The Advanced Online Translator uses available online translation services to provide translations. Currently supported services: Google Translate (supports translation, language detection, dictionary, and reverse translations for single words); Microsoft Translator, a.k.a. Bing Translator (supports translation only); and Yandex.Translate (supports translation and language detection). More services are possible in the future.
XWiki is a WikiWiki clone written in Java that supports many popular features of other Wikis like the Wiki syntax, version control, attachments, security, and searching, but also many advanced features like templates, database and dynamic development using scripting languages (Velocity, Groovy, Ruby, Python, PHP, and more), an extension system and skinability, J2EE scalability, an XML/RPC remote API, statistics, RSS feeds, PDF exporting, WYSIWYG editing, an Office viewer and importer, and a lot more.
TSPSG is intended to generate and solve "travelling salesman problem" (TSP) tasks. It uses the Branch and Bound method for solving. Its input is a number of cities and a matrix of city-to-city travel costs. The matrix can be populated with random values in a given range (which is useful for generating tasks). The result is an optimal route, its price, step-by-step matrices of solving, and a solving graph. The task can be saved in an internal binary format and opened later. The result can be printed or saved as PDF, HTML, or ODF. TSPSG may be useful for teachers to generate test tasks or just for regular users to solve TSPs. Also, it may be used as an example of using the Branch and Bound method to solve a particular task.
TXR is a new data munging language. TXR's special pattern language provides template-based matching of entire documents or large sections of documents. It also contains a language for functional and imperative programming. It is written in C and takes the form of a utility that is portable to Unix-like platforms and Windows.
jTracer is a visualization tool for libcsdbg. When libcsdbg creates a stack trace for a thread (or for a caught exception) or a stack trace dump, it can be configured to broadcast the trace data through TCP/IP (UDP/IP, RS-232, USB, etc. are under development). jTracer catches those data and visualizes them to the user, sorted and ordered by TCP/UDP/IP address/port (or serial port), process ID, and executable, thread, and timestamp. It's particularly useful when you're doing cross-development and your target platform has no resources to visualize output. The rationale behind the development of jTracer is similar to gdb/gdbserver functionality.