Internationalization for GitLab

Introduced in GitLab 9.2.

For working with internationalization (i18n), GNU gettext is used given it's the most used tool for this task and there are a lot of applications that help us work with it.

NOTE: All rake commands described on this page must be run on a GitLab instance, usually GDK.

Setting up GitLab Development Kit (GDK)

In order to be able to work on the GitLab Community Edition project you must download and configure it through GDK.

After you have the GitLab project ready, you can start working on the translation.

Tools

The following tools are used:

gettext_i18n_rails: this gem allow us to translate content from models, views and controllers. Also it gives us access to the following Rake tasks:
- rake gettext:find: Parses almost all the files from the Rails application looking for content that has been marked for translation. Finally, it updates the PO files with the new content that it has found.
- rake gettext:pack: Processes the PO files and generates the MO files that are binary and are finally used by the application.
gettext_i18n_rails_js: this gem is useful to make the translations available in JavaScript. It provides the following Rake task:
- rake gettext:po_to_json: Reads the contents from the PO files and generates JSON files containing all the available translations.
PO editor: there are multiple applications that can help us to work with PO files, a good option is Poedit which is available for macOS, GNU/Linux and Windows.

Preparing a page for translation

We basically have 4 types of files:

Ruby files: basically Models and Controllers.
HAML files: these are the view files.
ERB files: used for email templates.
JavaScript files: we mostly need to work with Vue templates.

Ruby files

If there is a method or variable that works with a raw string, for instance:

def hello
  "Hello world!"
end

Or:

hello = "Hello world!"

You can easily mark that content for translation with:

def hello
  _("Hello world!")
end

Or:

hello = _("Hello world!")

Be careful when translating strings at the class or module level since these would only be evaluated once at class load time.

For example:

validates :group_id, uniqueness: { scope: [:project_id], message: _("already shared with this group") }

This would be translated when the class is loaded and result in the error message always being in the default locale.

Active Record's :message option accepts a Proc, so we can do this instead:

validates :group_id, uniqueness: { scope: [:project_id], message: -> (object, data) { _("already shared with this group") } }

Messages in the API (lib/api/ or app/graphql) do not need to be externalized.

HAML files

Given the following content in HAML:

%h1 Hello world!

You can mark that content for translation with:

%h1= _("Hello world!")

ERB files

Given the following content in ERB:

<h1>Hello world!</h1>

You can mark that content for translation with:

<h1><%= _("Hello world!") %></h1>

JavaScript files

In JavaScript we added the __() (double underscore parenthesis) function that you can import from the ~/locale file. For instance:

import { __ } from '~/locale';
const label = __('Subscribe');

In order to test JavaScript translations you have to change the GitLab localization to another language than English and you have to generate JSON files using bin/rake gettext:po_to_json or bin/rake gettext:compile.

Vue files

In Vue files we make both the __() (double underscore parenthesis) function and the s__() (namespaced double underscore parenthesis) function available that you can import from the ~/locale file. For instance:

import { __, s__ } from '~/locale';
const label = __('Subscribe');
const nameSpacedlabel = __('Plan|Subscribe');

For the static text strings we suggest two patterns for using these translations in Vue files:

External constants file:

javascripts
│
└───alert_settings
│   │   constants.js
│   └───components
│       │   alert_settings_form.vue


// constants.js

import { s__ } from '~/locale';

/* Integration constants */

export const I18N_ALERT_SETTINGS_FORM = {
  saveBtnLabel: __('Save changes'),
};


// alert_settings_form.vue

import {
  I18N_ALERT_SETTINGS_FORM,
} from '../constants';

<script>
  export default {
    i18n: {
      I18N_ALERT_SETTINGS_FORM,
    }
  }
</script>

<template>
  <gl-button
    ref="submitBtn"
    variant="success"
    type="submit"
  >
    {{ $options.i18n.I18N_ALERT_SETTINGS_FORM }}
  </gl-button>
</template>

When possible, you should opt for this pattern, as this allows you to import these strings directly into your component specs for re-use during testing.

