6 files changed, 1084 insertions, 0 deletions

diff --git a/intl/l10n/docs/migrations/fluent.rst b/intl/l10n/docs/migrations/fluent.rst
new file mode 100644
index 0000000000..bc14293ed7
--- /dev/null
+++ b/intl/l10n/docs/migrations/fluent.rst
@@ -0,0 +1,153 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+
+===========================
+Fluent to Fluent Migrations
+===========================
+
+When migrating existing Fluent messages,
+it's possible to copy a source directly with :python:`COPY_PATTERN`,
+or to apply string replacements and other changes
+by extending the :python:`TransformPattern` visitor class.
+
+These transforms work with individual Fluent patterns,
+i.e. the body of a Fluent message or one of its attributes.
+
+Copying Fluent Patterns
+-----------------------
+
+Consider for example a patch modifying an existing message to move the original
+value to a :js:`alt` attribute.
+
+Original message:
+
+
+.. code-block:: fluent
+
+  about-logins-icon = Warning icon
+      .title = Breached website
+
+
+New message:
+
+
+.. code-block:: fluent
+
+  about-logins-breach-icon =
+      .alt = Warning icon
+      .title = Breached website
+
+
+This type of changes requires a new message identifier, which in turn causes
+existing translations to be lost. It’s possible to migrate the existing
+translated content with:
+
+
+.. code-block:: python
+
+    from fluent.migrate import COPY_PATTERN
+
+    ctx.add_transforms(
+        "browser/browser/aboutLogins.ftl",
+        "browser/browser/aboutLogins.ftl",
+        transforms_from(
+    """
+    about-logins-breach-icon =
+        .alt = {COPY_PATTERN(from_path, "about-logins-icon")}
+        .title = {COPY_PATTERN(from_path, "about-logins-icon.title")}
+    """,from_path="browser/browser/aboutLogins.ftl"),
+    )
+
+
+In this specific case, the destination and source files are the same. The dot
+notation is used to access attributes: :js:`about-logins-icon.title` matches
+the :js:`title` attribute of the message with identifier
+:js:`about-logins-icon`, while :js:`about-logins-icon` alone matches the value
+of the message.
+
+
+.. warning::
+
+  The second argument of :python:`COPY_PATTERN` and :python:`TransformPattern`
+  identifies a pattern, so using the message identifier will not
+  migrate the message as a whole, with all its attributes, only its value.
+
+Transforming Fluent Patterns
+----------------------------
+
+To apply changes to Fluent messages, you may extend the
+:python:`TransformPattern` class to create your transformation.
+This is a powerful general-purpose tool, of which :python:`COPY_PATTERN` is the
+simplest extension that applies no transformation to the source.
+
+Consider for example a patch copying an existing message to strip out its HTML
+content to use as an ARIA value.
+
+Original message:
+
+
+.. code-block:: fluent
+
+  videocontrols-label =
+      { $position }<span data-l10n-name="duration"> / { $duration }</span>
+
+
+New message:
+
+
+.. code-block:: fluent
+
+  videocontrols-scrubber =
+      .aria-valuetext = { $position } / { $duration }
+
+
+A migration may be applied to create this new message with:
+
+
+.. code-block:: python
+
+    from fluent.migrate.transforms import TransformPattern
+    import fluent.syntax.ast as FTL
+
+    class STRIP_SPAN(TransformPattern):
+        def visit_TextElement(self, node):
+            node.value = re.sub("</?span[^>]*>", "", node.value)
+            return node
+
+    def migrate(ctx):
+        path = "toolkit/toolkit/global/videocontrols.ftl"
+        ctx.add_transforms(
+            path,
+            path,
+            [
+                FTL.Message(
+                    id=FTL.Identifier("videocontrols-scrubber"),
+                    attributes=[
+                        FTL.Attribute(
+                            id=FTL.Identifier("aria-valuetext"),
+                            value=STRIP_SPAN(path, "videocontrols-label"),
+                        ),
+                    ],
+                ),
+            ],
+        )
+
+
+Note that a custom extension such as :python:`STRIP_SPAN` is not supported by
+the :python:`transforms_from` utility, so the list of transforms needs to be
+defined explicitly.
+
+Internally, :python:`TransformPattern` extends the `fluent.syntax`__
+:python:`Transformer`, which defines the :python:`FTL` AST used here.
+As a specific convenience, pattern element visitors such as
+:python:`visit_TextElement` are allowed to return a :python:`FTL.Pattern`
+to replace themselves with more than one node.
