Version | 44 |
---|---|
Editors | Steven Loomis (srloomis@unicode.org) and other CLDR committee members |
For the full header, summary, and status, see Part 1: Core.
This is a technical preview of a future version of the LDML Part 7. See Status, below.
There are breaking changes, see Compatibility Notice
This document describes parts of an XML format (vocabulary) for the exchange of structured locale data. This format is used in the Unicode Common Locale Data Repository.
This is a partial document, describing keyboards. For the other parts of the LDML see the main LDML document and the links above.
Note: Some links may lead to in-development or older versions of the data files. See https://cldr.unicode.org for up-to-date CLDR release data.
This document is a technical preview of the Keyboard standard.
To process earlier XML files, use the data and specification from v43.1, found at https://www.unicode.org/reports/tr35/tr35-69/tr35.html
The CLDR Keyboard Workgroup is currently developing this technical preview to the CLDR keyboard specification.
The LDML specification is divided into the following parts:
The Unicode Standard and related technologies such as CLDR have dramatically improved the path to language support. However, keyboard support remains platform and vendor specific, causing inconsistencies in implementation as well as timeline.
“More and more language communities are determining that digitization is vital to their approach to language preservation and that engagement with Unicode is essential to becoming fully digitized. For many of these communities, however, getting new characters or a new script added to The Unicode Standard is not the end of their journey. The next, often more challenging stage is to get device makers, operating systems, apps and services to implement the script requirements that Unicode has just added to support their language. …
“However, commensurate improvements to streamline new language support on the input side have been lacking. CLDR’s new Keyboard Subcommittee has been established to address this very gap.” (Cornelius et. al, “Standardizing Keyboards with CLDR,” presented at the 45th Internationalization and Unicode Conference, Santa Clara, California, USA, October 2021)
The CLDR keyboard format seeks to address these challenges, by providing an interchange format for the communication of keyboard mapping data independent of vendors and platforms. Keyboard authors can then create a single mapping file for their language, which implementations can use to provide that language’s keyboard mapping on their own platform.
Additionally, the standardized identifier for keyboards can be used to communicate, internally or externally, a request for a particular keyboard mapping that is to be used to transform either text or keystrokes. The corresponding data can then be used to perform the requested actions. For example, a remote screen-access application (such as used for customer service or server management) would be able to communicate and choose the same keyboard layout on the remote device as is used in front of the user, even if the two systems used different platforms.
The data can also be used in analysis of the capabilities of different keyboards. It also allows better interoperability by making it easier for keyboard designers to see which characters are generally supported on keyboards for given languages.
For complete examples, see the XML files in the CLDR source repository.
Attribute values should be evaluated considering the DTD and DTD Annotations.
Some goals of this format are:
Some non-goals (outside the scope of the format) currently are:
Note that in parts of this document, the format @x
is used to indicate the attribute x.
👉 Note: CLDR-TC has agreed that the changes required were too extensive to maintain compatibility. For this reason, the
ldmlKeyboard3.dtd
DTD used here is not compatible with DTDs from prior versions of CLDR such as v43 and prior.To process earlier XML files, use the data and specification from v43.1, found at https://www.unicode.org/reports/tr35/tr35-69/tr35.html
Keyboard use can be challenging for individuals with various types of disabilities. For this revision, the committee is not evaluating features or architectural designs for the purpose of improving accessibility. Such consideration could be fruitful for future revisions. However, some points on this topic should be made:
Arrangement: The relative position of the rectangles that represent keys, either physically or virtually. A hardware keyboard has a static arrangement while a touch keyboard may have a dynamic arrangement that changes per language and/or layer. While the arrangement of keys on a keyboard may be fixed, the mapping of those keys may vary.
Base character: The character emitted by a particular key when no modifiers are active. In ISO 9995-1:2009 terms, this is Group 1, Level 1.
Core keys: also known as “alphanumeric” section. The primary set of key values on a keyboard that are used for typing the target language of the keyboard. For example, the three rows of letters on a standard US QWERTY keyboard (QWERTYUIOP, ASDFGHJKL, ZXCVBNM) together with the most significant punctuation keys. Usually this equates to the minimal set of keys for a language as seen on mobile phone keyboards. Distinguished from the frame keys.