Internal component $options object:

<script>
  export default {
    i18n: {
      buttonLabel: s__('Plan|Button Label')
    }
  },
</script>

<template>
  <gl-button :aria-label="$options.i18n.buttonLabel">
    {{ $options.i18n.buttonLabel }}
  </gl-button>
</template>

In order to visually test the Vue translations you have to change the GitLab localization to another language than English and you have to generate JSON files using bin/rake gettext:po_to_json or bin/rake gettext:compile.

Dynamic translations

Sometimes there are some dynamic translations that can't be found by the parser when running bin/rake gettext:find. For these scenarios you can use the N_ method.

There is also and alternative method to translate messages from validation errors.

Working with special content

Interpolation

Placeholders in translated text should match the code style of the respective source file. For example use %{created_at} in Ruby but %{createdAt} in JavaScript. Make sure to avoid splitting sentences when adding links.

In Ruby/HAML:

_("Hello %{name}") % { name: 'Joe' } => 'Hello Joe'

In Vue:

Use the GlSprintf component if:

you need to include child components in the translation string.
you need to include HTML in your translation string.
you are using sprintf and need to pass false as the third argument to prevent it from escaping placeholder values.

For example:

<gl-sprintf :message="s__('ClusterIntegration|Learn more about %{linkStart}zones%{linkEnd}')">
  <template #link="{ content }">
    <gl-link :href="somePath">{{ content }}</gl-link>
  </template>
</gl-sprintf>

In other cases it may be simpler to use sprintf, perhaps in a computed property. For example:

<script>
import { __, sprintf } from '~/locale';

export default {
  ...
  computed: {
    userWelcome() {
      sprintf(__('Hello %{username}'), { username: this.user.name });
    }
  }
  ...
}
</script>

<template>
  <span>{{ userWelcome }}</span>
</template>

In JavaScript (when Vue cannot be used):

import { __, sprintf } from '~/locale';

sprintf(__('Hello %{username}'), { username: 'Joe' }); // => 'Hello Joe'

If you need to use markup within the translation, use sprintf and stop it from escaping placeholder values by passing false as its third argument. You must escape any interpolated dynamic values yourself, for instance using escape from lodash.

import { escape } from 'lodash';
import { __, sprintf } from '~/locale';

let someDynamicValue = '<script>alert("evil")</script>';

// Dangerous:
sprintf(__('This is %{value}'), { value: `<strong>${someDynamicValue}</strong>`, false);
// => 'This is <strong><script>alert('evil')</script></strong>'

// Incorrect:
sprintf(__('This is %{value}'), { value: `<strong>${someDynamicValue}</strong>` });
// => 'This is &lt;strong&gt;&lt;script&gt;alert(&#x27;evil&#x27;)&lt;/script&gt;&lt;/strong&gt;'

// OK:
sprintf(__('This is %{value}'), { value: `<strong>${escape(someDynamicValue)}</strong>` }, false);
// => 'This is <strong>&lt;script&gt;alert(&#x27;evil&#x27;)&lt;/script&gt;</strong>'

Plurals

In Ruby/HAML:

n_('Apple', 'Apples', 3)
# => 'Apples'

Using interpolation:

n_("There is a mouse.", "There are %d mice.", size) % size
# => When size == 1: 'There is a mouse.'
# => When size == 2: 'There are 2 mice.'

Avoid using %d or count variables in singular strings. This allows more natural translation in some languages.

In JavaScript:

n__('Apple', 'Apples', 3)
// => 'Apples'

Using interpolation:

n__('Last day', 'Last %d days', x)
// => When x == 1: 'Last day'
// => When x == 2: 'Last 2 days'

The n_ method should only be used to fetch pluralized translations of the same string, not to control the logic of showing different strings for different quantities. Some languages have different quantities of target plural forms - Chinese (simplified), for example, has only one target plural form in our translation tool. This means the translator would have to choose to translate only one of the strings and the translation would not behave as intended in the other case.