+
+__ https://projectfluent.org/python-fluent/fluent.syntax/stable/
diff --git a/intl/l10n/docs/migrations/index.rst b/intl/l10n/docs/migrations/index.rst
new file mode 100644
index 0000000000..e9ed12aa22
--- /dev/null
+++ b/intl/l10n/docs/migrations/index.rst
@@ -0,0 +1,53 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+=============================================
+Migrating Strings From Legacy or Fluent Files
+=============================================
+
+Firefox is a project localized in over 100 languages. As the code for existing
+features moves away from the old localization systems and starts using
+`Fluent`_, we need to ensure that we don’t lose existing translations, which
+would have the adverse effect of forcing contributors to localize hundreds of
+strings from scratch.
+
+`Fluent Migration`_ is a Python library designed to solve this specific problem:
+it allows to migrate translations from `.properties` and other legacy file formats,
+not only moving strings and transforming them as needed to adapt to the `FTL`
+syntax, but also replicating "blame" for each string in VCS.
+
+The library also includes basic support for migrating existing Fluent messages
+without interpolations (e.g. variable replacements). The typical use cases
+would be messages moving as-is to a different file, or changes to the
+morphology of existing messages (e.g move content from an attribute to the
+value of the message).
+
+.. toctree::
+  :maxdepth: 2
+
+  overview
+  legacy
+  fluent
+  testing
+  localizations
+
+How to Get Help
+===============
+
+Writing migration recipes can be challenging for non trivial cases, and it can
+require extensive l10n knowledge to avoid localizability issues.
+
+Don’t hesitate to reach out to the l10n-drivers for feedback, help to test or
+write the migration recipes:
+
+ - Francesco Lodolo (:flod)
+ - Eemeli Aro (:eemeli)
+
+.. _Fluent: http://projectfluent.org/
+.. _Fluent Migration: https://hg.mozilla.org/l10n/fluent-migration/
diff --git a/intl/l10n/docs/migrations/legacy.rst b/intl/l10n/docs/migrations/legacy.rst
new file mode 100644
index 0000000000..b1287ba4d4
--- /dev/null
+++ b/intl/l10n/docs/migrations/legacy.rst
@@ -0,0 +1,642 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+========================
+Migrating Legacy Formats
+========================
+
+Migrating from legacy formats (.dtd, .properties) is different from migrating
+Fluent to Fluent. When migrating legacy code paths, you'll need to adjust the
+Fluent strings for the quirks Mozilla uses in the legacy code paths. You'll
+find a number of specialized functionalities here.
+
+Legacy Migration Tools
+----------------------
+
+To assist with legacy format migrations, some scripting tools are provided:
+
+ - `XUL+DTD to Fluent`_
+ - `.properties to Fluent`_
+
+When creating a migration, one or both of these tools may provide a good
+starting point for manual work by automating at least a part of the migration,
+including recipe generation and refactoring the calling code.
+
+.. _XUL+DTD to Fluent: https://github.com/zbraniecki/convert_xul_to_fluent
+.. _.properties to Fluent: https://github.com/mozilla/properties-to-ftl
+
+Basic Migration
+---------------
+
+Let’s consider a basic example: one string needs to be migrated, without
+any further change, from a DTD file to Fluent.
+
+The legacy string is stored in :bash:`toolkit/locales/en-US/chrome/global/findbar.dtd`:
+
+
+.. code-block:: dtd
+
+  <!ENTITY next.tooltip "Find the next occurrence of the phrase">
+
+
+The new Fluent string is stored in :bash:`toolkit/locales/en-US/toolkit/main-window/findbar.ftl`:
+
+
+.. code-block:: properties
+
+  findbar-next =
+      .tooltiptext = Find the next occurrence of the phrase
+
+
+This is how the migration recipe looks:
+
+
+.. code-block:: python
+
+  # Any copyright is dedicated to the Public Domain.
+  # http://creativecommons.org/publicdomain/zero/1.0/
+
+  from __future__ import absolute_import
+  import fluent.syntax.ast as FTL
+  from fluent.migrate.helpers import transforms_from
+
+  def migrate(ctx):
+      """Bug 1411707 - Migrate the findbar XBL binding to a Custom Element, part {index}."""
+
+      ctx.add_transforms(
+          "toolkit/toolkit/main-window/findbar.ftl",
+          "toolkit/toolkit/main-window/findbar.ftl",
+          transforms_from(
+  """
+  findbar-next =
+      .tooltiptext = { COPY(from_path, "next.tooltip") }
+  """, from_path="toolkit/chrome/global/findbar.dtd"))
+
+
+The first important thing to notice is that the migration recipe needs file
+paths relative to a localization repository, losing :bash:`locales/en-US/`:
+
+ - :bash:`toolkit/locales/en-US/chrome/global/findbar.dtd` becomes
+   :bash:`toolkit/chrome/global/findbar.dtd`.
