JWE Project Ideas
- Improve interface for communication between GUI and interpreter
Currently, communication between the GUI and the interpreter mostly happens when the interpreter is otherwise idle and waiting for user input at the command prompt and the implementation is somewhat complicated. We need to determine whether this is the best we can do, or if there is some other implementation that would be more flexible and reliable.
- GUI command window
The implementation of the GUI command window for Unix-like systems is a completely separate implementations from the one used on Windows systems. There should be only one, and the GUI should be completely in charge of user input and output. This will probably require implementing some kind of simple output pager internally instead of using an external program, but overall user interaction could be improved.
- Interrupt handling in the GUI
This issue is related to the GUI command window. Interrupt signals (typically generated by typing Control-C at the command prompt) cause some trouble with the GUI and when multiple threads are active, particularly inside of library code like the BLAS. There are a number of bug reports for this problem. We need to find a way to reliably interrupt the interpreter.
- Generating publication-quality figures
Generating EPS or PDF versions of figures needs improvement.
- OpenGL graphics system issues
- Scaling plot data values/ranges to fit in single-precision OpenGL values
- Performance issues
- Lack of WYSIWYG
- Duplication of effort with FLTK and Qt widgets. With the rest
of the GUI using Qt widgets, we should eliminte the FLTK plotting widget. To do that, we will need to make the Qt plotting widget work when Octave is started with --no-gui and ensure that all features in the FLTK widget are also present in the Qt widget.
- Improvements to classdef (the Matlab object-oriented program framework)
- Resolve remaining Matlab compatibility issues.
- Make it possible to load and save classdef objects.
- Improve and simplify the implementation. Although the basic
features that are implemented now appear to mostly work, the implementation seems overly complicated, making it difficult to debug and modify. There seems to be quite a bit of room for improvement here.
- String class
- Matlab now uses "" to create string objects that behave
differently from Octave double-quoted strings.
- Handle UTF-8 (or whatever) characters properly
- Try to do this in a Matlab-compatible way.
- Handle single and integer values for ranges
- Local functions
The semantics for local functions in scripts is different from the way Octave currently handles functions that are defined in script files.
- Allow large files to be loaded and saved
Make the load and save commands compatible with Matlab's HDF5-based file format. Matlab users expect this and we need something like this to support large arrays anyway.
- Matlab packages (+DIR directories in the loadpath; relate classdef)
Octave already searches for files in package directories and understands the PKG.fcn syntax and functionality. The big missing piece is implementation of the "import" functionality and handling it efficiently and in a way that is compatible with Matlab.
- Toolboxes
Move some core toolboxes (communications, control systems, image processing, optimization, signal processing, and statistics), to core Octave so development is managed along with Octave. Core Octave developers are already responsible for these packages anyway, and users don't seem to understand why they need to install them separately. Core parts of the ordinary differential equations package have already been moved to Octave.
- General code quality improvements
- Use C++11 features where possible.
- Better and more complete use of C++ namespaces.
- Better use of C++ features. Especially standard library features
as their implementation becomes more widely available. For example, we might be able to simplify some things in Octave by using the C++17 filesystem and special functions libraries, if they provide results that are at least as good what we are using now.
- Eliminate C preprocessor macros where possible
- GUI code editor
Make it possible to use external editors such as Emacs, vim, or others with the GUI in addition to Octave's built-in code editor
- Documentation
- Continue to improve Doxygen documentation for Octave internals to
make it easier for new contributors to understand the Octave code base.
- JIT compiler
A proof-of-concept implementation was done several years ago by a Google Summer of Code student. It was never complete and little work has been done since. It also depends on an old version of LLVM. In addition to LLVM, we should consider the JIT library features of GCC.
This is probably the most difficult item (at least for me) since it will require fairly advanced knowledge of compiler infrastructure and Octave internals.
- Windows distribution
Eliminate the following msys packages. Some might be removed entirely if they are unnecessary for running Octave or building Octave Forge packages. Otherwise, we should be building them from source as we do all other tools and libraries that are distributed with Octave. The difficulty is that although the msys packges are typically based on old versions of these packages, they sometimes have fixes that are needed to allow them to run properly on Windows systems. Note also that we distribute a termcap library, but the msys version of less depends on the msys termcap library.
bash less perl coreutils libcrypt regex diffutils libiconv sed dos2unix libintl tar file libmagic termcap findutils libopenssl unzip gawk make zip grep msys-core wget gzip patch zlib