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Tag #commit

96 papers:

MSRMSR-2019-LiuLZFDQ #generative #network #using
Generating commit messages from diffs using pointer-generator network (QL, ZL, HZ, HF, BD, YQ), pp. 299–309.
SCAMSCAM-2019-PerumaMDN #refactoring #using
Contextualizing Rename Decisions using Refactorings and Commit Messages (AP, MWM, MJD, CDN), pp. 74–85.
ASEASE-2019-Jiang #analysis #generative #semantics
Boosting Neural Commit Message Generation with Code Semantic Analysis (SJ), pp. 1280–1282.
ESEC-FSEESEC-FSE-2019-NajafiRS #modelling #testing
Bisecting commits and modeling commit risk during testing (AN, PCR, WS), pp. 279–289.
ESEC-FSEESEC-FSE-2019-SafwanS #developer #perspective
Decomposing the rationale of code commits: the software developer's perspective (KAS, FS), pp. 397–408.
ESEC-FSEESEC-FSE-2019-WenWLTXCS #correlation #debugging
Exploring and exploiting the correlations between bug-inducing and bug-fixing commits (MW, RW, YL, YT, XX, SCC, ZS), pp. 326–337.
ICSE-2019-RamsauerLM #process #reliability
The list is the process: reliable pre-integration tracking of commits on mailing lists (RR, DL, WM), pp. 807–818.
CGOCGO-2019-MururuGP #execution #modelling #optimisation
Quantifying and Reducing Execution Variance in STM via Model Driven Commit Optimization (GM, AG, SP), pp. 109–121.
ICSMEICSME-2018-SabettaB #approach #automation #classification
A Practical Approach to the Automatic Classification of Security-Relevant Commits (AS, MB), pp. 579–582.
MSRMSR-2018-ArimaHK08 #case study #how #java #question #what
A study on inappropriately partitioned commits: how much and what kinds of IP commits in Java projects? (RA, YH, SK), pp. 336–340.
MSRMSR-2018-GeigerMPPNB #android #dataset #graph
A graph-based dataset of commit history of real-world Android apps (FXG, IM, LP, FP, DDN, AB), pp. 30–33.
SCAMSCAM-2018-MuylaertR #research #slicing #using
[Research Paper] Untangling Composite Commits Using Program Slicing (WM, CDR), pp. 193–202.
ASEASE-2018-LiuXHLXW #generative #how #question
Neural-machine-translation-based commit message generation: how far are we? (ZL, XX0, AEH, DL0, ZX, XW0), pp. 373–384.
ICSE-2018-TsantalisMEMD #detection #performance #refactoring
Accurate and efficient refactoring detection in commit history (NT, MM, LME, DM, DD), pp. 483–494.
ICPCICPC-2017-JiangM #automation #generative #summary #towards
Towards automatic generation of short summaries of commits (SJ, CM), pp. 320–323.
MSRMSR-2017-SotoCG #integration #social
Analyzing the impact of social attributes on commit integration success (MS, ZC, CLG), pp. 483–486.
ASEASE-2017-JiangAM #automation #generative #using
Automatically generating commit messages from diffs using neural machine translation (SJ, AA, CM), pp. 135–146.
ESEC-FSEESEC-FSE-2017-BunyakiatiP #multi
Cherry-picking of code commits in long-running, multi-release software (PB, CP), pp. 994–998.
ESEC-FSEESEC-FSE-2017-ZhouS #automation #debugging #identification #security
Automated identification of security issues from commit messages and bug reports (YZ, AS), pp. 914–919.
ICSMEICSME-2016-DasPM #android
A Quantitative and Qualitative Investigation of Performance-Related Commits in Android Apps (TD, MDP, IM), pp. 443–447.
ICSMEICSME-2016-MichaudGCM #branch #git #repository
Recovering Commit Branch of Origin from GitHub Repositories (HMM, DTG, MLC, JIM), pp. 290–300.
ICSMEICSME-2016-ShimagakiKMPU #case study #comparative #industrial #open source #why
Why are Commits Being Reverted?: A Comparative Study of Industrial and Open Source Projects (JS, YK, SM, DP, NU), pp. 301–311.
MSRMSR-2016-BaoLXWT #android #developer #empirical #how #mining #power management
How android app developers manage power consumption?: an empirical study by mining power management commits (LB, DL0, XX0, XW0, CT), pp. 37–48.