+ - :bash:`toolkit/locales/en-US/toolkit/main-window/findbar.ftl` becomes
+   :bash:`toolkit/toolkit/main-window/findbar.ftl`.
+
+The :python:`context.add_transforms` function takes 3 arguments:
+
+ - Path to the target l10n file.
+ - Path to the reference (en-US) file.
+ - An array of Transforms. Transforms are AST nodes which describe how legacy
+   translations should be migrated.
+
+.. note::
+
+   For migrations of Firefox localizations, the target and reference path
+   are the same. This isn't true for all projects that use Fluent, so both
+   arguments are required.
+
+In this case there is only one Transform that migrates the string with ID
+:js:`next.tooltip` from :bash:`toolkit/chrome/global/findbar.dtd`, and injects
+it in the FTL fragment. The :python:`COPY` Transform allows to copy the string
+from an existing file as is, while :python:`from_path` is used to avoid
+repeating the same path multiple times, making the recipe more readable. Without
+:python:`from_path`, this could be written as:
+
+
+.. code-block:: python
+
+  ctx.add_transforms(
+      "toolkit/toolkit/main-window/findbar.ftl",
+      "toolkit/toolkit/main-window/findbar.ftl",
+      transforms_from(
+  """
+  findbar-next =
+      .tooltiptext = { COPY("toolkit/chrome/global/findbar.dtd", "next.tooltip") }
+  """))
+
+
+This method of writing migration recipes allows to take the original FTL
+strings, and simply replace the value of each message with a :python:`COPY`
+Transform. :python:`transforms_from` takes care of converting the FTL syntax
+into an array of Transforms describing how the legacy translations should be
+migrated. This manner of defining migrations is only suitable to simple strings
+where a copy operation is sufficient. For more complex use-cases which require
+some additional logic in Python, it’s necessary to resort to the raw AST.
+
+
+The example above is equivalent to the following syntax, which exposes
+the underlying AST structure:
+
+
+.. code-block:: python
+
+  ctx.add_transforms(
+      "toolkit/toolkit/main-window/findbar.ftl",
+      "toolkit/toolkit/main-window/findbar.ftl",
+      [
+          FTL.Message(
+              id=FTL.Identifier("findbar-next"),
+              attributes=[
+                  FTL.Attribute(
+                      id=FTL.Identifier("tooltiptext"),
+                      value=COPY(
+                          "toolkit/chrome/global/findbar.dtd",
+                          "next.tooltip"
+                      )
+                  )
+              ]
+          )
+      ]
+  )
+
+This creates a :python:`Message`, taking the value from the legacy string
+:js:`findbar-next`. A message can have an array of attributes, each with an ID
+and a value: in this case there is only one attribute, with ID :js:`tooltiptext`
+and :js:`value` copied from the legacy string.
+
+Notice how both the ID of the message and the ID of the attribute are
+defined as an :python:`FTL.Identifier`, not simply as a string.
+
+
+.. tip::
+
+  It’s possible to concatenate arrays of Transforms defined manually, like in
+  the last example, with those coming from :python:`transforms_from`, by using
+  the :python:`+` operator. Alternatively, it’s possible to use multiple
+  :python:`add_transforms`.
+
+  The order of Transforms provided in the recipe is not relevant, the reference
+  file is used for ordering messages.
+
+
+Replacing Content in Legacy Strings
+-----------------------------------
+
+While :python:`COPY` allows to copy a legacy string as is, :python:`REPLACE`
+(from `fluent.migrate`) allows to replace content while performing the
+migration. This is necessary, for example, when migrating strings that include
+placeholders or entities that need to be replaced to adapt to Fluent syntax.
+
+Consider for example the following string:
+
+
+.. code-block:: DTD
+
+  <!ENTITY aboutSupport.featuresTitle "&brandShortName; Features">
+
+
+Which needs to be migrated to:
+
+
+.. code-block:: fluent
+
+  features-title = { -brand-short-name } Features
+
+
+The entity :js:`&brandShortName;` needs to be replaced with a term reference:
+
+
+.. code-block:: python
+
+  FTL.Message(
+      id=FTL.Identifier("features-title"),
+      value=REPLACE(
+          "toolkit/chrome/global/aboutSupport.dtd",
+          "aboutSupport.featuresTitle",
+          {
+              "&brandShortName;": TERM_REFERENCE("brand-short-name"),
+          },
+      )
+  ),
+
+
+This creates an :python:`FTL.Message`, taking the value from the legacy string
+:js:`aboutSupport.featuresTitle`, but replacing the specified text with a
+Fluent term reference.