Dead keys: These are keys which do not emit normal characters by themselves. They are so named because to the user, they may appear to be “dead,” i.e., non-functional. However, they do produce a change to the input context. For example, in many Latin keyboards hitting the ^
dead-key followed by the e
key produces ê
. The ^
by itself may be invisible or presented in a special way by the platform.
Frame keys: These are keys which are outside of the area of the core keys and typically do not emit characters. These keys include modifier keys, such as Shift or Ctrl, but also include platform specific keys: Fn, IME and layout-switching keys, cursor keys, insert emoji keys etc.
Hardware keyboard: an input device which has individual keys that are pressed. Each key has a unique identifier and the arrangement doesn't change, even if the mapping of those keys does. Also known as a physical keyboard.
Input Method Editor (IME): a component or program that supports input of large character sets. Typically, IMEs employ contextual logic and candidate UI to identify the Unicode characters intended by the user.
Key: A physical key on a hardware keyboard, or a virtual key on a touch keyboard.
Key code: The integer code sent to the application on pressing a key.
Key map: The basic mapping between hardware or on-screen positions and the output characters for each set of modifier combinations associated with a particular layout. There may be multiple key maps for each layout.
Keyboard: A particular arrangement of keys for the inputting of text, such as a hardware keyboard or a touch keyboard.
Keyboard author: The person or group of people designing and producing a particular keyboard layout designed to support one or more languages. In the context of this specification, that author may be editing the LDML XML file directly or by means of software tools.
Keyboard layout: A layout is the overall keyboard configuration for a particular locale. Within a keyboard layout, there is a single base map, one or more key maps and zero or more transforms.
Layer is an arrangement of keys on a touch keyboard. A touch keyboard is made up of a set of layers. Each layer may have a different key layout, unlike with a hardware keyboard, and may not correspond directly to a hardware keyboard's modifier keys. A layer is accessed via a switch key. See also touch keyboard, modifier, switch.
Long-press key: also known as a “child key”. A secondary key that is invoked from a top level key on a touch keyboard. Secondary keys typically provide access to variants of the top level key, such as accented variants (a => á, à, ä, ã)
Modifier: A key that is held to change the behavior of a hardware keyboard. For example, the "Shift" key allows access to upper-case characters on a US keyboard. Other modifier keys include but are not limited to: Ctrl, Alt, Option, Command and Caps Lock. On a touch keyboard, keys that appear to be modifier keys should be considered to be layer-switching keys.
Physical keyboard: see Hardware keyboard
Touch keyboard: A keyboard that is rendered on a, typically, touch surface. It has a dynamic arrangement and contrasts with a hardware keyboard. This term has many synonyms: software keyboard, SIP (Software Input Panel), virtual keyboard. This contrasts with other uses of the term virtual keyboard as an on-screen keyboard for reference or accessibility data entry.
Transform: A transform is an element that specifies a set of conversions from sequences of code points into one (or more) other code points. Transforms may reorder or replace text. They may be used to implement “dead key” behaviors, simple orthographic corrections, visual (typewriter) type input etc.
Virtual keyboard: see Touch keyboard
When explicitly specified, attribute values can contain escaped characters. This specification uses two methods of escaping, the UnicodeSet notation and the \u{...}
notation.
The UnicodeSet notation is described in UTS #35 section 5.3.3 and allows for comprehensive character matching, including by character range, properties, names, or codepoints.
Note that the \u1234
and \x{C1}
format escaping is not supported, only the \u{…}
format (using bracketedHex
).
Currently, the following attribute values allow UnicodeSet notation:
from
or before
on the <transform>
elementfrom
or before
on the <reorder>
elementchars
on the <repertoire>
test element.The \u{...}
notation, a subset of hex notation, is described in UTS #18 section 1.1. It can refer to one or multiple individual codepoints. Currently, the following attribute values allow the \u{...}
notation:
output
on the <key>
elementfrom
or to
on the <transform>
elementvalue
on the <variable>
elementoutput
and display
on the <display>
elementbaseCharacter
on the <displayOptions>
elementCharacters of general category of Mark (M), Control characters (Cc), Format characters (Cf), and whitespace other than space should be encoded using one of the notation above as appropriate.