MSRMSR-2016-BarnettGSM #fault #git #java
The relationship between commit message detail and defect proneness in Java projects on GitHub (JGB, CKG, LSS, SM), pp. 496–499.
MSRMSR-2016-DintznerDP #feature model #named
FEVER: extracting feature-oriented changes from commits (ND, AvD, MP0), pp. 85–96.
MSRMSR-2016-SantosH #correlation
Judging a commit by its cover: correlating commit message entropy with build status on travis-CI (EAS, AH), pp. 504–507.
MSRMSR-2016-SinhaLS #developer #sentiment
Analyzing developer sentiment in commit logs (VS, AL, BS), pp. 520–523.
SANERSANER-2016-MachoMP #category theory #predict #source code
Predicting Build Co-changes with Source Code Change and Commit Categories (CM, SM, MP0), pp. 541–551.
SIGMODSIGMOD-2015-GurukarRR #approach #communication #mining #named #network #scalability
COMMIT: A Scalable Approach to Mining Communication Motifs from Dynamic Networks (SG, SR, BR), pp. 475–489.
SIGMODSIGMOD-2015-NawabAAA #latency #transaction
Minimizing Commit Latency of Transactions in Geo-Replicated Data Stores (FN, VA, DA, AEA), pp. 1279–1294.
ICPCICPC-2015-LeVLP #automation #information management #named
RCLinker: automated linking of issue reports and commits leveraging rich contextual information (TDBL, MLV, DL, DP), pp. 36–47.
ICPCICPC-2015-SchermannBPLG
Discovering loners and phantoms in commit and issue data (GS, MB, SP, PL, HCG), pp. 4–14.
MSRMSR-2015-MauczkaBSG #dataset #developer
Dataset of Developer-Labeled Commit Messages (AM, FB, CS, TG), pp. 490–493.
MSRMSR-2015-MouraPEC #energy #mining
Mining Energy-Aware Commits (IM, GP, FE, FC), pp. 56–67.
ICEISICEIS-v2-2015-FariasNOCM #case study #email #mining #repository
Analyzing Distributions of Emails and Commits from OSS Contributors through Mining Software Repositories — An Exploratory Study (MAdFF, RLN, PO, MCJ, MGM), pp. 303–310.
ESEC-FSEESEC-FSE-2015-LeiteTF #named
UEDashboard: awareness of unusual events in commit histories (LL, CT, FMFF), pp. 978–981.
ESEC-FSEESEC-FSE-2015-RosenGS #predict #risk management
Commit guru: analytics and risk prediction of software commits (CR, BG, ES), pp. 966–969.
ICSEICSE-v2-2015-BarikLM
Commit Bubbles (TB, KL, ERMH), pp. 631–634.
ICSEICSE-v2-2015-VasquezCAP #automation #generative #named
ChangeScribe: A Tool for Automatically Generating Commit Messages (MLV, LFCC, JA, DP), pp. 709–712.
SIGMODSIGMOD-2014-PangKFF #named #predict
PLANET: making progress with commit processing in unpredictable environments (GP, TK, MJF, AF), pp. 3–14.
ICPCICPC-2014-KirinukiHHK #exclamation #question
Hey! are you committing tangled changes? (HK, YH, KH, SK), pp. 262–265.
ICPCICPC-2014-ShobeKZK #on the #open source
On mapping releases to commits in open source systems (JFS, MYK, MBZ, HHK), pp. 68–71.
ICSMEICSME-2014-BiazziniMB #distributed #on the #version control
On Analyzing the Topology of Commit Histories in Decentralized Version Control Systems (MB, MM, BB), pp. 261–270.
ICSMEICSME-2014-YamauchiYHHK #clustering #comprehension #implementation
Clustering Commits for Understanding the Intents of Implementation (KY, JY, KH, YH, SK), pp. 406–410.
MSRMSR-2014-GuzmanAL #analysis #empirical #git #sentiment
Sentiment analysis of commit comments in GitHub: an empirical study (EG, DA, YL), pp. 352–355.
MSRMSR-2014-ZanjaniSK #impact analysis #interactive #source code
Impact analysis of change requests on source code based on interaction and commit histories (MBZ, GS, HHK), pp. 162–171.
SCAMSCAM-2014-Cortes-CoyVAP #automation #generative #on the #source code #summary
On Automatically Generating Commit Messages via Summarization of Source Code Changes (LFCC, MLV, JA, DP), pp. 275–284.