For example, prefer to use:

if selected_projects.one?
  selected_projects.first.name
else
  n__("Project selected", "%d projects selected", selected_projects.count)
end

rather than:

# incorrect usage example
n_("%{project_name}", "%d projects selected", count) % { project_name: 'GitLab' }

Namespaces

A namespace is a way to group translations that belong together. They provide context to our translators by adding a prefix followed by the bar symbol (|). For example:

'Namespace|Translated string'

A namespace provide the following benefits:

It addresses ambiguity in words, for example: Promotions|Promote vs Epic|Promote
It allows translators to focus on translating externalized strings that belong to the same product area rather than arbitrary ones.
It gives a linguistic context to help the translator.

In some cases, namespaces don't make sense, for example, for ubiquitous UI words and phrases such as "Cancel" or phrases like "Save changes" a namespace could be counterproductive.

Namespaces should be PascalCase.

In Ruby/HAML:
```
s_('OpenedNDaysAgo|Opened')
```
In case the translation is not found it returns Opened.
In JavaScript:
```
s__('OpenedNDaysAgo|Opened')
```

The namespace should be removed from the translation. See the translation guidelines for more details.

HTML

We no longer include HTML directly in the strings that are submitted for translation. This is for a couple of reasons:

It introduces a chance for the translated string to accidentally include invalid HTML.
It introduces a security risk where translated strings become an attack vector for XSS, as noted by the Open Web Application Security Project (OWASP).

To include formatting in the translated string, we can do the following:

In Ruby/HAML:

  html_escape(_('Some %{strongOpen}bold%{strongClose} text.')) % { strongOpen: '<strong>'.html_safe, strongClose: '</strong>'.html_safe }

  # => 'Some <strong>bold</strong> text.'

In JavaScript:

  sprintf(__('Some %{strongOpen}bold%{strongClose} text.'), { strongOpen: '<strong>', strongClose: '</strong>'}, false);

  // => 'Some <strong>bold</strong> text.'

In Vue

See the section on interpolation.

When this translation helper issue is complete, we plan to update the process of including formatting in translated strings.

Including Angle Brackets

If a string contains angles brackets (</>) that are not used for HTML, it is still flagged by the rake gettext:lint linter. To avoid this error, use the applicable HTML entity code (< or >) instead:

In Ruby/HAML:

html_escape_once(_('In &lt; 1 hour')).html_safe

# => 'In < 1 hour'

In JavaScript:

import { sanitize } from '~/lib/dompurify';

const i18n = { LESS_THAN_ONE_HOUR: sanitize(__('In &lt; 1 hour'), { ALLOWED_TAGS: [] }) };

// ... using the string
element.innerHTML = i18n.LESS_THAN_ONE_HOUR;

// => 'In < 1 hour'

In Vue:

<gl-sprintf :message="s__('In &lt; 1 hours')"/>

// => 'In < 1 hour'

Numbers

Different locales may use different number formats. To support localization of numbers, we use formatNumber, which leverages toLocaleString().

formatNumber formats numbers as strings using the current user locale by default.

In JavaScript

import { formatNumber } from '~/locale';

// Assuming "User Preferences > Language" is set to "English":

const tenThousand = formatNumber(10000); // "10,000" (uses comma as decimal symbol in English locale)
const fiftyPercent = formatNumber(0.5, { style: 'percent' }) // "50%" (other options are passed to toLocaleString)

In Vue templates

<script>
import { formatNumber } from '~/locale';

export default {
  //...
  methods: {
    // ...
    formatNumber,
  },
}
</script>
<template>
<div class="my-number">
  {{ formatNumber(10000) }} <!-- 10,000 -->
</div>
<div class="my-percent">
  {{ formatNumber(0.5,  { style: 'percent' }) }} <!-- 50% -->
</div>
</template>

Dates / times

In JavaScript:

import { createDateTimeFormat } from '~/locale';

const dateFormat = createDateTimeFormat({ year: 'numeric', month: 'long', day: 'numeric' });
console.log(dateFormat.format(new Date('2063-04-05'))) // April 5, 2063

This makes use of Intl.DateTimeFormat.

In Ruby/HAML, we have two ways of adding format to dates and times:
1. Through the l helper, i.e. l(active_session.created_at, format: :short). We have some predefined formats for dates and times. If you need to add a new format, because other parts of the code could benefit from it, you can add it to en.yml file.
2. Through strftime, i.e. milestone.start_date.strftime('%b %-d'). We use strftime in case none of the formats defined on en.yml matches the date/time specifications we need, and if there is no need to add it as a new format because is very particular (i.e. it's only used in a single view).