Attribute values escaped in this manner are annotated with the <!--@ALLOWS_UESC-->
DTD annotation, see DTD Annotations
techpreview
.<keyboard3 conformsTo="techpreview"/>
Note: Unlike other LDML files, layouts are designed to be used outside of the CLDR source tree. A new mechanism for referencing the DTD path should ideally be used, such as a URN or FPI. See https://unicode-org.atlassian.net/browse/CLDR-15505 for discussion. For this tech preview, a relative path to the dtd will continue to be used as below. Future versions may give other recommendations.
<!DOCTYPE keyboard3 SYSTEM "../dtd/ldmlKeyboard3.dtd">
For extensibility, the <special>
element will be allowed at nearly every level.
See Element special in Part 1.
This section describes the XML elements in a keyboard layout file, beginning with the top level element <keyboard3>
.
This is the top level element. All other elements defined below are under this element.
Syntax
<keyboard3 locale="{locale ID}">
{definition of the layout as described by the elements defined below}
</keyboard3>
Parents: none
Children: displays, import, info, keys, flicks, layers, locales, settings, special, transforms, variables, version
Occurrence: required, single
Attribute: conformsTo
(required)
This attribute distinguishes the keyboard from prior versions, and it also specifies the minimum CLDR version required.
For purposes of this current draft specification, the value should always be techpreview
.
<keyboard3 … conformsTo="techpreview"/>
Attribute: locale
(required)
This attribute represents the primary locale of the keyboard using BCP 47 Unicode locale identifiers - for example "el"
for Greek. Sometimes, the locale may not specify the base language. For example, a Devanagari keyboard for many languages could be specified by BCP-47 code: "und-Deva"
. However, it is better to list out the languages explicitly using the locales
element.
For further details about the choice of locale ID, see Keyboard IDs.
Example (for illustrative purposes only, not indicative of the real data)
<keyboard3 locale="ka">
…
</keyboard3>
<keyboard3 locale="fr-CH-t-k0-azerty">
…
</keyboard3>
The optional <locales>
element allows specifying additional or alternate locales. Denotes intentional support for an extra language, not just that a keyboard incidentally supports a language’s orthography.
Syntax
<locales>
<locale id="…"/>
<locale id="…"/>
</locales>
Parents: keyboard3
Children: locale
Occurrence: optional, single
The optional <locales>
element allows specifying additional or alternate locales. Denotes intentional support for an extra language, not just that a keyboard incidentally supports a language’s orthography.
Syntax
<locale id="{id}"/>
Parents: locales
Children: none
Occurrence: optional, multiple
Attribute: id
(required)
The BCP 47 locale ID of an additional language supported by this keyboard. Must not include the
-k0-
subtag for this additional language.
Example
See Principles for Keyboard IDs for discussion and further examples.
<!-- Pan Nigerian Keyboard-->
<keyboard3 locale="mul-Latn-NG-t-k0-panng">
<locales>
<locale id="ha"/>
<locale id="ig"/>
<!-- others … -->
</locales>
</keyboard3>
Element used to keep track of the source data version.
Syntax
<version number="..">
Parents: keyboard3
Children: none
Occurrence: optional, single
Attribute: number
(required)
Must be a [SEMVER] compatible version number, such as
1.0.0
or38.0.0-beta.11
Attribute: cldrVersion
(fixed by DTD)
The CLDR specification version that is associated with this data file. This value is fixed and is inherited from the DTD file and therefore does not show up directly in the XML file.
Example
<keyboard3 locale="tok">
…
<version number="1"/>
…
</keyboard3>
Element containing informative properties about the layout, for displaying in user interfaces etc.