+
+.. note::
+  :python:`REPLACE` replaces all occurrences of the specified text.
+
+
+It’s also possible to replace content with a specific text: in that case, it
+needs to be defined as a :python:`TextElement`. For example, to replace
+:js:`example.com` with HTML markup:
+
+
+.. code-block:: python
+
+  value=REPLACE(
+      "browser/chrome/browser/preferences/preferences.properties",
+      "searchResults.sorryMessageWin",
+      {
+          "example.com": FTL.TextElement('<span data-l10n-name="example"></span>')
+      }
+  )
+
+
+The situation is more complex when a migration recipe needs to replace
+:js:`printf` arguments like :js:`%S`. In fact, the format used for localized
+and source strings doesn’t need to match, and the two following strings using
+unordered and ordered argument are perfectly equivalent:
+
+
+.. code-block:: properties
+
+  btn-quit = Quit %S
+  btn-quit = Quit %1$S
+
+
+In this scenario, replacing :js:`%S` would work on the first version, but not
+on the second, and there’s no guarantee that the localized string uses the
+same format as the source string.
+
+Consider also the following string that uses :js:`%S` for two different
+variables, implicitly relying on the order in which the arguments appear:
+
+
+.. code-block:: properties
+
+  updateFullName = %S (%S)
+
+
+And the target Fluent string:
+
+
+.. code-block:: fluent
+
+  update-full-name = { $name } ({ $buildID })
+
+
+As indicated, :python:`REPLACE` would replace all occurrences of :js:`%S`, so
+only one variable could be set. The string needs to be normalized and treated
+like:
+
+
+.. code-block:: properties
+
+  updateFullName = %1$S (%2$S)
+
+
+This can be obtained by calling :python:`REPLACE` with
+:python:`normalize_printf=True`:
+
+
+.. code-block:: python
+
+  FTL.Message(
+      id=FTL.Identifier("update-full-name"),
+      value=REPLACE(
+          "toolkit/chrome/mozapps/update/updates.properties",
+          "updateFullName",
+          {
+              "%1$S": VARIABLE_REFERENCE("name"),
+              "%2$S": VARIABLE_REFERENCE("buildID"),
+          },
+          normalize_printf=True
+      )
+  )
+
+
+.. attention::
+
+  To avoid any issues :python:`normalize_printf=True` should always be used when
+  replacing :js:`printf` arguments. This is the default behaviour when working
+  with .properties files.
+
+.. note::
+
+  :python:`VARIABLE_REFERENCE`, :python:`MESSAGE_REFERENCE`, and
+  :python:`TERM_REFERENCE` are helper Transforms which can be used to save
+  keystrokes in common cases where using the raw AST is too verbose.
+
+  :python:`VARIABLE_REFERENCE` is used to create a reference to a variable, e.g.
+  :js:`{ $variable }`.
+
+  :python:`MESSAGE_REFERENCE` is used to create a reference to another message,
+  e.g. :js:`{ another-string }`.
+
+  :python:`TERM_REFERENCE` is used to create a reference to a `term`__,
+  e.g. :js:`{ -brand-short-name }`.
+
+  Both Transforms need to be imported at the beginning of the recipe, e.g.
+  :python:`from fluent.migrate.helpers import VARIABLE_REFERENCE`
+
+  __ https://projectfluent.org/fluent/guide/terms.html
+
+
+Trimming Unnecessary Whitespaces in Translations
+------------------------------------------------
+
+.. note::
+
+  This section was updated in May 2020 to reflect the change to the default
+  behavior: legacy translations are now trimmed, unless the :python:`trim`
+  parameter is set explicitly.
+
+It’s not uncommon to have strings with unnecessary leading or trailing spaces
+in legacy translations. These are not meaningful, don’t have practical results
+on the way the string is displayed in products, and are added mostly for
+formatting reasons. For example, consider this DTD string:
+
+
+.. code-block:: DTD
+
+  <!ENTITY aboutAbout.note   "This is a list of “about” pages for your convenience.<br/>
+                              Some of them might be confusing. Some are for diagnostic purposes only.<br/>
+                              And some are omitted because they require query strings.">
+
+
+By default, the :python:`COPY`, :python:`REPLACE`, and :python:`PLURALS`
+transforms will strip the leading and trailing whitespace from each line of the
+translation, as well as the empty leading and trailing lines. The above string
+will be migrated as the following Fluent message, despite copious indentation
+on the second and the third line in the original:
+
+
+.. code-block:: fluent
+
+  about-about-note =
+      This is a list of “about” pages for your convenience.<br/>
+      Some of them might be confusing. Some are for diagnostic purposes only.<br/>
+      And some are omitted because they require query strings.
