Your search keyword '"Page object pattern"' showing total 15 results

1. An empirical study to compare three web test automation approaches: NLP‐based, programmable, and capture&replay.

Author

Leotta, Maurizio, Ricca, Filippo, Marchetto, Alessandro, and Olianas, Dario

Subjects

*EMPIRICAL research, *AUTOMATION, *NATURAL language processing, *NATURAL languages

Abstract

A new advancement in test automation is the use of natural language processing (NLP) to generate test cases (or test scripts) from natural language text. NLP is innovative in this context and promises of reducing test cases creation time and simplifying understanding for "non‐developer" software testers as well. Recently, many vendors have launched on the market many proposals of NLP‐based tools and testing frameworks but their superiority has never been empirically validated. This paper investigates the adoption of NLP‐based test automation in the web context with a series of case studies conducted to compare the costs of the NLP testing approach—measured in terms of test cases development and test cases evolution—with respect to more consolidated approaches, that is, programmable (or script‐based) testing and capture&replay testing. The results of our study show that NLP‐based test automation appears to be competitive for small‐ to medium‐sized test suites such as those considered in our empirical study. It minimizes the total cumulative cost (development and evolution) and does not require software testers with programming skills. [ABSTRACT FROM AUTHOR]

Published

2024

2. Automation Page Object Pattern with Open Source Framework Ruby-Study Paper

Author

Bhatt, Devanshu

Published

2018

3. APOGEN: automatic page object generator for web testing.

Author

Stocco, Andrea, Leotta, Maurizio, Ricca, Filippo, and Tonella, Paolo

Subjects

WEB-based user interfaces, WEBSITES, REVERSE engineering, AUTOMATION, COMPUTER programming

Abstract

Modern web applications are characterized by ultra-rapid development cycles, and web testers tend to pay scant attention to the quality of their automated end-to-end test suites. Indeed, these quickly become hard to maintain, as the application under test evolves. As a result, end-to-end automated test suites are abandoned, despite their great potential for catching regressions. The use of the Page Object pattern has proven to be very effective in end-to-end web testing. Page objects are façade classes abstracting the internals of web pages into high-level business functions that can be invoked by the test cases. By decoupling test code from web page details, web test cases are more readable and maintainable. However, the manual development of such page objects requires substantial coding effort, which is paid off only later, during software evolution. In this paper, we describe a novel approach for the automatic generation of page objects for web applications. Our approach is implemented in the tool Apogen, which automatically derives a testing model by reverse engineering the target web application. It combines clustering and static analysis to identify meaningful page abstractions that are automatically turned into Java page objects for Selenium WebDriver. Our evaluation on an open-source web application shows that our approach is highly promising: Automatically generated page object methods cover most of the application functionalities and result in readable and meaningful code, which can be very useful to support the creation of more maintainable web test suites. [ABSTRACT FROM AUTHOR]

Published

2017

4. Enhancing Page Object Maintainability in Modern Automated Software Testing Life Cycles

Author

Hafner, Christoph

Subjects

Page Object Entwurfsmuster, page object pattern, expert evaluation, Expertenevaluierung, Software testen, software testing, Benutzeroberflächen Tests, user interface testing

