Your search keyword '"Vrgoc, Domagoj"' showing total 34 results

1. Path-based Algebraic Foundations of Graph Query Languages

Author

Angles, Renzo, Bonifati, Angela, García, Roberto, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

Graph databases are gaining momentum thanks to the flexibility and expressiveness of their data models and query languages. A standardization activity driven by the ISO/IEC standardization body is also ongoing and has already conducted to the specification of the first versions of two standard graph query languages, namely SQL/PGQ and GQL, respectively in 2023 and 2024. Apart from the standards, there exists a panoply of concrete graph query languages provided by current graph database systems, each offering different query features. A common limitation of current graph query engines is the absence of an algebraic approach for evaluating path queries. To address this, we introduce an abstract algebra for evaluating path queries, allowing paths to be treated as first-class entities within the query processing pipeline. We demonstrate that our algebra can express a core fragment of path queries defined in GQL and SQL/PGQ, thereby serving as a formal framework for studying both standards and supporting their implementation in current graph database systems. We also show that evaluation trees for path algebra expressions can function as logical plans for evaluating path queries and enable the application of query optimization techniques. Our algebraic framework has the potential to act as a lingua franca for path query evaluation, enabling different implementations to be expressed and compared., Comment: Under review

Published

2024

2. PathFinder: A unified approach for handling paths in graph query languages

Author

Farías, Benjamín, Martens, Wim, Rojas, Carlos, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

Path queries are a core feature of modern graph query languages such as Cypher, SQL/PGQ, and GQL. These languages provide a rich set of features for matching paths, such as restricting to certain path modes (shortest, simple, trail) and constraining the edge labels along the path by a regular expression. In this paper we present PathFinder, a unifying approach for dealing with path queries in all these query languages. PathFinder leverages a compact representation of the (potentially exponential number of) paths that can match a given query, extends it with pipelined execution, and supports all commonly used path modes. In the paper we describe the algorithmic backbone of PathFinder, provide a reference implementation, and test it over a large set of real-world queries and datasets. Our results show that PathFinder exhibits very stable behavior, even on large data and complex queries, and its performance is an order of magnitude better than that of many modern graph engines.

Published

2023

3. PG-Schema: Schemas for Property Graphs

Author

Angles, Renzo, Bonifati, Angela, Dumbrava, Stefania, Fletcher, George, Green, Alastair, Hidders, Jan, Li, Bei, Libkin, Leonid, Marsault, Victor, Martens, Wim, Murlak, Filip, Plantikow, Stefan, Savković, Ognjen, Schmidt, Michael, Sequeda, Juan, Staworko, Sławek, Tomaszuk, Dominik, Voigt, Hannes, Vrgoč, Domagoj, Wu, Mingxi, and Živković, Dušan

Subjects

Computer Science - Databases

Abstract

Property graphs have reached a high level of maturity, witnessed by multiple robust graph database systems as well as the ongoing ISO standardization effort aiming at creating a new standard Graph Query Language (GQL). Yet, despite documented demand, schema support is limited both in existing systems and in the first version of the GQL Standard. It is anticipated that the second version of the GQL Standard will include a rich DDL. Aiming to inspire the development of GQL and enhance the capabilities of graph database systems, we propose PG-Schema, a simple yet powerful formalism for specifying property graph schemas. It features PG-Types with flexible type definitions supporting multi-inheritance, as well as expressive constraints based on the recently proposed PG-Keys formalism. We provide the formal syntax and semantics of PG-Schema, which meet principled design requirements grounded in contemporary property graph management scenarios, and offer a detailed comparison of its features with those of existing schema languages and graph database systems., Comment: 26 pages

Published

2022

4. GPC: A Pattern Calculus for Property Graphs

Author

Francis, Nadime, Gheerbrant, Amélie, Guagliardo, Paolo, Libkin, Leonid, Marsault, Victor, Martens, Wim, Murlak, Filip, Peterfreund, Liat, Rogova, Alexandra, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