Best practices

Minimize translation updates

Updates can result in the loss of the translations for this string. To minimize risks, avoid changes to strings, unless they:

Add value to the user.
Include extra context for translators.

For example, we should avoid changes like this:

- _('Number of things: %{count}') % { count: 10 }
+ n_('Number of things: %d', 10)

Keep translations dynamic

There are cases when it makes sense to keep translations together within an array or a hash.

Examples:

Mappings for a dropdown list
Error messages

To store these kinds of data, using a constant seems like the best choice, however this doesn't work for translations.

Bad, avoid it:

class MyPresenter
  MY_LIST = {
    key_1: _('item 1'),
    key_2: _('item 2'),
    key_3: _('item 3')
  }
end

The translation method (_) is called when the class is loaded for the first time and translates the text to the default locale. Regardless of the user's locale, these values are not translated a second time.

Similar thing happens when using class methods with memoization.

Bad, avoid it:

class MyModel
  def self.list
    @list ||= {
      key_1: _('item 1'),
      key_2: _('item 2'),
      key_3: _('item 3')
    }
  end
end

This method memorizes the translations using the locale of the user, who first "called" this method.

To avoid these problems, keep the translations dynamic.

Good:

class MyPresenter
  def self.my_list
    {
      key_1: _('item 1'),
      key_2: _('item 2'),
      key_3: _('item 3')
    }.freeze
  end
end

Splitting sentences

Please never split a sentence as that would assume the sentence grammar and structure is the same in all languages.

For instance, the following:

{{ s__("mrWidget|Set by") }}
{{ author.name }}
{{ s__("mrWidget|to be merged automatically when the pipeline succeeds") }}

should be externalized as follows:

{{ sprintf(s__("mrWidget|Set by %{author} to be merged automatically when the pipeline succeeds"), { author: author.name }) }}

Avoid splitting sentences when adding links

This also applies when using links in between translated sentences, otherwise these texts are not translatable in certain languages.

In Ruby/HAML, instead of:

- zones_link = link_to(s_('ClusterIntegration|zones'), 'https://cloud.google.com/compute/docs/regions-zones/regions-zones', target: '_blank', rel: 'noopener noreferrer')
= s_('ClusterIntegration|Learn more about %{zones_link}').html_safe % { zones_link: zones_link }

Set the link starting and ending HTML fragments as variables like so:

- zones_link_url = 'https://cloud.google.com/compute/docs/regions-zones/regions-zones'
- zones_link_start = '<a href="%{url}" target="_blank" rel="noopener noreferrer">'.html_safe % { url: zones_link_url }
= html_escape(s_('ClusterIntegration|Learn more about %{zones_link_start}zones%{zones_link_end}')) % { zones_link_start: zones_link_start, zones_link_end: '</a>'.html_safe }

In Vue, instead of:

<template>
  <div>
    <gl-sprintf :message="s__('ClusterIntegration|Learn more about %{link}')">
      <template #link>
        <gl-link
          href="https://cloud.google.com/compute/docs/regions-zones/regions-zones"
          target="_blank"
        >zones</gl-link>
      </template>
    </gl-sprintf>
  </div>
</template>

Set the link starting and ending HTML fragments as placeholders like so:

<template>
  <div>
    <gl-sprintf :message="s__('ClusterIntegration|Learn more about %{linkStart}zones%{linkEnd}')">
      <template #link="{ content }">
        <gl-link
          href="https://cloud.google.com/compute/docs/regions-zones/regions-zones"
          target="_blank"
        >{{ content }}</gl-link>
      </template>
    </gl-sprintf>
  </div>
</template>

In JavaScript (when Vue cannot be used), instead of:

{{
    sprintf(s__("ClusterIntegration|Learn more about %{link}"), {
        link: '<a href="https://cloud.google.com/compute/docs/regions-zones/regions-zones" target="_blank" rel="noopener noreferrer">zones</a>'
    }, false)
}}

Set the link starting and ending HTML fragments as placeholders like so:

{{
    sprintf(s__("ClusterIntegration|Learn more about %{linkStart}zones%{linkEnd}"), {
        linkStart: '<a href="https://cloud.google.com/compute/docs/regions-zones/regions-zones" target="_blank" rel="noopener noreferrer">',
        linkEnd: '</a>',
    }, false)
}}

The reasoning behind this is that in some languages words change depending on context. For example in Japanese は is added to the subject of a sentence and を to the object. This is impossible to translate correctly if we extract individual words from the sentence.

