Podrobný výpis o publikaci

BENDÍK, Jaroslav, Nikola BENEŠ a Ivana ČERNÁ. Finding Regressions in Projects under Version Control Systems. In Leszek A. Maciaszek and Marten van Sinderen. 13th International Conference on Software Technologies. Proceedings of the 13th Inte. Porto: SciTePress, 2018, s. 186-197. ISBN 978-989-758-320-9. Dostupné z: https://dx.doi.org/10.5220/0006864401860197.

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Základní údaje
Originální název	Finding Regressions in Projects under Version Control Systems
Autoři	BENDÍK, Jaroslav (203 Česká republika, garant, domácí), Nikola BENEŠ (203 Česká republika, domácí) a Ivana ČERNÁ (203 Česká republika, domácí).
Vydání	Proceedings of the 13th Inte. Porto, 13th International Conference on Software Technologies, od s. 186-197, 12 s. 2018.
Nakladatel	SciTePress

Další údaje
Originální jazyk	angličtina
Typ výsledku	Stať ve sborníku
Obor	10201 Computer sciences, information science, bioinformatics
Stát vydavatele	Portugalsko
Utajení	není předmětem státního či obchodního tajemství
Forma vydání	tištěná verze "print"
WWW	URL
Kód RIV	RIV/00216224:14330/18:00103101
Organizační jednotka	Fakulta informatiky
ISBN	978-989-758-320-9
Doi	http://dx.doi.org/10.5220/0006864401860197
Klíčová slova anglicky	Version Control Systems;Regressions;Regression Points;Code Debugging;Bisection
Štítky	firank_B
Příznaky	Mezinárodní význam, Recenzováno
Změnil	Změnila: prof. RNDr. Ivana Černá, CSc., učo 1419. Změněno: 15. 4. 2019 17:33.

Anotace
Version Control Systems (VCS) are frequently used to support development of large-scale software projects. A typical VCS repository can contain various intertwined branches consisting of a large number of commits. If some kind of unwanted behaviour (e.g. a bug in the code) is found in the project, it is desirable to find the commit that introduced it. Such commit is called a regression point. There are two main issues regarding the regression points. First, detecting whether the project after a certain commit is correct can be very expensive and it is thus desirable to minimise the number of such queries. Second, there can be several regression points preceding the actual commit and in order to fix the actual commit it is usually desirable to find the latest regression point. Contemporary VCS contain methods for regression identification, see e.g. the git bisect tool. In this paper, we present a new regression identification algorithm that outperforms the current tools by decreasing the number of validity queries. At the same time, our algorithm tends to find the latest regression points which is a feature that is missing in the state-of-the-art algorithms. The paper provides an experimental evaluation on a real data set.

Anotace

Version Control Systems (VCS) are frequently used to support development of large-scale software projects. A typical VCS repository can contain various intertwined branches consisting of a large number of commits. If some kind of unwanted behaviour (e.g. a bug in the code) is found in the project, it is desirable to find the commit that introduced it. Such commit is called a regression point. There are two main issues regarding the regression points. First, detecting whether the project after a certain commit is correct can be very expensive and it is thus desirable to minimise the number of such queries. Second, there can be several regression points preceding the actual commit and in order to fix the actual commit it is usually desirable to find the latest regression point. Contemporary VCS contain methods for regression identification, see e.g. the git bisect tool. In this paper, we present a new regression identification algorithm that outperforms the current tools by decreasing the number of validity queries. At the same time, our algorithm tends to find the latest regression points which is a feature that is missing in the state-of-the-art algorithms. The paper provides an experimental evaluation on a real data set.

Návaznosti
MUNI/A/0854/2017, interní kód MU	Název: Rozsáhlé výpočetní systémy: modely, aplikace a verifikace VII.
MUNI/A/0854/2017, interní kód MU	Investor: Masarykova univerzita, Rozsáhlé výpočetní systémy: modely, aplikace a verifikace VII., DO R. 2020_Kategorie A - Specifický výzkum - Studentské výzkumné projekty
692474, interní kód MU	Název: AMASS - Architecture-driven, Multi-concern and Seamless Assurance and Certification of Cyber-Physical Systems (Akronym: AMASS)
692474, interní kód MU	Investor: Evropská unie, AMASS - Architecture-driven, Multi-concern and Seamless Assurance and Certification of Cyber-Physical Systems, ECSEL