The development of practical query languages for graph databases runs well ahead of the underlying theory. The ISO committee in charge of database query languages is currently developing a new standard called Graph Query Language (GQL) as well as an extension of the SQL Standard for querying property graphs represented by a relational schema, called SQL/PGQ. The main component of both is the pattern matching facility, which is shared by the two standards. In many aspects, it goes well beyond RPQs, CRPQs, and similar queries on which the research community has focused for years. Our main contribution is to distill the lengthy standard specification into a simple Graph Pattern Calculus (GPC) that reflects all the key pattern matching features of GQL and SQL/PGQ, and at the same time lends itself to rigorous theoretical investigation. We describe the syntax and semantics of GPC, along with the typing rules that ensure its expressions are well-defined, and state some basic properties of the language. With this paper we provide the community a tool to embark on a study of query languages that will soon be widely adopted by industry.

Published

2022

5. Representing Paths in Graph Database Pattern Matching

Author

Martens, Wim, Niewerth, Matthias, Popp, Tina, Vansummeren, Stijn, and Vrgoc, Domagoj

Subjects

Computer Science - Databases

Abstract

Modern graph database query languages such as GQL, SQL/PGQ, and their academic predecessor G-Core promote paths to first-class citizens in the sense that paths that match regular path queries can be returned to the user. This brings a number of challenges in terms of efficiency, caused by the fact that graphs can have a huge amount of paths between a given node pair. We introduce the concept of path multiset representations (PMRs), which can represent multisets of paths in an exponentially succinct manner. After exploring fundamental problems such as minimization and equivalence testing of PMRs, we explore how their use can lead to significant time and space savings when executing query plans. We show that, from a computational complexity point of view, PMRs seem especially well-suited for representing results of regular path queries and extensions thereof involving counting, random sampling, unions, and joins.

Published

2022

6. Evaluating regular path queries under the all-shortest paths semantics

Author

Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

The purpose of this report is to explain how the textbook breadth-first search algorithm (BFS) can be modified in order to also create a compact representation of all shortest paths connecting a single source node to all the nodes reachable from it. From this representation, all these paths can also be efficiently enumerated. We then apply this algorithm to solve a similar problem in edge labelled graphs, where paths also have an additional restriction that their edge labels form a word belonging to a regular language. Namely, we solve the problem of evaluating regular path queries (RPQs) under the all-shortest paths semantics.

Published

2022

7. Graph Pattern Matching in GQL and SQL/PGQ

Author

Deutsch, Alin, Francis, Nadime, Green, Alastair, Hare, Keith, Li, Bei, Libkin, Leonid, Lindaaker, Tobias, Marsault, Victor, Martens, Wim, Michels, Jan, Murlak, Filip, Plantikow, Stefan, Selmer, Petra, Voigt, Hannes, van Rest, Oskar, Vrgoč, Domagoj, Wu, Mingxi, and Zemke, Fred

Subjects

Computer Science - Databases, H.2.3

Abstract

As graph databases become widespread, JTC1 -- the committee in joint charge of information technology standards for the International Organization for Standardization (ISO), and International Electrotechnical Commission (IEC) -- has approved a project to create GQL, a standard property graph query language. This complements a project to extend SQL with a new part, SQL/PGQ, which specifies how to define graph views over an SQL tabular schema, and to run read-only queries against them. Both projects have been assigned to the ISO/IEC JTC1 SC32 working group for Database Languages, WG3, which continues to maintain and enhance SQL as a whole. This common responsibility helps enforce a policy that the identical core of both PGQ and GQL is a graph pattern matching sub-language, here termed GPML. The WG3 design process is also analyzed by an academic working group, part of the Linked Data Benchmark Council (LDBC), whose task is to produce a formal semantics of these graph data languages, which complements their standard specifications. This paper, written by members of WG3 and LDBC, presents the key elements of the GPML of SQL/PGQ and GQL in advance of the publication of these new standards.

