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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Anti-Pattern in Java-Systemen identifizieren und visualisieren

Jüttner, Victor 31 May 2021 (has links)
Mittels Visualisierung lässt sich Software so darstellen, dass selbst für Laien ein Eindruck von einem Software-System geschaffen wird. Anti-Pattern zeigen Fehler im Design eines solchen Systems; sie zu finden und ebenfalls zu visualisieren ist eine Unterstützung zum Verbessern der Codequalität. Das Qualitätsmanagement-Werkzeug Getaviz der Forschungsgruppe Visual Software Analytics an der Universität Leipzig ermöglicht es, solche Softwarevisualisierungen leicht zu generieren, bietet aktuell aber noch nicht die Möglichkeit, Anti-Pattern im System zu finden oder anzuzeigen. In dieser Arbeit wird gezeigt, wie sich Anti-Pattern in den Daten aus Getaviz-Scans identifizieren lassen und wie sie sich mit Getaviz darstellen lassen. Um Anti-Pattern zu finden, wird eine Methodik angewendet, die nur mit Softwaremetriken arbeitet. Lücken zwischen dem Getaviz-Datensatz und den geforderten Informationen zur Erkennung werden genau beschrieben und geschlossen. Die bestehenden Visualisierungen in Getaviz werden schließlich um eine Ansicht der Anti-Pattern sowie eine Steuerung, um diese Ansicht zu bedienen, erweitert. Damit wird ein guter Eindruck gegeben, wie sich diese Methodik zum Identifizieren von Anti-Pattern in Getaviz integrieren lässt und wie sich Anti-Pattern in Getaviz anzeigen lassen.
2

Contraintes d'anti-filtrage et programmation par réécriture / Anti-matching constraints and programming with rewrite rules

Köpetz, Radu 15 October 2008 (has links)
L’objectif principal de cette thèse est l’étude et la formalisation de nouvelles constructions permettant d’augmenter l’expressivité du filtrage et des langages à base de règles en général. Ceci est motivé par le développement de Tom, un système qui enrichit les langages impératifs comme Java et C avec des constructions de haut niveau comme le filtrage et les stratégies. Une première extension que l’on propose est la notion d’anti-patterns, i.e. des motifs qui peuvent contenir des symboles de complément. Nous définissons de manière formelle la sémantique des anti-patterns dans le cas syntaxique et modulo une théorie équationnelle arbitraire. Puis nous étendons la notion classique de filtrage entre les motifs et les termes clos au filtrage entre les anti-patterns et les termes clos (anti-filtrage). Ensuite, nous proposons plusieurs extensions aux constructions de filtrage fournies par Tom. La condition pour l’application d’une règle devient une conjonction ou disjonction de contraintes de filtrage et d’anti-filtrage ainsi que d’autres types de conditions. Les techniques classiques de compilation du filtrage ne sont pas bien adaptées à ces conditions complexes. On propose donc une nouvelle méthode de compilation basée sur des systèmes de réécriture contrôlés par des stratégies. Nous avons complètement réécrit le compilateur de Tom en utilisant cette technique. Tous ces éléments rassemblés constituent un environnement pour décrire et implémenter des transformations de manière élégante et concise. Pour promouvoir son utilisation dans des projets à grand échelle, on développe une technique pour extraire automatiquement des informations structurelles à partir d’une hiérarchie de classes Java. Cela permet l’intégration du filtrage offert par Tom dans n’importe quelle application Java / The main objective of this thesis is the study of new constructs and formalisms that increase the expressivity of pattern matching and rule based languages in general. This is motivated by the development of Tom, a system that adds high level constructs such as pattern matching and strategies to languages like Java and C. A first extension that we propose is the notion of anti-patterns, i.e. patterns that may contain complement symbols. We define formally the semantics of anti-patterns both in the syntactic case and modulo an arbitrary equational theory. We then extend the classical notion of matching between patterns and ground terms to matching between anti-patterns and ground terms. We further propose several extensions to the matching constructs provided by Tom. Consequently, the condition for the application of a rule becomes a combination of matching and anti-matching constraints together with other types of conditions. Classical compilation techniques for pattern matching are not very well suited for these complex conditions. Therefore we propose a new compilation method based on rewrite systems controlled by strategies, which provides a high level of modularity. Tom’s compiler has been rewritten from scratch using this technique. All this constitutes a software environment for expressing transformations in a clear and concise way. To promote its use in large scale applications, we propose an approach for extracting automatically structural information from arbitrary Java hierarchies. This allows a seamless integration of Tom’s pattern matching facilities in any application
3