SACSAC-2014-CostaKAC #case study #developer
Unveiling developers contributions behind code commits: an exploratory study (DAdC, UK, EA, RC), pp. 1152–1157.
SACSAC-2014-MaWX #behaviour #developer #empirical #open source
Dynamics of open-source software developer’s commit behavior: an empirical investigation of subversion (YM, YW, YX), pp. 1171–1173.
VLDBVLDB-2013-MahmoudNPAA #database #multi #using
Low-Latency Multi-Datacenter Databases using Replicated Commit (HAM, FN, AP, DA, AEA), pp. 661–672.
MSRMSR-2013-MacLeanK #dataset #network #social
Apache commits: social network dataset (ACM, CDK), pp. 135–138.
WCREWCRE-2013-BantelayZK #interactive
Comparing and combining evolutionary couplings from interactions and commits (FB, MBZ, HHK), pp. 311–320.
SEKESEKE-2013-LinMC #developer #empirical #open source #process
Empirical Evidence on Developer’s Commit Activity for Open-Source Software Projects (SL, YM, JC), pp. 455–460.
ICSEICSE-2013-PhamSS #social #testing
Building test suites in social coding sites by leveraging drive-by commits (RP, LS, KS), pp. 1209–1212.
ICSMEICSM-2012-DhaliwalKZH #dependence #integration #product line
Recovering commit dependencies for selective code integration in software product lines (TD, FK, YZ, AEH), pp. 202–211.
ICSMEICSM-2012-Linares-VasquezHDKGP #debugging #question
Triaging incoming change requests: Bug or commit history, or code authorship? (MLV, KH, HD, HHK, MG, DP), pp. 451–460.
MSRMSR-2012-SteffR #co-evolution #estimation #fault #logic
Co-evolution of logical couplings and commits for defect estimation (MS, BR), pp. 213–216.
HPCAHPCA-2012-DuanZAT #execution #named
BulkCompactor: Optimized deterministic execution via Conflict-Aware commit of atomic blocks (YD, XZ, WA, JT), pp. 361–372.
FASEFASE-2012-MauczkaHSSBG #automation #classification #maintenance #taxonomy #validation
Tracing Your Maintenance Work — A Cross-Project Validation of an Automated Classification Dictionary for Commit Messages (AM, MH, CS, WS, MB, TG), pp. 301–315.
ICSMEICSM-2011-DraganCHM #using
Using stereotypes to help characterize commits (ND, MLC, MH, JIM), pp. 520–523.
MSRMSR-2011-EyolfsonTL #debugging #developer #experience
Do time of day and developer experience affect commit bugginess (JE, LT, PL), pp. 153–162.
SACSAC-2011-MacielH #protocol #rest
Extending timestamp-based two phase commit protocol for RESTful services to meet business rules (LAHdSM, CMH), pp. 778–785.
CGOCGO-2011-BorinWBW #named #scalability
LAR-CC: Large atomic regions with conditional commits (EB, YW, MBJ, CW), pp. 54–63.
PPoPPPPoPP-2011-FengGH #named #parallel #scalability
SpiceC: scalable parallelism via implicit copying and explicit commit (MF, RG, YH), pp. 69–80.
IFMIFM-2010-TranS #java #transaction
Safe Commits for Transactional Featherweight Java (TMTT, MS), pp. 290–304.
FSEFSE-2010-BachmannBRDB #debugging
The missing links: bugs and bug-fix commits (AB, CB, FR, PTD, AB), pp. 97–106.
ICSEICSE-2010-DAmbros #visualisation
Commit 2.0: enriching commit comments with visualization (MD), pp. 529–530.
PPoPPPPoPP-2009-RamadanRHW #transaction
Committing conflicting transactions in an STM (HER, IR, MH, EW), pp. 163–172.
ICPCICPC-2008-AlaliKM #open source #repository #what
What’s a Typical Commit? A Characterization of Open Source Software Repositories (AA, HHK, JIM), pp. 182–191.
MSRMSR-2008-HindleGH #scalability #what
What do large commits tell us?: a taxonomical study of large commits (AH, DMG, RCH), pp. 99–108.
ICEISICEIS-DISI-2008-BarryS #case study #enterprise #experience #multi #scalability
Hesitancy in Committing to Large-Scale Enterprise Systems Solutions — Experiences at a Multi-national Corporation (CB, WS), pp. 282–289.