Published

2021

8. MillenniumDB: A Persistent, Open-Source, Graph Database

Author

Vrgoc, Domagoj, Rojas, Carlos, Angles, Renzo, Arenas, Marcelo, Arroyuelo, Diego, Aranda, Carlos Buil, Hogan, Aidan, Navarro, Gonzalo, Riveros, Cristian, and Romero, Juan

Subjects

Computer Science - Databases

Abstract

In this systems paper, we present MillenniumDB: a novel graph database engine that is modular, persistent, and open source. MillenniumDB is based on a graph data model, which we call domain graphs, that provides a simple abstraction upon which a variety of popular graph models can be supported. The engine itself is founded on a combination of tried and tested techniques from relational data management, state-of-the-art algorithms for worst-case-optimal joins, as well as graph-specific algorithms for evaluating path queries. In this paper, we present the main design principles underlying MillenniumDB, describing the abstract graph model and query semantics supported, the concrete data model and query syntax implemented, as well as the storage, indexing, query planning and query evaluation techniques used. We evaluate MillenniumDB over real-world data and queries from the Wikidata knowledge graph, where we find that it outperforms other popular persistent graph database engines (including both enterprise and open source alternatives) that support similar query features.

Published

2021

9. Expressive power of linear algebra query languages

Author

Geerts, Floris, Muñoz, Thomas, Riveros, Cristian, and Vrgoč, Domagoj

Subjects

Computer Science - Computational Complexity, Computer Science - Databases, Computer Science - Data Structures and Algorithms

Abstract

Linear algebra algorithms often require some sort of iteration or recursion as is illustrated by standard algorithms for Gaussian elimination, matrix inversion, and transitive closure. A key characteristic shared by these algorithms is that they allow looping for a number of steps that is bounded by the matrix dimension. In this paper we extend the matrix query language MATLANG with this type of recursion, and show that this suffices to express classical linear algebra algorithms. We study the expressive power of this language and show that it naturally corresponds to arithmetic circuit families, which are often said to capture linear algebra. Furthermore, we analyze several sub-fragments of our language, and show that their expressive power is closely tied to logical formalisms on semiring-annotated relations.

Published

2020

10. WDBench: A Wikidata Graph Query Benchmark

Author

Angles, Renzo, Aranda, Carlos Buil, Hogan, Aidan, Rojas, Carlos, Vrgoč, Domagoj, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Sattler, Ulrike, editor, Hogan, Aidan, editor, Keet, Maria, editor, Presutti, Valentina, editor, Almeida, João Paulo A., editor, Takeda, Hideaki, editor, Monnin, Pierre, editor, Pirrò, Giuseppe, editor, and d’Amato, Claudia, editor

Published

2022

11. Constant delay algorithms for regular document spanners

Author

Florenzano, Fernando, Riveros, Cristian, Ugarte, Martin, Vansummeren, Stijn, and Vrgoc, Domagoj

Subjects

Computer Science - Databases, Computer Science - Formal Languages and Automata Theory

Abstract

Regular expressions and automata models with capture variables are core tools in rule-based information extraction. These formalisms, also called regular document spanners, use regular languages in order to locate the data that a user wants to extract from a text document, and then store this data into variables. Since document spanners can easily generate large outputs, it is important to have good evaluation algorithms that can generate the extracted data in a quick succession, and with relatively little precomputation time. Towards this goal, we present a practical evaluation algorithm that allows constant delay enumeration of a spanner's output after a precomputation phase that is linear in the document. While the algorithm assumes that the spanner is specified in a syntactic variant of variable set automata, we also study how it can be applied when the spanner is specified by general variable set automata, regex formulas, or spanner algebras. Finally, we study the related problem of counting the number of outputs of a document spanner, providing a fine grained analysis of the classes of document spanners that support efficient enumeration of their results.