Syntax
<info
name="{keyboard name}"
author="{author}"
layout="{hint of the layout}"
indicator="{short identifier}" />
Parents: keyboard3
Children: none
Occurrence: required, single
Attribute: name
(required)
Note that this is the only required attribute for the
<info>
element.This attribute is an informative name for the keyboard.
<keyboard3 locale="bg-t-k0-phonetic-trad">
…
<info name="Bulgarian (Phonetic Traditional)" />
…
</keyboard3>
Attribute: author
The
author
attribute contains the name of the author of the layout file.
Attribute: layout
The
layout
attribute describes the layout pattern, such as QWERTY, DVORAK, INSCRIPT, etc. typically used to distinguish various layouts for the same language.This attribute is not localized, but is an informative identifier for implementation use.
Attribute: indicator
The
indicator
attribute describes a short string to be used in currently selected layout indicator, such asUS
,SI9
etc. Typically, this is shown on a UI element that allows switching keyboard layouts and/or input languages.This attribute is not localized.
An element used to keep track of layout-specific settings by implementations. This element may or may not show up on a layout. These settings reflect the normal practice by the implementation. However, an implementation using the data may customize the behavior.
Syntax
<settings normalization="disabled" />
Parents: keyboard3
Children: none
Occurrence: optional, single
Attribute: normalization="disabled"
Normalization will not typically be the responsibility of the keyboard author, rather this will be managed by the implementation. The implementation will apply normalization as appropriate when matching transform rules and
<display>
value matching. Output from the keyboard, following application of all transform rules, will be normalized to implementation or application-requested form.However, it is recognized that there may be some keyboards which, for compatibility or legacy reasons, need to manage their own normalization. The implementation in that case will do no normalization at all. The keyboard author must make use of transforms in the keyboard to any required normalization. In this case, the attribute value
normalization="disabled"
is used to indicate that no automatic normalization happens.Note: while this attribute is allowed by the specification, its use is discouraged, and keyboards with
normalization="disabled"
would not be accepted into the ClDR repository.
Example
<keyboard3 locale="bg">
…
<settings normalization="disabled" />
…
</keyboard3>
This element defines the properties of all possible keys via <key>
elements used in all layouts.
It is a “bag of keys” without specifying any ordering or relation between the keys.
There is only a single <keys>
element in each layout.
Syntax
<keys>
<key … />
<key … />
<key … />
</keys>
Parents: keyboard3 Children: key Occurrence: optional, single
This element defines a mapping between an abstract key and its output. This element must have the keys
element as its parent. The key
element is referenced by the keys=
attribute of the row
element.
Syntax
<key
id="{key id}"
flickId="{flick identifier}"
gap="true"
longPressKeyIds="{long press list id}"
longPressDefaultKeyId="{default longpress key}"
multiTapKeyIds="{multi tap list id}"
stretch="true"
layerId="{switch layer id}"
output="{the output}"
width="{key width}"
/>
Parents: keys
Children: none
Occurrence: optional, multiple
Note: The id
attribute is required.
Note: at least one of layerId
, gap
, or output
are required.
Attribute: id
The
id
attribute uniquely identifies the key. NMTOKEN. It can (but needn't be) the key name (a, b, c, A, B, C, …), or any other valid token (e-acute, alef, alif, alpha, …).In the future, this attribute’s definition is expected to be updated to align with UAX#31. Please see CLDR-17043 for more details.
Attribute: flickId="{flick id}"
(optional)
The
flickId
attribute indicates that this key makes use of aflick
set with the specified id.
Attribute: gap="true"
(optional)
The
gap
attribute indicates that this key does not have any appearance, but represents a "gap" of the specified number of key widths. Can be used withwidth
to set a width.