+
+
+To disable the default trimming behavior, set :python:`trim:"False"` or
+:python:`trim=False`, depending on the context:
+
+
+.. code-block:: python
+
+  transforms_from(
+  """
+  about-about-note = { COPY("toolkit/chrome/global/aboutAbout.dtd", "aboutAbout.note", trim:"False") }
+  """)
+
+  FTL.Message(
+      id=FTL.Identifier("discover-description"),
+      value=REPLACE(
+          "toolkit/chrome/mozapps/extensions/extensions.dtd",
+          "discover.description2",
+          {
+              "&brandShortName;": TERM_REFERENCE("-brand-short-name")
+          },
+          trim=False
+      )
+  ),
+
+
+Concatenating Strings
+---------------------
+
+It's best practice to only expose complete phrases to localization, and to avoid
+stitching localized strings together in code. With `DTD` and `properties`,
+there were few options. So when migrating to Fluent, you'll find
+it quite common to concatenate multiple strings coming from `DTD` and
+`properties`, for example to create sentences with HTML markup. It’s possible to
+concatenate strings and text elements in a migration recipe using the
+:python:`CONCAT` Transform.
+
+Note that in case of simple migrations using :python:`transforms_from`, the
+concatenation is carried out implicitly by using the Fluent syntax interleaved
+with :python:`COPY()` transform calls to define the migration recipe.
+
+Consider the following example:
+
+
+.. code-block:: properties
+
+  # %S is replaced by a link, using searchResults.needHelpSupportLink as text
+  searchResults.needHelp = Need help? Visit %S
+
+  # %S is replaced by "Firefox"
+  searchResults.needHelpSupportLink = %S Support
+
+
+In Fluent:
+
+
+.. code-block:: fluent
+
+  search-results-need-help-support-link = Need help? Visit <a data-l10n-name="url">{ -brand-short-name } Support</a>
+
+
+This is quite a complex migration: it requires to take 2 legacy strings, and
+concatenate their values with HTML markup. Here’s how the Transform is defined:
+
+
+.. code-block:: python
+
+  FTL.Message(
+      id=FTL.Identifier("search-results-help-link"),
+      value=REPLACE(
+          "browser/chrome/browser/preferences/preferences.properties",
+          "searchResults.needHelp",
+          {
+              "%S": CONCAT(
+                  FTL.TextElement('<a data-l10n-name="url">'),
+                  REPLACE(
+                      "browser/chrome/browser/preferences/preferences.properties",
+                      "searchResults.needHelpSupportLink",
+                      {
+                          "%1$S": TERM_REFERENCE("brand-short-name"),
+                      },
+                      normalize_printf=True
+                  ),
+                  FTL.TextElement("</a>")
+              )
+          }
+      )
+  ),
+
+
+:js:`%S` in :js:`searchResults.needHelpSupportLink` is replaced by a reference
+to the term :js:`-brand-short-name`, migrating from :js:`%S Support` to :js:`{
+-brand-short-name } Support`. The result of this operation is then inserted
+between two text elements to create the anchor markup. The resulting text is
+finally  used to replace :js:`%S` in :js:`searchResults.needHelp`, and used as
+value for the FTL message.
+
+
+.. important::
+
+  When concatenating existing strings, avoid introducing changes to the original
+  text, for example adding spaces or punctuation. Each language has its own
+  rules, and this might result in poor migrated strings. In case of doubt,
+  always ask for feedback.
+
+
+When more than 1 element is passed in to concatenate, :python:`CONCAT`
+disables whitespace trimming described in the section above on all legacy
+Transforms passed into it: :python:`COPY`, :python:`REPLACE`, and
+:python:`PLURALS`, unless the :python:`trim` parameters has been set
+explicitly on them. This helps ensure that spaces around segments are not
+lost during the concatenation.
+
+When only a single element is passed into :python:`CONCAT`, however, the
+trimming behavior is not altered, and follows the rules described in the
+previous section. This is meant to make :python:`CONCAT(COPY())` equivalent
+to a bare :python:`COPY()`.