Published

2018

12. Querying APIs with SPARQL

Author

Mosser, Matthieu, Pieressa, Fernando, Reutter, Juan L., Soto, Adrián, and Vrgoč, Domagoj

Published

2022

13. Document Spanners for Extracting Incomplete Information: Expressiveness and Complexity

Author

Maturana, Francisco, Riveros, Cristian, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

Rule-based information extraction has lately received a fair amount of attention from the database community, with several languages appearing in the last few years. Although information extraction systems are intended to deal with semistructured data, all language proposals introduced so far are designed to output relations, thus making them incapable of handling incomplete information. To remedy the situation, we propose to extend information extraction languages with the ability to use mappings, thus allowing us to work with documents which have missing or optional parts. Using this approach, we simplify the semantics of regex formulas and extraction rules, two previously defined methods for extracting information, extend them with the ability to handle incomplete data, and study how they compare in terms of expressive power. We also study computational properties of these languages, focusing on the query enumeration problem, as well as satisfiability and containment.

Published

2017

14. Evaluating navigational RDF queries over the Web

Author

Baier, Jorge, Daroch, Dietrich, Reutter, Juan, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

Semantic Web, and its underlying data format RDF, lend themselves naturally to navigational querying due to their graph-like structure. This is particularly evident when considering RDF data on the Web, where various separately published datasets reference each other and form a giant graph known as the Web of Linked Data. And while navigational queries over singular RDF datasets are supported through SPARQL property paths, not much is known about evaluating them over Linked Data. In this paper we propose a method for evaluating property path queries over the Web based on the classical AI search algorithm A*, show its optimality in the open world setting of the Web, and test it using real world queries which access a variety of RDF datasets available online.

Published

2017

15. JSON: data model, query languages and schema specification

Author

Bourhis, Pierre, Reutter, Juan L., Suárez, Fernando, and Vrgoč, Domagoj

Subjects

Computer Science - Databases

Abstract

Despite the fact that JSON is currently one of the most popular formats for exchanging data on the Web, there are very few studies on this topic and there are no agreement upon theoretical framework for dealing with JSON. There- fore in this paper we propose a formal data model for JSON documents and, based on the common features present in available systems using JSON, we define a lightweight query language allowing us to navigate through JSON documents. We also introduce a logic capturing the schema proposal for JSON and study the complexity of basic computational tasks associated with these two formalisms.

Published

2017

16. Foundations of Modern Query Languages for Graph Databases

Author

Angles, Renzo, Arenas, Marcelo, Barcelo, Pablo, Hogan, Aidan, Reutter, Juan, and Vrgoc, Domagoj

Subjects

Computer Science - Databases

Abstract

We survey foundational features underlying modern graph query languages. We first discuss two popular graph data models: edge-labelled graphs, where nodes are connected by directed, labelled edges; and property graphs, where nodes and edges can further have attributes. Next we discuss the two most fundamental graph querying functionalities: graph patterns and navigational expressions. We start with graph patterns, in which a graph-structured query is matched against the data. Thereafter we discuss navigational expressions, in which patterns can be matched recursively against the graph to navigate paths of arbitrary length; we give an overview of what kinds of expressions have been proposed, and how they can be combined with graph patterns. We also discuss several semantics under which queries using the previous features can be evaluated, what effects the selection of features and semantics has on complexity, and offer examples of such features in three modern languages that are used to query graphs: SPARQL, Cypher and Gremlin. We conclude by discussing the importance of formalisation for graph query languages; a summary of what is known about SPARQL, Cypher and Gremlin in terms of expressivity and complexity; and an outline of possible future directions for the area.

Published

2016

17. JSON: Data model and query languages

Author

Bourhis, Pierre, Reutter, Juan L., and Vrgoč, Domagoj

Published

2020

18. Querying APIs with SPARQL: Language and Worst-Case Optimal Algorithms

Author

Mosser, Matthieu, Pieressa, Fernando, Reutter, Juan, Soto, Adrián, Vrgoč, Domagoj, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Gangemi, Aldo, editor, Navigli, Roberto, editor, Vidal, Maria-Esther, editor, Hitzler, Pascal, editor, Troncy, Raphaël, editor, Hollink, Laura, editor, Tordai, Anna, editor, and Alam, Mehwish, editor