Abstract

Das Testen von Software nimmt einen entscheidenden Teil des Software-Entwicklungsprozesses ein. Abhängig von der Art der geschriebenen Software werden verschiedene Testtechniken angewandt,um die Software bestmöglich zu testen. Das Testen von Benutzeroberflächen, als Teil von Systemtests, kann entweder automatisch oder manuell erfolgen. Während der manuelle Ansatz die Möglichkeit bietet, schnell auf Änderungen in der Benutzeroberfläche zu reagieren, erlaubt es der automatische Ansatz, die Benutzeroberfläche in verschiedenen Umfeldern ohne viel manuelle Arbeitsleistung zu testen. Um eine wartbare Testumgebung im automatischen Ansatz zu erhalten, wird das Page Object-Entwurfsmuster verwendet, welches eine Abstraktionsschicht zwischen dem Test und dem getesteten System formt. Da die Identifizierung von Web-Elementen jedoch sehr statisch ist und bereits durch kleine Änderungen in der Benutzeroberfläche falsch oder ungültig sein kann, müssen Page Objects während des Entwicklungsprozesses oft verifiziert und gegebenenfalls adaptiert werden, was in sich wiederholenden Aufgaben resultiert. Trotz verschiedener bestehender Programme, welche dieses Problem zu lösen versuchen, existiert keine Lösung, welche bestehende Page Objects wiederverwenden und die Verifizierung dieser automatisch durchführen kann. Basierend auf bestehenden Lösungen und sogenannten "Best Practices" der Software-Entwicklungwerden in dieser Masterarbeit Anforderungen an ein Programm definiert, welches Tester in der Evaluierung und Adaptierung von Page Objects unterstützt und wiederkehrende Aufgaben reduziert. Um diese Anforderungen im Zuge einer Expertenevaluierung zu verifizieren und zusätzlich zu verbessern, wurde ein Prototyp entwickelt, welcher auf diesen Anforderungen aufbaut. Das Ergebnis dieser Evaluierung ist, dass, obwohl der Prototyp - aufgrund von nicht unterstützten Programmiersprachen oder Page Objekt Struktur - nicht für jeden Experten verwendbar ist, die Anforderungen bestätigt und akzeptiert wurden und großes Potential in einem Programm mit diesen gesehen wurde, besonders für Anfänger im Bereich des Testens von Software. Eine Adaptierung des Prototyps für weitere Programmiersprachen sowie eine bessere Integration in das Projekt werden in dieser Masterarbeit als zukünftige Schritte in diesem Themenbereich vorgeschlagen., Software testing has taken a crucial part in the software development life cycle in recent years. Depending on the type of software written, different approaches are used to achieve satisfying results. User interface tests, which are executed as a system test – i.e. testing the whole system at once –, can be achieved in either an automated or manual approach. While the manual approach allows for easy adaption to changes in the user interface, the automatic approach allows for easily testing the user interface in different environments regularly without the need for much manpower.In order to achieve a maintainable approach on automated tests, the page object design pattern is used, which provides an abstraction layer between the test and the system under test. However, as identification methods for web elements are very static and can be wrong or invalid even after small changes on the user interface, page objects need to be verified and potentially adapted often during the development life cycle, requiring a lot of repeating and time-consuming tasks doing so. While there are tools available which try to solve this problem, no tool allows for reusing existing page objects and verify their validity automatically. Based on existing state-of-the-art approaches and using best practices in software development, this thesis proposes requirements for a tool which supports the tester in the evaluation and adaption of page objects and tries to reduce the amount of repeating tasks. In order to verify the defined requirements and to refine them, a prototype taking the requirements into account is developed and used for an expert evaluation. The result of this evaluation is that, while the prototype is not ready to support every expert in their daily work – due to differences in programming languages or page object styles used –, they accept all the defined requirements and see a great potential in such a tool, especially for new or young software testers.An adaption of the prototype for further programming languages and a deeper integration into the project are future work tasks proposed in this thesis.

Published

2020

5. Three Open Problems in the Context of E2E Web Testing and a Vision: NEONATE

Author

Maurizio Leotta, Andrea Stocco, and Filippo Ricca

Subjects

Integration testing, Computer science, business.industry, Computer Science (all), Development effort, Cohesion (computer science), Web testing, Page object pattern, Automation, Maintenance effort, Selenium, Risk analysis (engineering), Software testing, End-to-end testing, Research community, Strong coupling, Web application, Reverse engineering, business, Robust locators

Abstract

Web applications are critical assets of our society and thus assuring their quality is of undeniable importance. Despite the advances in software testing, the ever-increasing technological complexity of these applications makes it difficult to prevent errors. In this work, we provide a thorough description of the three open problems hindering web test automation: fragility problem, strong coupling and low cohesion problem, and incompleteness problem. We conjecture that a major breakthrough in test automation is needed, because the problems are closely correlated, and hence need to be attacked together rather than separately. To this aim, we describe Neonate , a novel integrated testing environment specifically designed to empower the web tester. Our utmost purpose is to make the research community aware of the existence of the three problems and their correlation, so that more research effort can be directed in providing solutions and tools to advance the state of the art of web test automation.

Published

2019

6. APOGEN: automatic page object generator for web testing

Author

Maurizio Leotta, Paolo Tonella, Filippo Ricca, and Andrea Stocco

Subjects

medicine.medical_specialty, Web development, Computer science, 02 engineering and technology, Dynamic web page, computer.software_genre, Web testing, Clustering, Selenium WebDriver, End-to-end testing, Web page, 0202 electrical engineering, electronic engineering, information engineering, medicine, Media Technology, Safety, Risk, Reliability and Quality, Reverse engineering, Same-origin policy, business.industry, 020207 software engineering, Static web page, Page object pattern, Software, 020202 computer hardware & architecture, Web service, Software engineering, business, computer, Web modeling

Abstract

Modern web applications are characterized by ultra-rapid development cycles, and web testers tend to pay scant attention to the quality of their automated end-to-end test suites. Indeed, these quickly become hard to maintain, as the application under test evolves. As a result, end-to-end automated test suites are abandoned, despite their great potential for catching regressions. The use of the Page Object pattern has proven to be very effective in end-to-end web testing. Page objects are facade classes abstracting the internals of web pages into high-level business functions that can be invoked by the test cases. By decoupling test code from web page details, web test cases are more readable and maintainable. However, the manual development of such page objects requires substantial coding effort, which is paid off only later, during software evolution. In this paper, we describe a novel approach for the automatic generation of page objects for web applications. Our approach is implemented in the tool Apogen, which automatically derives a testing model by reverse engineering the target web application. It combines clustering and static analysis to identify meaningful page abstractions that are automatically turned into Java page objects for Selenium WebDriver. Our evaluation on an open-source web application shows that our approach is highly promising: Automatically generated page object methods cover most of the application functionalities and result in readable and meaningful code, which can be very useful to support the creation of more maintainable web test suites.