+
+
+Plural Strings
+--------------
+
+Migrating plural strings from `.properties` files usually involves two
+Transforms from :python:`fluent.migrate.transforms`: the
+:python:`REPLACE_IN_TEXT` Transform takes TextElements as input, making it
+possible to pass it as the foreach function of the :python:`PLURALS` Transform.
+
+Consider the following legacy string:
+
+
+.. code-block:: properties
+
+  # LOCALIZATION NOTE (disableContainersOkButton): Semi-colon list of plural forms.
+  # See: http://developer.mozilla.org/en/docs/Localization_and_Plurals
+  # #1 is the number of container tabs
+  disableContainersOkButton = Close #1 Container Tab;Close #1 Container Tabs
+
+
+In Fluent:
+
+
+.. code-block:: fluent
+
+  containers-disable-alert-ok-button =
+      { $tabCount ->
+          [one] Close { $tabCount } Container Tab
+         *[other] Close { $tabCount } Container Tabs
+      }
+
+
+This is how the Transform for this string is defined:
+
+
+.. code-block:: python
+
+  FTL.Message(
+      id=FTL.Identifier("containers-disable-alert-ok-button"),
+      value=PLURALS(
+          "browser/chrome/browser/preferences/preferences.properties",
+          "disableContainersOkButton",
+          VARIABLE_REFERENCE("tabCount"),
+          lambda text: REPLACE_IN_TEXT(
+              text,
+              {
+                  "#1": VARIABLE_REFERENCE("tabCount")
+              }
+          )
+      )
+  )
+
+
+The `PLURALS` Transform will take care of creating the correct number of plural
+categories for each language. Notice how `#1` is replaced for each of these
+variants with :js:`{ $tabCount }`, using :python:`REPLACE_IN_TEXT` and
+:python:`VARIABLE_REFERENCE("tabCount")`.
+
+In this case it’s not possible to use :python:`REPLACE` because it takes a file
+path and a message ID as arguments, whereas here the recipe needs to operate on
+regular text. The replacement is performed on each plural form of the original
+string, where plural forms are separated by a semicolon.
+
+Explicit Variants
+-----------------
+
+Explicitly creating variants of a string is useful for platform-dependent
+terminology, but also in cases where you want a one-vs-many split of a string.
+It’s always possible to migrate strings by manually creating the underlying AST
+structure. Consider the following complex Fluent string:
+
+
+.. code-block:: fluent
+
+  use-current-pages =
+      .label =
+          { $tabCount ->
+              [1] Use Current Page
+             *[other] Use Current Pages
+          }
+      .accesskey = C
+
+
+The migration for this string is quite complex: the :js:`label` attribute is
+created from 2 different legacy strings, and it’s not a proper plural form.
+Notice how the first string is associated to the :js:`1` case, not the :js:`one`
+category used in plural forms. For these reasons, it’s not possible to use
+:python:`PLURALS`, the Transform needs to be crafted recreating the AST.
+
+
+.. code-block:: python
+
+
+  FTL.Message(
+      id=FTL.Identifier("use-current-pages"),
+      attributes=[
+          FTL.Attribute(
+              id=FTL.Identifier("label"),
+              value=FTL.Pattern(
+                  elements=[
+                      FTL.Placeable(
+                          expression=FTL.SelectExpression(
+                              selector=VARIABLE_REFERENCE("tabCount"),
+                              variants=[
+                                  FTL.Variant(
+                                      key=FTL.NumberLiteral("1"),
+                                      default=False,
+                                      value=COPY(
+                                          "browser/chrome/browser/preferences/main.dtd",
+                                          "useCurrentPage.label",
+                                      )
+                                  ),
+                                  FTL.Variant(
+                                      key=FTL.Identifier("other"),
+                                      default=True,
+                                      value=COPY(
+                                          "browser/chrome/browser/preferences/main.dtd",
+                                          "useMultiple.label",
+                                      )
+                                  )
+                              ]
+                          )
+                      )
+                  ]
+              )
+          ),
+          FTL.Attribute(
+              id=FTL.Identifier("accesskey"),
+              value=COPY(
+                  "browser/chrome/browser/preferences/main.dtd",
+                  "useCurrentPage.accesskey",
+              )
+          ),
+      ],
+  ),
+
+
+This Transform uses several concepts already described in this document. Notable
+is the :python:`SelectExpression` inside a :python:`Placeable`, with an array
+of :python:`Variant` objects. Exactly one of those variants needs to have
+``default=True``.
+
+This example can still use :py:func:`transforms_from()``, since existing strings
+are copied without interpolation.