Published

2018

19. Querying graphs with data

Author

Vrgoc, Domagoj, Libkin, Leonid, Fan, Wenfei, and Santhanam, Rahul

Subjects

006.7, graph database, query language, big data

Abstract

Graph data is becoming more and more pervasive. Indeed, services such as Social Networks or the Semantic Web can no longer rely on the traditional relational model, as its structure is somewhat too rigid for the applications they have in mind. For this reason we have seen a continuous shift towards more non-standard models. First it was the semi-structured data in the 1990s and XML in 2000s, but even such models seem to be too restrictive for new applications that require navigational properties naturally modelled by graphs. Social networks fit into the graph model by their very design: users are nodes and their connections are specified by graph edges. The W3C committee, on the other hand, describes RDF, the model underlying the Semantic Web, by using graphs. The situation is quite similar with crime detection networks and tracking workflow provenance, namely they all have graphs inbuilt into their definition. With pervasiveness of graph data the important question of querying and maintaining it has emerged as one of the main priorities, both in theoretical and applied sense. Currently there seem to be two approaches to handling such data. On the one hand, to extract the actual data, practitioners use traditional relational languages that completely disregard various navigational patterns connecting the data. What makes this data interesting in modern applications, however, is precisely its ability to compactly represent intricate topological properties that envelop the data. To overcome this issue several languages that allow querying graph topology have been proposed and extensively studied. The problem with these languages is that they concentrate on navigation only, thus disregarding the data that is actually stored in the database. What we propose in this thesis is the ability to do both. Namely, we will study how query languages can be designed to allow specifying not only how the data is connected, but also how data changes along paths and patterns connecting it. To this end we will develop several query languages and show how adding different data manipulation capabilities and different navigational features affects the complexity of main reasoning tasks. The story here is somewhat similar to the early success of the relational data model, where theoretical considerations led to a better understanding of what makes certain tasks more challenging than others. Here we aim for languages that are both efficient and capable of expressing a wide variety of queries of interest to several groups of practitioners. To do so we will analyse how different requirements affect the language at hand and at the end provide a good base of primitives whose inclusion into a language should be considered, based on the applications one has in mind. Namely, we consider how adding a specific operation, mechanism, or capability to the language affects practical tasks that such an addition plans to tackle. In the end we arrive at several languages, all of them with their pros and cons, giving us a good overview of how specific capabilities of the language affect the design goals, thus providing a sound basis for practitioners to choose from, based on their requirements.

Published

2014

20. Navigational and Rule-Based Languages for Graph Databases

Author

Reutter, Juan L., Vrgoč, Domagoj, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Pan, Jeff Z., editor, Calvanese, Diego, editor, Eiter, Thomas, editor, Horrocks, Ian, editor, Kifer, Michael, editor, Lin, Fangzhen, editor, and Zhao, Yuting, editor

Published

2017

21. GPC: A Pattern Calculus for Property Graphs

Author

Francis, Nadime, primary, Gheerbrant, Amélie, additional, Guagliardo, Paolo, additional, Libkin, Leonid, additional, Marsault, Victor, additional, Martens, Wim, additional, Murlak, Filip, additional, Peterfreund, Liat, additional, Rogova, Alexandra, additional, and Vrgoc, Domagoj, additional

Published

2023

22. PG-Schema: Schemas for Property Graphs

Author

Angles, Renzo, primary, Bonifati, Angela, additional, Dumbrava, Stefania, additional, Fletcher, George, additional, Green, Alastair, additional, Hidders, Jan, additional, Li, Bei, additional, Libkin, Leonid, additional, Marsault, Victor, additional, Martens, Wim, additional, Murlak, Filip, additional, Plantikow, Stefan, additional, Savkovic, Ognjen, additional, Schmidt, Michael, additional, Sequeda, Juan, additional, Staworko, Slawek, additional, Tomaszuk, Dominik, additional, Voigt, Hannes, additional, Vrgoc, Domagoj, additional, Wu, Mingxi, additional, and Zivkovic, Dusan, additional

