Difference between revisions of "GSOC 2015 Ideas"

From D Wiki
Jump to: navigation, search
(Cmsed)
Line 121: Line 121:
 
* Adding PDF Support.
 
* Adding PDF Support.
 
* Adding support for Barcodes and Qr codes.
 
* Adding support for Barcodes and Qr codes.
 +
 +
Knowledge in Compile Time Function Execution/Evaluation is not a requirement for this project.
 +
But to take full advantage be ready to learn!
  
 
==== Its Good To Know ====
 
==== Its Good To Know ====
Line 126: Line 129:
 
* You will definitely need to be familiar with [http://www.vibed.org Vibe D].
 
* You will definitely need to be familiar with [http://www.vibed.org Vibe D].
  
==== Proposed Project Mentors: Richard Andrew Cattermole ====
+
==== Proposed Project Mentors: Richard (Rikki) Andrew Cattermole ====
  
Richard is from New Zealand. When he is not tending to the families' sheep he is leading development of Cmsed.
+
Richard is from New Zealand. He recently graduated from Christchurch Polytechnic Institute of Technology with a degree in ICT.<br/>
tt
+
In the D community he is known for DOOGLE (GUI toolkit), Cmsed, Dvorm and more recently [https://github.com/Devisualization Devisualization].<br/>
 +
He has a strange fascination towards CTFE and its many uses. For this reason alone Cmsed, has significant CTFE usage in helping optimise routing and database work.
  
 
== Ideas From Previous Years ==
 
== Ideas From Previous Years ==

Revision as of 09:07, 18 January 2015

This is the D Google Summer of Code page for 2015 - it is currently under heavy construction, and may remain so until February, when it will be finalized. To learn more about this year's event, see the Google Summer of Code 2015 page. If you are interested in participating in the 2015 GSOC as either a student or mentor, and want to do something related to D, please feel free to contact our GSOC administrator Craig Dillabaugh (firstname dot lastname at gmail dot com).


Timeline

The timeline for GSoC for 2015 has now been posted here.

Ideas

Plenty of challenging and important projects exist in the D world. They range from writing new or improving existing modules of D's standard library (Phobos), working on its compilers (Compilers), bringing D to mobile devices, shaping GUI libraries for D, integrating D with other languages and more.

SDC Project - D Compiler as a Library


Project Desription:

The SDC project (https://github.com/deadalnix/SDC) is an effort to provide a D compiler as a library. Any ideas to further the development of this project are welcome, but for a student who would like a specific project we propose the following task(s):

  • Start by implementing with @property feature of D. This feature will allow a D programmer to create functions that are called using the same syntax as variable access.
  • Using the @property feature the student will be able to implement the runtime support for slices and associative arrays. The operations to implement are as follows:
    • Implement arrray operations like concatenation and appending, and implement a sound memory management strategy for the underlying data.
    • Implement a generic and efficient hash table. The data structure and algorithms used must be flexibile enough to be adapted to any type of data that might be stored in the table. A concurrent version of the table is need for shared data.
  • Finally, the student will implement masquerading of D syntax into calls for the runtime.

Its Good To Know

  • Please watch Amaury's DConf talk on SDC.
  • SDC is developed in D (of course) so you will need to be proficient in D by the time you start coding.
  • You should have taken at least one course on compilers, or at the least be willing to educate yourself in this regard. There is a decent course availabe through Coursera https://www.coursera.org/course/compilers
  • You should familiarize yourself with classicial data structures for arrays and have knowledge of various schemes for table implementations, (it is worthwhile to read up on hopscotch and robin hood hashing).
  • SDC uses LLVM for code generation, so some familiarity with LLVM will be required (see http://llvm.org/docs/tutorial/index.html).

Proposed Project Mentor: Amaury Sechet

Amaury, or Deadalinx as he is now in the D community is an Engineer with Facebook.

GDC Project - The GNU D Compiler


GDC is a D compiler based on the GCC backend. There are a few outstanding issues in GDC that have ended up in the backlog of known issues to fix, as well as changes that could be beneficial to upstream and other compilers.