<key id="mediumgap" gap="true" width="1.5"/>
Attribute: longPressKeyIds="{list of key ids}"
(optional)
A space-separated ordered list of
key
element ids, which keys which can be emitted by "long-pressing" this key. This feature is prominent in mobile devices.In a list of keys specified by
longPressKeyIds
, the key matchinglongPressDefaultKeyId
attribute (if present) specifies the default long-press target, which could be different than the first element. It is an error if thelongPressDefaultKeyId
key is not in thelongPressKeyIds
list.Implementations shall ignore any gestures (such as flick, multiTap, longPress) defined on keys in the
longPressKeyIds
list.For example, if the default key is a key whose display value is
{
, an implementation might render the key as follows:Example:
- pressing the
o
key will produceo
- holding down the key will produce a list
ó
,{
(where{
is the default and produces a marker)
<displays> <displays output="\m{marker}" display="{" /> </displays> <keys> <key id="o" output="o" longPressKeyIds="o-acute marker" longPressDefaultKeyId="marker"> <key id="o-acute" output="ó"/> <key id="marker" display="{"/> </key>
Attribute: longPressDefaultKeyId="{key-id}"
(optional)
Specifies the default key, by id, in a list of long-press keys. See the discussion of
LongPressKeyIds
, above.
Attribute: multiTapKeyIds
(optional)
A space-separated ordered list of
key
element ids, which keys, where each successive key in the list is produced by the corresponding number of quick taps. It is an error for a key to reference itself in themultiTapKeyIds
list.Implementations shall ignore any gestures (such as flick, multiTap, longPress) defined on keys in the
multiTapKeyIds
list.Example:
- first tap on the key will produce “a”
- two taps will produce “bb”
- three taps on the key will produce “c”
- four taps on the key will produce “d”
<keys> <key id="a" output="a" multiTapKeyIds="bb c d"> <key id="bb" output="bb" /> <key id="c" output="c" /> <key id="d" output="d" /> </key>
Note: Behavior past the end of the multiTap list is implementation specific.
Attribute: stretch="true"
(optional)
The
stretch
attribute indicates that a touch layout may stretch this key to fill available horizontal space on the row. This is used, for example, on the spacebar. Note thatstretch=
is ignored for hardware layouts.
Attribute: layerId="shift"
(optional)
The
layerId
attribute indicates that this key switches to anotherlayer
with the specified id (such as<layer id="shift"/>
in this example). Note that a key may have both alayerId=
and aoutput=
attribute, indicating that the key outputs prior to switching layers. Also note thatlayerId=
is ignored for hardware layouts: their shifting is controlled via the modifier keys.This attribute is an NMTOKEN.
In the future, this attribute’s definition is expected to be updated to align with UAX#31. Please see CLDR-17043 for more details.
Attribute: output
The
output
attribute contains the sequence of characters that is emitted when pressing this particular key. Control characters, whitespace (other than the regular space character) and combining marks in this attribute are escaped using the\u{...}
notation. More than one key may output the same output.The
output
attribute may also contain the\m{…}
syntax to insert a marker. See the definition of markers.
Attribute: width="1.2"
(optional, default "1.0")
The
width
attribute indicates that this key has a different width than other keys, by the specified number of key widths.
<key id="wide-a" output="a" width="1.2"/>
<key id="wide-gap" gap="true" width="2.5"/>
Not all keys need to be listed explicitly. The following two can be assumed to already exist:
<key id="gap" gap="true" width="1"/>
<key id="space" output=" " stretch="true" width="1"/>
In addition, these 62 keys, comprising 10 digit keys, 26 Latin lower-case keys, and 26 Latin upper-case keys, where the id
is the same as the to
, are assumed to exist:
<key id="0" output="0"/>
<key id="1" output="1"/>
<key id="2" output="2"/>
…
<key id="A" output="A"/>
<key id="B" output="B"/>
<key id="C" output="C"/>
…
<key id="a" output="a"/>
<key id="b" output="b"/>
<key id="c" output="c"/>
…
These implied keys are available in a data file named keyboards/import/keys-Latn-implied.xml
in the CLDR distribution for the convenience of implementations.
Thus, the implied keys behave as if the following import were present.
<keyboard3>
<keys>
<import base="cldr" path="techpreview/keys-Latn-implied.xml" />
</keys>
</keyboard3>
Note: All implied keys may be overridden, as with all other imported data items. See the import
element for more details.
The flicks
element is a collection of flick
elements.
