> g(X) or LINK f(X) --> L --> g(X) Queries can be nested, inheriting the WHERE clauses of their outer blocks.

15 Outline of the Talk Semi-formal Definition and examples. Modeling semi-structured data Querying semi-structured data Challenges in practice: –Application: web-site management –The XML challenge –A DBMS challenge: query optimization Current research challenges

16 Semi-Structured Data in Practice A significant application area: –Web-site management An unexpected test: –XML (Extended Markup Language) An important technical challenge: –Query optimization

17 Web-Site Management Problem: designers are concerned with managing content, structure, and graphical presentation at the same time. Consequently it is hard to: –restructure web sites –enforce integrity constraints –easily create multiple sites from the same data –efficiently update a site.

18 Declarative Specification of Web-sites Key idea: specify the structure of the Web- site declaratively: –A Web-site as a view over an integrated collection of data. Several systems have been built following this paradigm: –Strudel (AT&T, INRIA, U. of Washington) –Araneus (U. of Roma), YAT (INRIA), Autoweb(Milan), Tiramisu(UW)

19 Strudel Architecture

20 Strudel Key ideas: –Introduce intermediate abstract representation of the web site: Declaratively define the structure of the web site: pages, links between them, and their content. –Integrates content from multiple sources. Advantages: –Derives multiple sites from the same data. –Supports easy restructuring and modification. –Declarative representation is a platform for: Specifying and enforcing integrity constraints, Designing warehousing configuration to tradeoff site prematerialization and click-time computation.

21 Why Semi-structured Data? raw data is often semi-structured [e.g., DB&LP] convenient for data integration, web-sites are ultimately graphs, rapidly evolving schema of the web-site, schema of web-site does not enforce typing iterative nature of web-site construction.

22 Outline of the Talk Semi-formal Definition and examples. Modeling semi-structured data Querying semi-structured data Challenges in practice: –Application: web-site management –The XML challenge –A DBMS challenge: query optimization Current research challenges

23 The Test of XML XML (Extended Markup Language) is emerging as a standard for exchanging data on the Web. Enables separation of content (XML) and presentation (XSL). DTD’s (Document Type Descriptors) provide partial schemas for XML documents. Applications will need to manage XML data. Can the database community & semi-structured data be of any help?

24 Semi-structured Data vs. XML Attributes ---> tags objects ---> elements atomic values ---> CDATA (characters) Order? Assumed in XML. XML attributes (fixable) References in XML. Real problem: XML comes with no data model!

25 References and Attributes Database Systems Date Addison-Wesley Foundation for Object/Relational Databases Date Darwen 01-23-456

26 Semantics of Queries with Order select N from Bib.book X, X.reference Y, Y.reference Z, Y.author.lastname N, Z.year U where X.publisher = "Addison-Wesley" ordered-by U Semantics of the answer in unclear!

27 XML-QL where Addison-Wesley $t $a in "www.a.b.c/bib.xml" construct $a $t Proposal submitted to the W3C (workshop to be held on December 3-4th).

28 Outline of the Talk Semi-formal Definition and examples. Modeling semi-structured data Querying semi-structured data Challenges in practice: –Application: web-site management –The XML challenge –A DBMS challenge: query optimization Current research challenges

29 Query Optimization: Challenges Statistics: –What do they even mean when the data is so irregular? –Data comes from external sources. Evaluation of regular path expressions: –need to optimize queries with limited forms of recursion. Mismatch between logical and physical schemas: –graphs are the logical model, but their storage varies considerably.

30 Logical vs. Physical Mismatch Graphs can be stored by: –materializing only forward pointers on edges, –maintaining some backward pointers –indexing on collections We can model the storage by binding patterns: –{title bf }, {author bf, author fb } Other storage patterns can be modeled by GMAPs (Tsatalos et al., 96).

31 The Effect of Binding Patterns on the Search Space Need to search the space of annotated query plans: –every query execution plan is also annotated with the set of inputs it requires. If there are only few binding patterns available: –search space becomes smaller Multiple binding patterns per relation: –size of the space grows. Florescu et al.: pruning methods for searching this space.

32 Conclusions Semi-structured data is everywhere. XML imposes a sense of urgency. An opportunity for the DB community to impact the WWW. We know how to model and query such data. Challenges: optimization, storage, adding partial structure. How can we help users structure information?

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