HPCAHPCA-2008-GuptaRSWB #induction #named
DeCoR: A Delayed Commit and Rollback mechanism for handling inductive noise in processors (MSG, KKR, MDS, GYW, DMB), pp. 381–392.
ICEISICEIS-DISI-2007-BottcherO #architecture
Dynamic commit tree management for service oriented architectures (SB, SO), pp. 95–101.
SOSPSOSP-2007-VandiverBLM #fault #scheduling #transaction #using
Tolerating byzantine faults in transaction processing systems using commit barrier scheduling (BV, HB, BL, SM), pp. 59–72.
ICALPICALP-2004-OstrovskyRS #consistency #database #performance #proving #query
Efficient Consistency Proofs for Generalized Queries on a Committed Database (RO, CR, AS), pp. 1041–1053.
SACSAC-2004-Al-HoumailyC #named #protocol
1-2PC: the one-two phase atomic commit protocol (YJAH, PKC), pp. 684–691.
SACSAC-2004-AwanY #modelling #protocol #reliability #web
Analytical modelling of priority commit protocol for reliable Web applications (IA, MY), pp. 313–317.
HPCAHPCA-2004-CristalOLV
Out-of-Order Commit Processors (AC, DO, JL, MV), pp. 48–59.
KDDKDD-2001-AdderleyM #behaviour #case study #data mining #mining #modelling
Data mining case study: modeling the behavior of offenders who commit serious sexual assaults (RA, PBM), pp. 215–220.
SIGMODSIGMOD-1997-GuptaHR #database #distributed
Revisiting Commit Processing in Distributed Database Systems (RG, JRH, KR), pp. 486–497.
SACSAC-1997-Al-HoumailyCL #performance #protocol
Enhancing the performance of presumed commit protocol (YJAH, PKC, SPL), pp. 131–133.
ICLPILPS-1997-TodoranHV #comparative #logic programming #metric #semantics
Comparative Metric Semantics for Commit in OR-Parallel Logic Programming (ET, JdH, EPdV), pp. 101–115.
SACSAC-1996-Al-HoumailyC #multi #protocol
Dealing with incompatible presumptions of commit protocols in multidatabase systems (YJAH, PKC), pp. 186–195.
PODSPODS-1995-KeidarD
Increasing the Resilience of Atomic Commit at No Additional Cost (IK, DD), pp. 245–254.
VLDBVLDB-1993-LampsonL #optimisation
A New Presumed Commit Optimization for Two Phase Commit (BWL, DBL), pp. 630–640.
PODSPODS-1992-RabinovichL #database #fault tolerance #protocol
A Fault-Tolerant Commit Protocol for Replicated Databases (MR, EDL), pp. 139–148.
SIGMODSIGMOD-1991-LevyKS #distributed #protocol #transaction
An Optimistic Commit Protocol for Distributed Transaction Management (EL, HFK, AS), pp. 88–97.
ICLPISLP-1991-HidakaKTT #clustering #execution
A Static Load Partitioning Method based on Execution Profile for Committed Choice Languages (YH, HK, JT, HT), pp. 470–484.
VLDBVLDB-1990-Mohan90a #named #novel #transaction
Commit_LSN: A Novel and Simple Method for Reducing Locking and Latching in Transaction Processing Systems (CM), pp. 406–418.
ICLPJICSCP-1988-TrehanW88 #logic #nondeterminism #parallel #parsing
A Parallel Chart Parser for the Committed Choice Non-Deterministic Logic Languages (RT, PFW), pp. 212–232.
SOSPSOSP-1987-Hagmann #file system #using
Reimplementing the Cedar File System Using Logging and Group Commit (RBH), pp. 155–162.
PODSPODS-1985-Ramarao #complexity #on the #protocol
On the Complexity of Commit Protocols (KVSR), pp. 235–244.
VLDBVLDB-1984-Walter #approach #database #multi #transaction
Nested Transactions with Multiple Commit Points: An Approach to the Structuring of Advanced Database Applications (BW), pp. 161–171.
PODSPODS-1982-MenasceN #evaluation #performance #protocol
Performance Evaluation of a Two-Phase Commit Based Protocol for DDBS (DAM, TN), pp. 247–255.
SIGMODSIGMOD-1982-Cooper #analysis #distributed #protocol
Analysis of Distributed Commit Protocols (ECC), pp. 175–183.
SIGMODSIGMOD-1981-Skeen #protocol
Nonblocking Commit Protocols (DS), pp. 133–142.

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