Ergonomic Arabic Keyboard Layout

لؤلؤة

This is work in progress and contributions are welcome. Head over to GitHub to see where you can help.

Goals

  • Ergonomic typing of unvocalized and vocalized text with 10 fingers
  • Modern Standard Arabic and Quranic Arabic
  • Localized numbers (European/Arabic-Indic)
  • Usable as primary or secondary keyboard
  • Compose-based
  • Support for Markdown, RST, Wikitext and similar markup

Other languages using the Arabic alphabet (regional dialects, Urdu, Persian) are explicitly not supported.

Usage

Linux
Run: xmodmap ar-lulua.xmodmap

Learn more

الأبجدية العربية

The Arabic Alphabet

There are 28 letters in the Arabic alphabet, plus quite a few extra symbols required for proper text input, like the hamza in its different shapes أ إ آ ء ئ ؤ, ta marbutah ة, alif maqsurah ى and various diacritics for vowelized texts. Since the usability of a keyboard layout depends on the text entered it is necessary to study letter and letter combination frequencies first. The corpus used for the following analysis consists of

  • 547,110 articles from aljazeera.net, an Arabic-language news site
  • 149,901 articles from BBC Arabic, another Arabic-language news site
  • a dump of the Arabic Wikipedia as of July 2019, extracted using wikiextractor containing 857386 articles
  • and a plain-text copy of the Quran from tanzil.net using the options Simple Enhanced and Text (for inclusion of diacritics)

summing up to roughly 1.5 billion characters. The plot below shows ا ل ي و م ن can be considered the most frequently used letters in the Arabic language.

Arabic letter frequency distribution

Related work

Trying to unify existing layouts, the Arab Standardization and Meterology Organization (ASMO), now part of AIDMO, published an Arabic keyboard layout in 1987 as standard 663. This, however, turned out to be a failure, due to lack of adoption by the typewriter industry.

Instead we’re currently using this layout (on Linux), which is similar, but not quite the same. Most notably this layout arranges letters by their visual similarity. Thus it allocates suboptimal or even awkward positions to frequently used letters like ا ل and ذ.

The work by Malas et al. (2008), Toward Optimal Arabic Keyboard Layout Using Genetic Algorithm, presents an alternative layout generated by a genetic algorithm. They used a snapshot of the Arabic Wikipedia probably from around 2008 and optimized for typing speed only, claiming 35% faster typing compared to the currently used layouts. However the choice to put ي in the top row seems odd and suggests the authors did not take the time to review the layout manually, given this letter is the third most frequent one even in their own research.

In 2015 patent 9,041,657 B2 was filed in the US, presenting yet another computer-generated layout. Its genetic algorithm was seeded with just 54 Arabic e-books consisting of 7 million characters in total. Overall it claims to be 9% faster than default layouts. This layout rips off most of the standard layout’s second layer, but amusingly fails to include a question mark, while it does provide three single-quote marks ’ and two Arabic semicolon ؛. Additionally it places ي in an even worse position than Malas’ layout.

In the paper A new optimal Arabic keyboard layout using genetic algorithm Khorshid et al. present yet another layout. They claim a 36% improvement over the standard keyboard based on their criteria for ergonomic layouts. However in their layout from figure 8 both letters ب ر are in suboptimal positions.

The Arabic Phonetic Keyboard simply maps the QWERTY layout to Arabic letters, based on their sound. Thus Q becomes ق, Y becomes ي and so on. It claims to be optimized for writing vowelized texts, especially Quranic Arabic, and thus includes quite a few combining characters and special symbols. Although it claims to make frequently used letters easily available – based on the work of Intellaren – it makes no effort to arrange letters according to their usage frequency.

While technically speaking not a layout but alternative input method, Intellark by Intellaren is worth mentioning. It is based on repeatedly pressing the same button to modifiy the current character. For example pressing A on the QWERTY keyboard cycles through the alternatives ا أ إ آ and ء. Obviously this is slow, error-prone and violates Dvorak’s guidelines for keyboard layout designs.