Published

2017

7. Approaches and Tools for Automated End-to-End Web Testing

Author

Paolo Tonella, Maurizio Leotta, Diego Clerissi, and Filippo Ricca

Subjects

medicine.medical_specialty, Web development, Computer science, 02 engineering and technology, Web engineering, computer.software_genre, Web testing, World Wide Web, Selenium, Programmable web testing, 020204 information systems, Sikuli, Web design, 0202 electrical engineering, electronic engineering, information engineering, medicine, Capture-replay web testing, DOM-based web testing, Page object pattern, Robust locators, Test automation, Visual web testing, Computer Science (all), Data Web, business.industry, 020207 software engineering, Web application security, Web service, Software engineering, business, computer, Web modeling

Abstract

The importance of test automation in web engineering comes from the widespread use of web applications and the associated demand for code quality. Test automation is considered crucial for delivering the quality levels expected by users, since it can save a lot of time in testing and it helps developers to release web applications with fewer defects. The main advantage of test automation comes from fast, unattended execution of a set of tests after some changes have been made to a web application. Moreover, modern web applications adopt a multitier architecture where the implementation is scattered across different layers and run on different machines. For this reason, end-to-end testing techniques are required to test the overall behavior of web applications. In the last years, several approaches have been proposed for automated end-to-end web testing and the choice among them depends on a number of factors, including the tools used for web testing and the costs associated with their adoption. They can be classified using two main criteria: the first concerns how test cases are developed (ie, Capture-Replay and Programmable approaches), while, the second concerns how test cases localize the web elements to interact with (ie, Coordinates-based, DOM-based, and Visual approaches), that is what kind of locators are used for selecting the target GUI components. For developers and project managers it is not easy to select the most suitable automated end-to-end web testing approach for their needs among the existing ones. This chapter provides a comprehensive overview of the automated end-to-end web testing approaches and summarizes the findings of a long term research project aimed at empirically investigating their strengths and weaknesses.

Published

2016

8. Why Creating Web Page Objects Manually If It Can Be Done Automatically?

Author

Andrea Stocco, Maurizio Leotta, Filippo Ricca, and Paolo Tonella

Subjects

Program Analysis, Reverse Engineering, Testware Evolution, Web Testing, Page Object Pattern, Selenium WebDriver, Software

Published

2015

9. Automatizované testování finanční webové aplikace

Author

Procházková, Jitka

Subjects

finanční aplikace, regresní testování, automatizované testování, unit testy, selenium, Maven, page object pattern, regresní testy, webové aplikace, Java

Abstract

This diploma thesis deals with the design and implementation of automated tests in the IT firm EmbedIT., which should present solutions to improve and increase the efficiency of automated tests.

Published

2015

10. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Kalous, Filip, Pluskal, Jan, Polčák, Libor, and Kalous, Filip

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.

11. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Kalous, Filip, Pluskal, Jan, Polčák, Libor, and Kalous, Filip

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.

12. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Pluskal, Jan, and Polčák, Libor

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.

13. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Pluskal, Jan, and Polčák, Libor

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.

14. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Pluskal, Jan, and Polčák, Libor

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.

15. Nástroj pro usnadnění testování GUI webových aplikací

Author

Pluskal, Jan, Polčák, Libor, Kalous, Filip, Pluskal, Jan, Polčák, Libor, and Kalous, Filip

Abstract

Cílem této práce je vytvoření nástroje pro testování grafického uživatelského rozhraní webových aplikací se~zaměřením na weby implementované pomocí open-source frameworku DotVVM. Účel nástroje bude spočívat v~automatizovaném tvoření programového popisu uživatelského rozhraní a~jeho využití při psaní UI testů spolu se statickou typovou kontrolu testů v~době překladu. V~práci jsou definovány požadavky pro požadovaný nástroj, rozebrán jeho návrh a popsána názorová implementace v~jazyce C#. Vytvořené řešení poskytuje uživatelům nástroj, který ulehčí jejich práci s~tvorbou testů a~také umožňuje zjistit nefunkční testy uživatelského rozhraní již v~době překladu testů a~tím urychlit její tvorbu a~testování., The goal of this thesis is to create a tool for testing graphical user interface of web applications. The tool will focus on web applications implemented by open-source framework DotVVM. The main purpose of the tool is to automatically generate program description of a user interface which will then be used as a helper class to implement UI tests and for static type check of those tests at compile-time. The thesis is defining requirements for such a tool and describing its design with implementation in C# language. The created solution provides to its users a tool which will ease their work with tests creation. Also, it will bring detection of failing tests of the user interface at compile-time which will speed up testing and development.