Compiler Improvements

  • Implement support for compiling with LTO (-flto) turned on.
  • There are various XBUG markers in GDC's testsuite, some haven't been looked at in a long time. There should be fewer!
  • Internal Documentation. Ideally every function should have a comment describing its use and input values. As the bulk of what happens in the glue is just providing for backend members declared in the front-end. Most should be pretty trivial to work through.
  • Debugging Support. Enumerals of non-scalar types currently emit no debugging information. A solution should be proposed and implemented for this.
  • Improving codegen for better optimisations. Currently all shared types are marked volatile, which is a workaround for not being able to prevent shared decls from being cached into registers by other means. Improvements could also be done around parameter passing, taking advantage of D storage attributes.

Library Improvements

  • Get shared library support working. The current implementation upstream in DM druntime has not been tested or merged in, and it is not clear what changes are required to support it, or whether is even going to be feasibly possible with GDC.
  • GDC EH support is lacking the ability to chain multiple thrown exceptions together in its deh personality routines.
  • Now GCC has __atomic primitives defined for the new C++ memory model. We should take advance of these and update the API in gcc.atomics which hash out the old __synchronise primitives. The new __atomic primitives having a one-to-one mapping with core.atomic being just one of the benefits of this.
  • More targets are expected to land in GDC pretty soon. In preparation for this, we should investigate an alternate layout of druntime before the long lists of version conditions becomes a problem for port maintainers (See #11666).

Proposed Project Mentor: Iain Buclaw

Lead developer, project coordinator and the principal force behind the development of the GNU D Compiler from as far back as 2009, where he was responsible for the migration over from D1 to D2, as well as from GCC 3.x to GCC 4.x. Iain works on for a Cloud Services/Hosting company as a Technical Engineer, and unofficially uses D on a frequent basis to develop interpreters, and various plug-ins to work within the company infrastructure. You can watch Iain's recent DConf talk here.

DDT


DDT is an Eclipse-based IDE for the D programming lanaguage, aiming to support rich functionality, particularly semantic functionality (code completion, find definition, find references, etc.). There are two areas which prospective students could target for improvement:

  • DDT Core Engine
    • Make the DDT semantic enginer available as a command-line daemon tool (similar to DCD).
    • Add support for source formatting (with formatting options).
    • Add support for semantic search in the semantic engine (search symbols by anem and type). For example, "where in my code is the function std.stdio.writeln" called?", or "which classes in my code subclass the given class?".
    • Improve semantic engine / code completion capabilities. For example, understand template instantiation, function overloads, etc.
  • Eclipse Specific Enhancements
    • Improve/add UI support for DUB multiple build configurations and launch.
    • Reduce usage of DLTK code, possibly refactoring or rewriting DLTK functionality into an IDE-neutral layer (LangEclipseIDE).
    • Add support for continous build mode (build and report errors on the fly).

Some of these ideas are a bit small for a full GGoC project, so it might make sense to combine a couple of tasks into a single project.


Proposed Project Mentor: Bruno Medeiros

Bruno is the lead developer of DDT on and off from as far back as 2008. He has an interest in toolchain development for up and coming languages such as D, particularly the development of IDEs and IDE semantic functionality. Professionally, Bruno works mainly with core Java and Eclipse RCP technologies - currently on R&D projects.

QML Bindings


This proposal is to create a way of communicating between D codes and QML engines via signals and slots. The model here is the Go/QML system. It works very well, but isn't D.


