Ernst Denert Award for Software Engineering 2019 : : Practice Meets Foundations.

Ernst Denert Award for Software Engineering 2019 : : Practice Meets Foundations.

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Bibliographic Details
:
Felderer, Michael.
TeilnehmendeR:
Hasselbring, Wilhelm.
Koziolek, Heiko.
Matthes, Florian.
Prechelt, Lutz.
Reussner, Ralf.
Rumpe, Bernhard.
Schaefer, Ina.
Place / Publishing House:Cham : : Springer International Publishing AG,, 2020.
Ã2020.
Year of Publication:2020
Edition:1st ed.
Language:English
Online Access:
Physical Description:1 online resource (142 pages)
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Table of Contents:
  • Intro
  • Contents
  • Ernst Denert Software Engineering Awards 2019
  • 1 Relevance of Software Engineering
  • 2 History of the Ernst Denert Software Engineering Award
  • 3 Award Submission Process
  • 4 Selection Criteria
  • 5 Selection Process
  • 6 The Award Nominees and the Winner
  • 7 Contents of the Book
  • 7.1 Thanks
  • Software Engineering
  • 1 1968
  • 2 Software Architecture
  • 2.1 Application View
  • 2.2 Design View
  • 2.3 Program View
  • 3 Software Development
  • 4 Teamwork
  • 5 A Final Wish
  • Applications of Synchronized Pushdown Systems
  • 1 Introduction
  • 2 Motivating Examples
  • 2.1 Null Pointer Analysis
  • 2.2 Taint Analysis
  • 2.3 Typestate Analysis
  • 2.4 Cryptographic Misuses
  • 3 Synchronized Pushdown Systems
  • 3.1 Calls-Pushdown System
  • 3.2 Field-Pushdown System
  • 3.3 Synchronization of Call-PDS and Field-PDS
  • 4 Boomerang
  • 5 Typestate Analyses Based on IDEal
  • 6 CogniCrypt
  • 6.1 The CrySL Language
  • 6.2 Compiling CrySL to a Static Analysis
  • 6.3 Evaluation on Maven Central
  • 7 Conclusion
  • References
  • Software Developers' Work Habits and Expertise: Empirical Studies on Sketching, Code Plagiarism, and Expertise Development
  • 1 Introduction
  • 2 Sketching: Developers' Usage of Sketches and Diagrams in Practice
  • 3 Code Plagiarism: Stack Overflow Code Snippets in GitHub Projects
  • 4 Expertise Development: Toward a Theory of Software Development Expertise
  • 5 Methodological Insights: Issues in Sampling Software Developers
  • 6 Open Data: Building and Maintaining the SOTorrent Dataset
  • 7 Summary and Future Work
  • References
  • Applied Artifact-Based Analysis for Architecture ConsistencyChecking
  • 1 Introduction
  • 2 Foundations
  • 2.1 UML/P
  • 2.1.1 Class Diagrams
  • 2.1.2 Object Diagrams
  • 2.1.3 Object Constraint Language
  • 2.2 MontiCore
  • 2.3 Architecture Consistency Checking
  • 3 Artifact-Based Analysis.
  • 3.1 Create Artifact Model
  • 3.2 Specify Artifact Data Analyses
  • 3.3 Artifact-Based Analyses
  • 3.4 Artifact-Based Analysis for Architecture Consistency Checking
  • 4 Applied Analyses
  • 4.1 DEx Generator
  • 4.2 MontiCar Repositories
  • 5 Conclusion
  • References
  • Same but Different: Consistently Developing and Evolving Software Architecture Models and Their Implementation
  • 1 Introduction
  • 2 The Explicitly Integrated Architecture Approach
  • 2.1 Explicitly Integrated Architecture Process
  • 2.2 Model Integration Concept
  • 2.2.1 Integration Mechanisms
  • 2.2.2 Operational Semantics
  • 2.3 Intermediate Architecture Description Language
  • 2.4 Architecture Model Transformations
  • 2.4.1 Transformations Between Architecture Languages
  • 2.4.2 Transformations Within the IAL
  • 3 Tool Support
  • 3.1 Codeling
  • 3.1.1 Model/Code Transformations
  • 3.1.2 Model-to-Model Transformations
  • 3.1.3 Process Execution
  • 3.2 Code Generation Tool
  • 3.3 Execution Runtimes
  • 4 Evaluation
  • 4.1 Use Case JACK 3
  • 4.2 Use Case CoCoME in PCM
  • 4.3 Further Use Cases
  • 4.4 Discussion
  • 5 Related Work
  • 6 Conclusions and Future Work
  • References
  • Actionable Program Analyses for Improving Software Performance
  • 1 Introduction
  • 1.1 Terminology
  • 1.2 Challenges and Motivation
  • 1.3 Outline
  • 2 Performance Issues and Optimizations in JavaScript
  • 2.1 Methodology
  • 2.2 Subject Projects
  • 2.3 Selection of Performance Issues
  • 2.4 Main Findings
  • 2.5 Practical Impact
  • 3 Performance Profiling for Optimizing Orders of Evaluation
  • 3.1 An Analysis for Detecting Reordering Opportunities
  • 3.2 Dynamic Analysis
  • 3.3 Experimental Evaluation
  • 4 Cross-Language Optimizations in Big Data Systems
  • 4.1 Performance Issues in SCOPE Language
  • 4.2 Static Analysis to Find Method Inlining Opportunities
  • 4.3 Experimental Evaluation
  • 4.3.1 Case Studies.
  • 5 Test Generation of Higher-Order Functions in Dynamic Languages
  • 5.1 Overview of the Framework
  • 5.2 Callback Generation Approaches
  • 6 Conclusions
  • 6.1 Summary of Contributions
  • 6.2 Future Research Directions
  • References.

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