9,577 research outputs found
Automated analysis of feature models: Quo vadis?
Feature models have been used since the 90's to describe software product lines as a way of reusing common parts in a family of software systems. In 2010, a systematic literature review was published summarizing the advances and settling the basis of the area of Automated Analysis of Feature Models (AAFM). From then on, different studies have applied the AAFM in different domains. In this paper, we provide an overview of the evolution of this field since 2010 by performing a systematic mapping study considering 423 primary sources. We found six different variability facets where the AAFM is being applied that define the tendencies: product configuration and derivation; testing and evolution; reverse engineering; multi-model variability-analysis; variability modelling and variability-intensive systems. We also confirmed that there is a lack of industrial evidence in most of the cases. Finally, we present where and when the papers have been published and who are the authors and institutions that are contributing to the field. We observed that the maturity is proven by the increment in the number of journals published along the years as well as the diversity of conferences and workshops where papers are published. We also suggest some synergies with other areas such as cloud or mobile computing among others that can motivate further research in the future.Ministerio de Economía y Competitividad TIN2015-70560-RJunta de Andalucía TIC-186
Overcoming Language Dichotomies: Toward Effective Program Comprehension for Mobile App Development
Mobile devices and platforms have become an established target for modern
software developers due to performant hardware and a large and growing user
base numbering in the billions. Despite their popularity, the software
development process for mobile apps comes with a set of unique, domain-specific
challenges rooted in program comprehension. Many of these challenges stem from
developer difficulties in reasoning about different representations of a
program, a phenomenon we define as a "language dichotomy". In this paper, we
reflect upon the various language dichotomies that contribute to open problems
in program comprehension and development for mobile apps. Furthermore, to help
guide the research community towards effective solutions for these problems, we
provide a roadmap of directions for future work.Comment: Invited Keynote Paper for the 26th IEEE/ACM International Conference
on Program Comprehension (ICPC'18
MORPH: A Reference Architecture for Configuration and Behaviour Self-Adaptation
An architectural approach to self-adaptive systems involves runtime change of
system configuration (i.e., the system's components, their bindings and
operational parameters) and behaviour update (i.e., component orchestration).
Thus, dynamic reconfiguration and discrete event control theory are at the
heart of architectural adaptation. Although controlling configuration and
behaviour at runtime has been discussed and applied to architectural
adaptation, architectures for self-adaptive systems often compound these two
aspects reducing the potential for adaptability. In this paper we propose a
reference architecture that allows for coordinated yet transparent and
independent adaptation of system configuration and behaviour
Tortoise: Interactive System Configuration Repair
System configuration languages provide powerful abstractions that simplify
managing large-scale, networked systems. Thousands of organizations now use
configuration languages, such as Puppet. However, specifications written in
configuration languages can have bugs and the shell remains the simplest way to
debug a misconfigured system. Unfortunately, it is unsafe to use the shell to
fix problems when a system configuration language is in use: a fix applied from
the shell may cause the system to drift from the state specified by the
configuration language. Thus, despite their advantages, configuration languages
force system administrators to give up the simplicity and familiarity of the
shell.
This paper presents a synthesis-based technique that allows administrators to
use configuration languages and the shell in harmony. Administrators can fix
errors using the shell and the technique automatically repairs the higher-level
specification written in the configuration language. The approach (1) produces
repairs that are consistent with the fix made using the shell; (2) produces
repairs that are maintainable by minimizing edits made to the original
specification; (3) ranks and presents multiple repairs when relevant; and (4)
supports all shells the administrator may wish to use. We implement our
technique for Puppet, a widely used system configuration language, and evaluate
it on a suite of benchmarks under 42 repair scenarios. The top-ranked repair is
selected by humans 76% of the time and the human-equivalent repair is ranked
1.31 on average.Comment: Published version in proceedings of IEEE/ACM International Conference
on Automated Software Engineering (ASE) 201
- …