Proposed Project Mentor: Russel Winder

Bare Metal ARM Support


This is a project focuses on bare metal cross-compilers and an appealing eco-system to surround it. The goal is to raise the awareness of D in the open hardware community at large and prove D's systems programming lanugage title along the way. It's hard not to notice the growing momentum of the open hardware movement. Yesterday's newbies awkwardly messing with theirs first Arduinos are today's mature embedded systems hackers. The hanger for ever more powerful systems takes them en mass towards ARM development boards. These systems often lack a good open source toolchain, e.g. linker scripts, HAL, so that D certainly can be a compelling offering in this setting (compared to C/C++ in usability). The project is two-fold and can be geared towards any of the 2 major parts:

  • Getting a bare-metal D runtime support on Cortex-M3/M4 with as many language features as possible. A minor victory would be having a minimal thread-less and GC-less runtime. A more ambitious plan here is creating a small-ish RTOS in D, to provide full runtime with threads, mutexes etc.
  • Create a Wiring or mbed look-alike library in D for a selected family of popular chips (and consequently a range of boards). Instead of cloning a popular API you might also design your own hardware abstraction library using D to it's full extend. The challenge here is to tackle things like GPIOs, USARTs, I2C, SPIs, PWM, ADC and other peripherals commonly found in MCUs in a future-proof way.

Its Good To Know

Cool demos (including public videos) are an obligatory part of the project ;) For a starting point see this project (some D working on STM32 boards). Michael V. Franklin has done some work bare-metal ARM which is worthwhile to review:

Proposed Project Mentor: Martin Nowak

Phobos: D Standard Library


There is still signficant work to be done in order to get the D Standard Libraries into a proper state. The following libraries are good candidates for GSoC projects:

  • std.benchmark: (Jens and Russell)
  • std.i18n: (Jens and Russell) Design and implement a basic internationalization framework. It may be possible to implement this with pragma(msg). For proof of concept see http://arsdnet.net/dcode/i18n.d . It should provide at least the following functionality:
    • A locale part, std.i18n.locale which should detect a user's default lanaguage, select a global application lanaguage, and provide types to describe and work with locales.
    • A text translation part, std.i18n.translation, which should be gettext compatible, preferably using the gettext serialized hashtables in .mo files, and provide low level (gettext like) and high level (boost::locale like) APIs.
    • A tool to extract strings which need to be translated from D code. This should preferably be based on DScanner but alternately could use regular expressions. Optionally support for D code could be added to xgettext.
  • std.numeric.matrix (Jens)
  • std.parallelism (Russell) std.parallelism needs a review and some benchmarking - prior to making improvements. As part of this is would be good to have a standard benchmarking framework, hence the idea of std.benchmark. However there is no need for it to be in std (and hence Phobos) in the first instance. So the project(s) would be to create a comparative benchmarking framework that can then be used to analyse std.parallelism on a more scientific basis than has been done to date.
  • std.socket: (Jens) The existing std.socket module needs an overhaul. This includes fixing existing issues and improving its API. Keeping the module backward compatible and avoiding code breaking changes is important.
  • std.units (Jens)

Proposed Project Mentors: Andrei Alexandrescu, Jens Mueller, Jacob Ovrum, Russel Winder

Cmsed


Cmsed is a web services framework built on Vibe D. There are a number of improvments that need to be made to this framework. You can look here to see what has been done, and what needs to be done. A few recommendations though for suitable GSOC projects:

  • Adding PDF Support.
  • Adding support for Barcodes and Qr codes.

Knowledge in Compile Time Function Execution/Evaluation is not a requirement for this project. But to take full advantage be ready to learn!

Its Good To Know

  • See the Cmsed project on Github.
  • You will definitely need to be familiar with Vibe D.

Proposed Project Mentors: Richard (Rikki) Andrew Cattermole

Richard is from New Zealand. He recently graduated from Christchurch Polytechnic Institute of Technology with a degree in ICT.
In the D community he is known for DOOGLE (GUI toolkit), Cmsed, Dvorm and more recently Devisualization.
He has a strange fascination towards CTFE and its many uses. For this reason alone Cmsed, has significant CTFE usage in helping optimise routing and database work.

Ideas From Previous Years

GSoC idea pages from past years:

Tips for students

Daniel Pocock has written a detailed blog about initiatives students can take if they want to have a serious chance of being selected in GSoC 2015 without a focus on one specific organization.

Tips for Mentors

If you are interested in mentoring, please check out the organization administrator and mentor manual for more information.