Published

2023

23. PG-Schemas: Schemas for Property Graphs

Author

Angles, Renzo, Bonifati, Angela, Dumbrava, Stefania, Fletcher, George, Green, Alastair, Hidders, Jan, Li, Bei, Libkin, Leonid, Marsault, Victor, Martens, Wim, Murlak, Filip, Plantikow, Stefan, Savković, Ognjen, Schmidt, Michael, Sequeda, Juan, Staworko, Slawek, Tomaszuk, Dominik, Voigt, Hannes, Vrgoc, Domagoj, Wu, Mingxi, and Zivkovic, Dusan

Subjects

graph databases, schemas, property graphs

Abstract

Property graphs have reached a high level of maturity, witnessed by multiple robust graph database systems as well as the ongoing ISO standardization effort aiming at creating a new standard Graph Query Language (GQL). Yet, despite documented demand, schema support is limited both in existing systems and in the first version of the GQL Standard. It is anticipated that the second version of the GQL Standard will include a rich DDL. Aiming to inspire the development of GQL and enhance the capabilities of graph database systems, we propose PG-Schema, a simple yet powerful formalism for specifying property graph schemas. It features PG-Types with flexible type definitions supporting multi-inheritance, as well as expressive constraints based on the recently proposed PG-Keys formalism. We provide the formal syntax and semantics of PG-Schema, which meet principled design requirements grounded in contemporary property graph management scenarios, and offer a detailed comparison of its features with those of existing schema languages and graph database systems.

Published

2023

24. GPC: A Pattern Calculus for Property Graphs

Author

Francis, Nadime, Gheerbrant, Amélie, Guagliardo, Paolo, Libkin, Leonid, Marsault, Victor, Martens, Wim, Murlak, Filip, Peterfreund, Liat, Rogova, Alexandra, and Vrgoc, Domagoj

Subjects

pattern matching, graph databases, graph query languages, SQL/PGQ, type systems, syntax and semantics, complexity, GQL, expressive power

Abstract

The development of practical query languages for graph databases runs well ahead of the underlying theory. The ISO committee in charge of database query languages is currently developing a new standard called Graph Query Language (GQL) as well as an extension of the SQL Standard for querying property graphs represented by a relational schema, called SQL/PGQ. The main component of both is the pattern matching facility, which is shared by the two standards. In many aspects, it goes well beyond RPQs, CRPQs, and similar queries on which the research community has focused for years. Our main contribution is to distill the lengthy standard specification into a simple Graph Pattern Calculus (GPC) that reflects all the key pattern matching features of GQL and SQL/PGQ, and at the same time lends itself to rigorous theoretical investigation. We describe the syntax and semantics of GPC, along with the typing rules that ensure its expressions are well-defined, and state some basic properties of the language. With this paper we provide the community a tool to embark on a study of query languages that will soon be widely adopted by industry

Published

2023

25. SPARQL with Property Paths

Author

Kostylev, Egor V., Reutter, Juan L., Romero, Miguel, Vrgoč, Domagoj, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Arenas, Marcelo, editor, Corcho, Oscar, editor, Simperl, Elena, editor, Strohmaier, Markus, editor, d'Aquin, Mathieu, editor, Srinivas, Kavitha, editor, Groth, Paul, editor, Dumontier, Michel, editor, Heflin, Jeff, editor, Thirunarayan, Krishnaprasad, editor, and Staab, Steffen, editor

Published

2015

26. Recursion in SPARQL

Author

Reutter, Juan L., Soto, Adrián, Vrgoč, Domagoj, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Weikum, Gerhard, Series editor, Arenas, Marcelo, editor, Corcho, Oscar, editor, Simperl, Elena, editor, Strohmaier, Markus, editor, d'Aquin, Mathieu, editor, Srinivas, Kavitha, editor, Groth, Paul, editor, Dumontier, Michel, editor, Heflin, Jeff, editor, Thirunarayan, Krishnaprasad, editor, and Staab, Steffen, editor

