oxaliq/feature-change-applier
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity
Application to model diachronic phonological processes. /2021
144 commits 22 branches 0 tags 5 MiB
JavaScript 91.3%
CSS 4%
Nearley 2.6%
SCSS 1.8%
HTML 0.3%
Find a file
Sorrel 96bbb274df
Create LICENSE
2021-04-14 20:34:07 -04:00
public stub working parse of or Operation on sets; phoneList being read as setAlias 2020-05-21 19:02:18 -07:00
src patch test bug incorrectly oriented square brackets 2020-05-21 19:36:43 -07:00
.flowconfig hook features and phones into Features render 2019-12-16 22:22:37 -08:00
.gitignore Initial commit from Create React App 2019-11-19 16:06:56 -08:00
grammar.js init parser with nearley 2020-03-12 12:38:52 -07:00
LICENSE Create LICENSE 2021-04-14 20:34:07 -04:00
package-lock.json init parser with nearley 2020-03-12 12:38:52 -07:00
package.json stub parser 2020-03-27 15:55:45 -07:00
README.md update latl README with set definition 2020-05-09 16:24:00 -07:00

README.md

Feature Change Applier

Try the app!

Inspired by the Zompist Sound Change Applier 2

What is this?

Feature Change Applier is a tool for applying systemic sound change rules to an input lexicon.

Features:

  • feature based phone definitions
  • feature based sound change rule support
  • multi-character phone support
  • comparative runs for multiple rule sets

What is LATL?

Read the specification

LATL is a JavaScript targeting compiled language for doing linguistic analysis and transformations.

How do I use FCA?

An FCA run requires the user to define three parameters:

The Input Lexicon

For best effect, the input lexicon should use a narrow phonetic transcription of each lexeme. Lexemes must be separated by line breaks in order to be parsed properly by FCA. Multi-word lexemes can be inserted with or without spaces, any white-space will be removed from the lexeme at runtime. FCA does not currently support suprasegmentals by default, however features can be used to define prosodic information so long as it can be associated with a single phone. For example:

  • For tonemes, use IPA tone markers as in ma˨˩˦ (马)
  • For phonetic length, use IPA length markers as in ħaːsin (حَاسِن‎)
  • For stress or syllabic breaks, however ˈɡʊd.nɪs may result in unpredictable behavior and is best avoided.
    See below for defining these features in the feature set.

Future Changes to the Input Lexicon

  • Future versions of FCA will allow for greater suprasegmental feature support.
  • Future versions will allow for epoch specific lexemes

The Feature Set

Phones in FCA are defined by the features they exhibit. To add or edit a feature use the form to enter the feature name and the phones which are associated with the feature in the + and - inputs. Phones should be separated by a forward slash and may be represented with multiple characters. For example:

aspirated + tʰ / pʰ / kʰ - t / p / k / ʔ
Results in:
[+ aspirated] = tʰ / pʰ / kʰ [- aspirated] = t / p / k / ʔ

If the feature already exists, any phones associated with that feature will be replaced with the phones in the form. A feature is not required to have a value for every phone, and every phone is not required to have a value for every feature. Rules targeting - values for specific features will not target phones that are not defined in the feature set.

For example:
[- aspirated]>ʔ/[+ vowel]_.
This rule will not operate on the phone ʊ in haʊs as it was not defined with a negative aspirated value above.

Suprasegmentals

Toneme example using Mandarin tone system:

[+ tone] = ˥ / ˧˥ / ˨˩˦ / ˥˩  [- tone] = 
[+ high] = ˥ / ˥˩             [- high] = ˧˥ / ˨˩˦
[+ low] = ˨˩˦                 [- low] = ˥ / ˥˩ / ˧˥
[+ rising] = ˧˥               [- rising] = ˥ / ˨˩˦ / ˥˩
[+ falling] = ˨˩˦ / ˥˩        [- falling] = ˥ / ˧˥

Length example using Modern Standard Arabic (without allophonic variation):

[+ long] = aː / iː / uː                 [- long] = a / i / u / aj / aw
[+ geminate] = mː / nː / tː / tˤː / ... [- geminate] = m / n / t / tˤ / ...

Future Chagnes to the Feature Set

  • Future versions of FCA will allow for greater suprasegmental feature support
  • Future versions will allow for exclusive features. In the example below a phone cannot have a labial value and a coronal value simultaneously:
[!place 
  [labial
    [+ labiodental] = f
    [- labiodental] = p / m / kp / ŋm
    [+ labiovelar]  = kp / ŋm
    [- labiovelar]  = f / p / m
  ]
  [coronal
    [+ anterior]    = t̪ / n̪ / t / n
    [- anterior]    = c / ɲ / ʈ / ɳ
    [+ distributed] = t̪ / n̪ / c / ɲ 
    [- distributed] = t / n / ʈ / ɳ
  ]
  ...
]

Epochs

This is where the rules to transform your lexicon are defined. An FCA project can have as many 'epochs' or suites of sound change rules as you would like to define. Rules can be defined using phones or features:

  • n>ŋ/._k
  • [+ nasal alveolar]>[- alveolar + velar]/._[+ velar]

These two rules will both act on the phone n in the sequence nk transforming it into ŋ, however the feature defined rule could also transform the n in the sequences ng, , nx, etc.

By default, FCA will pipe the initial lexicon into each one of these epochs and apply their transformations independently. The output of one epoch can be piped into another epoch, however, by defining the parent parameter from the dropdown when adding a new epoch.