+
+.. code-block:: python
+
+  transforms_from(
+  """
+  use-current-pages =
+      .label =
+          { $tabCount ->
+              [1] { COPY(main_dtd, "useCurrentPage.label") }
+             *[other] { COPY(main_dtd, "useMultiple.label") }
+          }
+      .accesskey = { COPY(main_dtd, "useCurrentPage.accesskey") }
+  """, main_dtd="browser/chrome/browser/preferences/main.dtd"
+  )
diff --git a/intl/l10n/docs/migrations/localizations.rst b/intl/l10n/docs/migrations/localizations.rst
new file mode 100644
index 0000000000..0861d6e52b
--- /dev/null
+++ b/intl/l10n/docs/migrations/localizations.rst
@@ -0,0 +1,42 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+===========================================
+How Migrations Are Run on l10n Repositories
+===========================================
+
+Once a patch including new FTL strings and a migration recipe lands in
+mozilla-central, l10n-drivers will perform a series of actions to migrate
+strings in all 100+ localization repositories:
+
+ - New Fluent strings land in `mozilla-central`, together with a migration
+   recipe.
+ - New strings are added to `gecko-strings-quarantine`_, a unified repository
+   including strings for all shipping versions of Firefox, and used as a buffer
+   before exposing strings to localizers.
+ - Migration recipes are run against all l10n repositories, migrating strings
+   from old to new files, and storing them in VCS.
+ - New en-US strings are pushed to the official `gecko-strings`_ repository
+   used by localization tools, and exposed to all localizers.
+
+Migration recipes could be run again within a release cycle, in order to migrate
+translations for legacy strings added after the first run. They’re usually
+removed from `mozilla-central` within 2 cycles, e.g. a migration recipe created
+for Firefox 59 would be removed when Firefox 61 is available in Nightly.
+
+
+.. tip::
+
+  A script to run migrations on all l10n repositories is available in `this
+  repository`__, automating part of the steps described for manual testing, and
+  it could be adapted to local testing.
+
+  __ https://github.com/flodolo/fluent-migrations
+.. _gecko-strings-quarantine: https://hg.mozilla.org/l10n/gecko-strings-quarantine/
+.. _gecko-strings: https://hg.mozilla.org/l10n/gecko-strings
diff --git a/intl/l10n/docs/migrations/overview.rst b/intl/l10n/docs/migrations/overview.rst
new file mode 100644
index 0000000000..dc9c128fb9
--- /dev/null
+++ b/intl/l10n/docs/migrations/overview.rst
@@ -0,0 +1,136 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+=====================================
+Migration Recipes and Their Lifecycle
+=====================================
+
+The actual migrations are performed running Python modules called **migration
+recipes**, which contain directives on how to migrate strings, which files are
+involved, transformations to apply, etc. These recipes are stored in
+`mozilla-central`__.
+
+__ https://hg.mozilla.org/mozilla-central/file/default/python/l10n/fluent_migrations
+
+When part of Firefox’s UI is migrated to Fluent, a migration recipe should be
+attached to the same patch that adds new strings to `.ftl` files.
+
+Migration recipes can quickly become obsolete, because the referenced strings
+and files are removed from repositories as part of ongoing development.
+For these reasons, l10n-drivers periodically clean up the `fluent_migrations`
+folder in mozilla-central, keeping only recipes for 2
+shipping versions (Nightly and Beta).
+
+
+.. hint::
+
+  As a developer you don’t need to bother about updating migration recipes
+  already in `mozilla-central`: if a new patch removes a string or file that is
+  used in a migration recipe, simply ignore it, since the entire recipe will be
+  removed within a couple of cycles.
+
+
+How to Write Migration Recipes
+==============================
+
+The migration recipe’s filename should start with a reference to the associated
+bug number, and include a brief description of the bug, e.g.
+:bash:`bug_1451992_preferences_applicationManager.py` is the migration recipe
+used to migrate the Application Manager window in preferences. It’s also
+possible to look at existing recipes in `mozilla-central`__ for inspiration.
+
+__ https://hg.mozilla.org/mozilla-central/file/default/python/l10n/fluent_migrations
+
+
+General Recipe Structure
+========================
+
+A migration recipe is a Python module, implementing the :py:func:`migrate`
+function, which takes a :py:class:`MigrationContext` as input. The API provided
+by the context is
+
+.. code-block:: python
+
+  class MigrationContext:
+      def add_transforms(self, target, reference, transforms):
+          """Define transforms for target using reference as template.