Published

2015

27. A Researcher’s Digest of GQL

Author

Francis, Nadime, Gheerbrant, Amélie, Guagliardo, Paolo, Libkin, Leonid, Marsault, Victor, Martens, Wim, Murlak, Filip, Peterfreund, Liat, Rogova, Alexandra, and Vrgoc, Domagoj

Abstract

GQL (Graph Query Language) is being developed as a new ISO standard for graph query languages to play the same role for graph databases as SQL plays for relational. In parallel, an extension of SQL for querying property graphs, SQL/PGQ, is added to the SQL standard; it shares the graph pattern matching functionality with GQL. Both standards (not yet published) are hard-to-understand specifications of hundreds of pages. The goal of this paper is to present a digest of the language that is easy for the research community to understand, and thus to initiate research on these future standards for querying graphs. The paper concentrates on pattern matching features shared by GQL and SQL/PGQ, as well as querying facilities of GQL.

Published

2023

28. Regular Expressions with Binding over Data Words for Querying Graph Databases

Author

Libkin, Leonid, Tan, Tony, Vrgoč, Domagoj, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Béal, Marie-Pierre, editor, and Carton, Olivier, editor

Published

2013

29. Regular Expressions for Data Words

Author

Libkin, Leonid, Vrgoč, Domagoj, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Bjørner, Nikolaj, editor, and Voronkov, Andrei, editor

Published

2012

30. A Note on Bisimulation and Modal Equivalence in Provability Logic and Interpretability Logic

Author

Čačić, Vedran and Vrgoč, Domagoj

Published

2013

31. Document Spanners for Extracting Incomplete Information

Author

Maturana, Francisco, primary, Riveros, Cristian, additional, and Vrgoc, Domagoj, additional

Published

2018

32. Constant Delay Algorithms for Regular Document Spanners

Author

Florenzano, Fernando, primary, Riveros, Cristian, additional, Ugarte, Martin, additional, Vansummeren, Stijn, additional, and Vrgoc, Domagoj, additional

Published

2018

33. XPath for DL Ontologies

Author

Kostylev, Egor, primary, Reutter, Juan, additional, and Vrgoc, Domagoj, additional

Published

2015

34. Representing Paths in Graph Database Pattern Matching

Author

Wim Martens, Matthias Niewerth, Tina Popp, Carlos Rojas, Stijn Vansummeren, Domagoj Vrgoč, MARTENS, Wim, Niewerth, Matthias, Popp, Tina, Rojas, Carlos, VANSUMMEREN, Stijn, and Vrgoc, Domagoj

Subjects

General Engineering

Abstract

Modern graph database query languages such as GQL, SQL/PGQ, and their academic predecessor G-Core promote paths to first-class citizens in the sense that their pattern matching facility can return paths, as opposed to only nodes and edges. This is challenging for database engines, since graphs can have a large number of paths between a given node pair, which can cause huge intermediate results in query evaluation. We introduce the concept of path multiset representations (PMRs), which can represent multisets of paths exponentially succinctly and therefore bring significant advantages for representing intermediate results. We give a detailed theoretical analysis that shows that they are especially well-suited for representing results of regular path queries and extensions thereof involving counting, random sampling, and unions. Our experiments show that they drastically improve scalability for regular path query evaluation, with speedups of several orders of magnitude. We are grateful to Matthias Hofer for valuable discussions and to Wojciech Czerwiński for pointing us to [58]. This work was supported by the ANR project EQUUS ANR-19-CE48-0019; funded by the Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) – project number 431183758. Vansummeren was supported by the Bijzonder Onderzoeksfonds (BOF) of Hasselt University (Belgium) under Grant No. BOF20ZAP02. Vrgoč and Rojas were supported by ANID – Millennium Science Initiative Program – Code ICN17_002. Vrgoč was also supported by ANID Fondecyt Regular grant nr. 1221799.

Published

2023