Parents: keyboard3
Children: flick, import, special
Occurrence: optional, single
The flick
element is used to generate results from a "flick" of the finger on a mobile device.
Syntax
<keyboard3>
<keys>
<key id="a" flicks="a-flicks" output="a" />
</keys>
<flicks>
<flick id="a-flicks">
<flickSegment … />
<flickSegment … />
<flickSegment … />
</flick>
</flicks>
</keyboard3>
Parents: flicks
Children: flickSegment, special
Occurrence: optional, multiple
Attribute: id
(required)
The
id
attribute identifies the flicks. It can be any NMTOKEN.The
flick
elements do not share a namespace with thekey
s, so it would also be allowed to have<key id="a" flick="a"/>
In the future, this attribute’s definition is expected to be updated to align with UAX#31. Please see CLDR-17043 for more details.
Parents: flick
Children: none
Occurrence: required, multiple
Attribute: directions
(required)
The
directions
attribute value is a space-delimited list of keywords, that describe a path, currently restricted to the cardinal and intercardinal directions{n e s w ne nw se sw}
.
Attribute: keyId
(required)
The
keyId
attribute value is the result of (one or more) flicks.Implementations shall ignore any gestures (such as flick, multiTap, longPress) defined on the key specified by
keyId
.
Example
where a flick to the Northeast then South produces Å
.
<keys>
<key id="something" flickId="a" output="Something" />
<key id="A-ring" output="A-ring" />
</keys>
<flicks>
<flick id="a">
<flickSegment directions="ne s" keyId="A-ring" />
</flick>
</flicks>
The import
element is used to reference another xml file so that elements are imported from
another file. The use case is to be able to import a standard set of transform
s and similar
from the CLDR repository, especially to be able to share common information relevant to a particular script.
The intent is for each single XML file to contain all that is needed for a keyboard layout, other than required standard import data from the CLDR repository.
<import>
can be used as a child of a number of elements (see the Parents section immediately below). Multiple <import>
elements may be used, however, <import>
elements must come before any other sibling elements.
If two identical elements are defined, the later element will take precedence, that is, override.
Note: imported files do not have any indication of their normalization mode. For this reason, the keyboard author must verify that the imported file is of a compatible normalization mode. See the settings
element for further details.
Syntax
<import base="cldr" path="techpreview/keys-Zyyy-punctuation.xml"/>
Parents: displays, keyboard3, keys, flicks, layers, transformGroup, transforms, variables Children: none
Occurrence: optional, multiple
Attribute: base
The base may be omitted (indicating a local import) or have the value
"cldr"
.
Note: base="cldr"
is required for all <import>
statements within keyboard files in the CLDR repository.
Attribute: path
(required)
If
base
iscldr
, then thepath
must start with a CLDR version (such astechpreview
) representing the CLDR version to pull imports from. The imports are located in thekeyboard/import
subdirectory of the CLDR source repository. Implementations are not required to have all CLDR versions available to them.If
base
is omitted, thenpath
is an absolute or relative file path.
Further Examples
<!-- in a keyboard xml file-->
…
<transforms type="simple">
<import base="cldr" path="techpreview/transforms-example.xml"/>
<transform from="` " to="`" />
<transform from="^ " to="^" />
</transforms>
…
<!-- contents of transforms-example.xml -->
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE transforms SYSTEM "../dtd/ldmlKeyboard3.dtd">
<transforms>
<!-- begin imported part-->
<transform from="`a" to="à" />
<transform from="`e" to="è" />
<transform from="`i" to="ì" />
<transform from="`o" to="ò" />
<transform from="`u" to="ù" />
<!-- end imported part -->
</transforms>
Note: The DOCTYPE and root element, here transforms
, is the same as
the parent of the <import/>
element. It is an error to import an XML file
whose root element is different than the parent element of the <import/>
element.
After loading, the above example will be the equivalent of the following.