[pt] CATALOGANDO ANTIPADRÕES DE INJEÇÃO DE DEPENDÊNCIA EM SISTEMAS DE SOFTWARE / [en] CATALOGING DEPENDENCY INJECTION ANTI-PATTERNS IN SOFTWARE SYSTEMS

RODRIGO NUNES LAIGNER 19 June 2020 (has links)
[pt] Contexto Injeção de Dependência (DI) é um mecanismo comumente aplicado para desacoplar classes de suas dependências com o objetivo de prover uma melhor modularização do software. No contexto de Java, a existência de uma especificação de DI e frameworks populares, como o Spring, facilitam o emprego de DI em projetos de software. Entretanto, más práticas de implementação de DI podem trazer más consequências, como maior acoplamento, dificultando alcançar o principal objetivo de DI. Apesar de a literatura sugerir a existência de anti-padrões de DI, não há uma documentação detalhada de tais más práticas. Em adição, não há evidência da ocorrência e da percepção de utilidade dos mesmos do ponto de vista de desenvovedores. Objetivos Nosso objetivo é revisar os anti-padrões de DI reportados com o objetivo de analisar sua completude e propor um novo catálogo de anti-padrões de DI para Java. Método Nós propomos um catálogo contendo 12 anti-padrões de DI para Java. Nós selecionamos 4 projetos open-source e 2 projetos closed-source que adotam um framework de DI e desenvolvemos uma ferramenta que analisa estaticamente a ocorrência dos anti-padrões de DI candidatos no código fonte das aplicações. Em adição, nós conduzimos uma pesquisa por meio de entrevistas face a face com três desenvolvedores experientes que regularmente aplicam DI em seus projetos. Nós estendemos a pesquisa com o objetivo de obter a percepção de um conjunto de 15 desenvolvedores experientes e novatos por meio de um questionário online Resultados Ao menos 9 anti-padrões de DI apareceram frequentemente nos projetos de software analisados. Em adição, a avaliação recebida dos desenvolvedores confirmaram a relevância do catálogo. Por fim, os respondentes expressaram o desejo de refatorar as instâncias de antipadrões de DI propostas. Conclusões O catálogo contém anti-padrões de DI que ocorrem na prática e são úteis. Compartilhar com praticantes da indústria os permitirá evitar a introdução de anti-padrões em seus projetos de software. / [en] Background Dependency Injection (DI) is a commonly applied mechanism to decouple classes from their dependencies in order to provide better modularization of software. In the context of Java, the availability of a DI specification and popular frameworks, such as Spring, facilitate DI usage in software projects. However, bad DI implementation practices can have negative consequences, such as increasing coupling, hindering the achievement of DI s main goal. Even though the literature suggests the existence of DI anti-patterns, there is no detailed documentation of such bad practices. Moreover, there is no evidence on their occurrence and perceived usefulness from the developer s point of view. Aims Our goal is to review the reported DI anti-patterns in order to analyze their completeness and to propose and evaluate a novel catalog of Java DI anti-patterns. Method We propose a catalog containing 12 Java DI anti-patterns. We selected 4 opensource and 2 closed-source software projects that adopt a DI framework and developed a tool to statically analyze the occurrence of the candidate DI anti-patterns within their source code. Also, we conducted a survey through face to face interviews with three experienced developers that regularly apply DI. We extended the survey in order to gather the perception of a set of 15 expert and novice developers through an online questionnaire. Results At least 9 different DI anti-patterns appeared frequently in the analyzed projects. In addition, the feedback received from the developers confirmed the relevance of the catalog. Besides, the respondents expressed their willingness to refactor instances of anti-patterns from source code. Conclusions The catalog contains Java DI anti-patterns that occur in practice and are useful. Sharing it with practitioners may help them to avoid such anti-patterns.

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