jGRASP

jGRASP is a development environment that includes the automatic creation of software visualizations. It produces static visualizations of source code structure and visualizations of data structures at runtime.[1]

jGRASP
Developer(s)jGRASP Team
Stable release
2.0.6_02 / January 29, 2020
Operating systemCross-platform
TypeJava IDE
LicenseLicense, freeware
Websitehttp://www.jgrasp.org/

The runtime data structure visualizations are also available as plugins for IntelliJ IDEA, Android Studio, and Eclipse.

jGRASP is implemented in Java, and runs on all platforms with a Java Virtual Machine (Java version 1.6 or higher). GRASP (Linux, UNIX) and pcGRASP (Windows) were written in C/C++, whereas jGRASP is written in Java. The "j" in jGRASP essentially means it runs on the JVM. The jGRASP web site offers downloads for Windows, Mac OS, and as a generic ZIP file suitable for Linux and other systems.

For languages other than Java, jGRASP is a source code editor. It can be configured to work with most free and commercial compilers for any programming language.

Visualizations

The Control Structure Diagram[2][3] (CSD) is a control flow diagram that fits into the space normally taken by indentation in source code. Its purpose is to improve the readability of source code. jGRASP produces CSDs for Java, C, C++, Objective-C, Ada, and VHDL. The editing window provides CSD-based folding and a "context hint" feature that displays the first line of a code structure that is off-screen when the mouse is hovered over its CSD structure.

The Java object viewers[4][5] in jGRASP provide interface-based, structural, and other views of data structures and other objects and primitives during debugging and workbench operations. For example, a content-based view shows ArrayList and LinkedList in an identical way, as a list of elements. Structural views show the internal structure of trees, linked lists, hash tables, etc. Structural views of linked data structures display local variable nodes and their relation to the main structure. The result is animated when changes occur, as when a node is added to a linked list. Common data structures are automatically identified and displayed structurally. Other viewers show, for example, a color swatch for a Color, the image for an icon, and the binary details of a double. Multiple viewers can be combined on a single viewer canvas window and the contents can be saved to file.

The Complexity Profile Graph[6] (CPG) is a statement-level complexity diagram. Its purpose is to aid in identifying overly complex areas of source code. jGRASP generates CPGs for both Java and Ada. The metric includes common measures, such as reachability and content complexity, which can be displayed individually.

jGRASP also generates UML diagrams for Java, with interactive dependency information.

History

jGRASP was created by James Cross and Larry Barowski at the Department of Computer Science and Software Engineering in the Samuel Ginn College of Engineering at Auburn University. It is maintained and evaluated by the jGRASP Team. The development of jGRASP has been supported by a research grant from the National Science Foundation.

The development of previous versions of GRASP was supported by research grants from NASA Marshall Space Flight Center, the Department of Defense Advanced Research Projects Agency (DARPA), and the Defense Information Systems Agency (DISA).

gollark: I could make osmarks.tk for VR.
gollark: I mean, since not even modern computrons can run high-settings high-FPS high-resolution VR - which is what most people seem fixated on - a phone grade CPU/GPU... will not run it wełł.
gollark: That can't possibly be capable of high-powered VR.
gollark: Wait, so if you don't do that it uses some sort of onboard processor?
gollark: Ah, less bad then.

See also

References

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