When in doubt, try to follow the best practices described in this Mozilla Developer documentation.

Updating the PO files with the new content

Now that the new content is marked for translation, we need to update locale/gitlab.pot files with the following command:

bin/rake gettext:regenerate

This command updates locale/gitlab.pot file with the newly externalized strings and remove any strings that aren't used anymore. You should check this file in. Once the changes are on the default branch, they are picked up by CrowdIn and be presented for translation.

We don't need to check in any changes to the locale/[language]/gitlab.po files. They are updated automatically when translations from CrowdIn are merged.

If there are merge conflicts in the gitlab.pot file, you can delete the file and regenerate it using the same command.

Validating PO files

To make sure we keep our translation files up to date, there's a linter that is running on CI as part of the static-analysis job.

To lint the adjustments in PO files locally you can run rake gettext:lint.

The linter takes the following into account:

Valid PO-file syntax
Variable usage
- Only one unnamed (%d) variable, since the order of variables might change in different languages
- All variables used in the message ID are used in the translation
- There should be no variables used in a translation that aren't in the message ID
Errors during translation.
Presence of angle brackets (< or >)

The errors are grouped per file, and per message ID:

Errors in `locale/zh_HK/gitlab.po`:
  PO-syntax errors
    SimplePoParser::ParserErrorSyntax error in lines
    Syntax error in msgctxt
    Syntax error in msgid
    Syntax error in msgstr
    Syntax error in message_line
    There should be only whitespace until the end of line after the double quote character of a message text.
    Parsing result before error: '{:msgid=>["", "You are going to delete %{project_name_with_namespace}.\\n", "Deleted projects CANNOT be restored!\\n", "Are you ABSOLUTELY sure?"]}'
    SimplePoParser filtered backtrace: SimplePoParser::ParserError
Errors in `locale/zh_TW/gitlab.po`:
  1 pipeline
    <%d 條流水線> is using unknown variables: [%d]
    Failure translating to zh_TW with []: too few arguments

In this output the locale/zh_HK/gitlab.po has syntax errors. The locale/zh_TW/gitlab.po has variables that are used in the translation that aren't in the message with ID 1 pipeline.

Adding a new language

A new language should only be added as an option in User Preferences once at least 10% of the strings have been translated and approved. Even though a larger number of strings may have been translated, only the approved translations display in the GitLab UI.

NOTE: Introduced in GitLab 13.3: Languages with less than 2% of translations are not available in the UI.

Let's suppose you want to add translations for a new language, let's say French.

The first step is to register the new language in lib/gitlab/i18n.rb:

...
AVAILABLE_LANGUAGES = {
  ...,
  'fr' => 'Français'
}.freeze
...

Next, you need to add the language:
```
bin/rake gettext:add_language[fr]
```
If you want to add a new language for a specific region, the command is similar, you just need to separate the region with an underscore (_). For example:
```
bin/rake gettext:add_language[en_GB]
```
Please note that you need to specify the region part in capitals.
Now that the language is added, a new directory has been created under the path: locale/fr/. You can now start using your PO editor to edit the PO file located in: locale/fr/gitlab.edit.po.
After you're done updating the translations, you need to process the PO files in order to generate the binary MO files and finally update the JSON files containing the translations:
```
bin/rake gettext:compile
```
In order to see the translated content we need to change our preferred language which can be found under the user's Settings (/profile).

After checking that the changes are ok, you can proceed to commit the new files. For example:

git add locale/fr/ app/assets/javascripts/locale/fr/
git commit -m "Add French translations for Value Stream Analytics page"