+
+          `target` is a path of the destination FTL file relative to the
+          localization directory. `reference` is a path to the template FTL
+          file relative to the reference directory.
+
+          Each transform is an extended FTL node with `Transform` nodes as some
+          values.
+
+          For transforms that merely copy legacy messages or Fluent patterns,
+          using `fluent.migrate.helpers.transforms_from` is recommended.
+          """
+
+The skeleton of a migration recipe just implements the :py:func:`migrate`
+function calling into :py:func:`ctx.add_transforms`, and looks like
+
+.. code-block:: python
+
+  # coding=utf8
+
+  # Any copyright is dedicated to the Public Domain.
+  # http://creativecommons.org/publicdomain/zero/1.0/
+
+  from __future__ import absolute_import
+
+
+  def migrate(ctx):
+      """Bug 1552333 - Migrate feature to Fluent, part {index}"""
+      target = 'browser/browser/feature.ftl'
+      reference = 'browser/browser/feature.ftl'
+      ctx.add_transforms(
+          target,
+          reference,
+          [],  # Actual transforms go here.
+      )
+
+One can call into :py:func:`ctx.add_transforms` multiple times. In particular, one
+can create migrated content in multiple files as part of a single migration
+recipe by calling :py:func:`ctx.add_transforms` with different target-reference
+pairs.
+
+The *docstring* for this function will be used
+as a commit message in VCS, that’s why it’s important to make sure the bug
+reference is correct, and to keep the `part {index}` section: multiple strings
+could have multiple authors, and would be migrated in distinct commits (part 1,
+part 2, etc.).
+
+Transforms
+==========
+
+The work of the migrations is done by the transforms that are passed as
+last argument to :py:func:`ctx.add_transforms`. They're instances of either Fluent
+:py:class:`fluent.syntax.ast.Message` or :py:class:`Term`, and their content
+can depend on existing translation sources. The skeleton of a Message looks like
+
+.. code-block:: python
+
+    FTL.Message(
+        id=FTL.Identifier(
+            name="msg",
+        ),
+        value=FTL.Pattern(
+            elements=[
+                FTL.TextElement(
+                    value="A string",
+                ),
+            ],
+        ),
+    )
+
+When migrating existing legacy translations, you'll replace an
+``FTL.TextElement`` with a ``COPY(legacy_path, "old_id")``, or one of its
+variations we detail :doc:`next <legacy>`. When migrating existing Fluent
+translations, an ``FTL.Pattern`` is replaced with a
+``COPY_PATTERN(old_path, "old-id")``.
diff --git a/intl/l10n/docs/migrations/testing.rst b/intl/l10n/docs/migrations/testing.rst
new file mode 100644
index 0000000000..aa9b9747f6
--- /dev/null
+++ b/intl/l10n/docs/migrations/testing.rst
@@ -0,0 +1,58 @@
+.. role:: bash(code)
+   :language: bash
+
+.. role:: js(code)
+   :language: javascript
+
+.. role:: python(code)
+   :language: python
+
+=============================
+How to Test Migration Recipes
+=============================
+
+To test migration recipes, use the following mach command:
+
+.. code-block:: bash
+
+  ./mach fluent-migration-test python/l10n/fluent_migrations/bug_1485002_newtab.py
+
+This will analyze your migration recipe to check that the :python:`migrate`
+function exists, and interacts correctly with the migration context. Once that
+passes, it clones :bash:`gecko-strings` into :bash:`$OBJDIR/python/l10n`, creates a
+reference localization by adding your local Fluent strings to the ones in
+:bash:`gecko-strings`. It then runs the migration recipe, both as dry run and
+as actual migration. Finally it analyzes the commits, and checks if any
+migrations were actually run and the bug number in the commit message matches
+the migration name.
+
+It will also show the diff between the migrated files and the reference, ignoring
+blank lines.
+
+You can inspect the generated repository further by looking at
+
+.. code-block:: bash
+
+  ls $OBJDIR/python/l10n/bug_1485002_newtab/en-US
+
+Caveats
+-------
+
+Be aware of hard-coded English context in migration. Consider for example:
+
+
+.. code-block:: python
+
+  ctx.add_transforms(
+          "browser/browser/preferences/siteDataSettings.ftl",
+          "browser/browser/preferences/siteDataSettings.ftl",
+          transforms_from(
+  """
+  site-usage-persistent = { site-usage-pattern } (Persistent)
+  """)
+  )
+
+
+This Transform will pass a manual comparison, since the two files are identical,
+but will result in :js:`(Persistent)` being hard-coded in English for all
+languages.