<transforms type="simple">
<!-- begin imported part-->
<transform from="`a" to="à" />
<transform from="`e" to="è" />
<transform from="`i" to="ì" />
<transform from="`o" to="ò" />
<transform from="`u" to="ù" />
<!-- end imported part -->
<!-- this line is after the import -->
<transform from="^ " to="^" />
<transform from="` " to="`" />
</transforms>
The displays can be used to describe what is to be displayed on the keytops for various keys. For the most part, such explicit information is unnecessary since the @to
element from the keys/key
element can be used. But there are some characters, such as diacritics, that do not display well on their own and so explicit overrides for such characters can help.
Another useful scenario is where there are doubled diacritics, or multiple characters with spacing issues.
The displays
consists of a list of display subelements.
displays
elements are designed to be shared across many different keyboard layout descriptions, and imported with <import>
where needed.
For combining characters, U+25CC ◌
is used as a base. It is an error to use a combining character without a base in the display
attribute.
For example, a key which outputs a combining tilde (U+0303) can be represented as follows:
<display output="\u{0303}" display="◌̃" /> <!-- \u{25CC} \u{0303}-->
This way, a key which outputs a combining tilde (U+0303) will be represented as ◌̃
(a tilde on a dotted circle).
Some scripts/languages may prefer a different base than U+25CC.
See <displayOptions baseCharacter=…/>
.
Syntax
<displays>
{a set of display elements}
</displays>
Note: There is currently no way to indicate a custom display for a key without output (i.e. without a to=
attribute), nor is there a way to indicate that such a key has a standardized identity (e.g. that a key should be identified as a “Shift”). These may be addressed in future versions of this standard.
Parents: keyboard3
Children: display, displayOptions, special
Occurrence: optional, single
The display
element describes how a character, that has come from a keys/key
element, should be displayed on a keyboard layout where such display is possible.
Syntax
<display output="{the output}" display="{show as}" />
Parents: displays
Children: none
Occurrence: required, multiple
One of the output
or id
attributes is required.
Attribute: output
(optional)
Specifies the character or character sequence from the
keys/key
element that is to have a special display. This attribute may be escaped with\u
notation, see Escaping. Theoutput
attribute may also contain the\m{…}
syntax to reference a marker. See Markers. Implementations may highlight a displayed marker, such as with a lighter text color, or a yellow highlight. String variables may be substituted. See String variables
Attribute: id
(optional)
Specifies the
key
id. This is useful for keys which do not produce any output (nooutput=
value), such as a shift key.This attribute must match
[A-Za-z0-9][A-Za-z0-9-]*
Attribute: display
(required)
Required and specifies the character sequence that should be displayed on the keytop for any key that generates the
@output
sequence or has the@id
. (It is an error if the value of thedisplay
attribute is the same as the value of theoutput
attribute, this would be an extraneous entry.)
String variables may be substituted. See String variables
This attribute may be escaped with \u
notation, see Escaping.
Example
<keyboard3>
<keys>
<key id="grave" output="\u{0300}" /> <!-- combining grave -->
<key id="marker" output="\m{acute}" /> <!-- generates a marker-->
<key id="numeric" layerId="numeric" /> <!-- changes layers-->
</keys>
<displays>
<display output="\u{0300}" display="ˋ" /> <!-- \u{02CB} -->
<display keyId="numeric" display="#" /> <!-- display the layer shift key as # -->
<display output="\m{acute}" display="´" /> <!-- Display \m{acute} as ´ -->
</displays>
</keyboard3>
To allow displays
elements to be shared across keyboards, there is no requirement that @output
in a display
element matches any @output
/@id
in any keys/key
element in the keyboard description.
The displayOptions
is an optional singleton element providing additional settings on this displays
. It is structured so as to provide for future flexibility in such options.
Syntax
<displays>
<display …/>
<displayOptions baseCharacter="x"/>
</displays>
Parents: displays
Children: none
Occurrence: optional, single
Attribute: baseCharacter
(optional)
Note: At present, this is the only option settable in the displayOptions
.
Some scripts/languages may prefer a different base than U+25CC. For Lao for example,
x
is often used as a base instead of◌
. SettingbaseCharacter="x"
(for example) is a hint to the implementation which requests U+25CC to be substituted withx
on display. As a hint, the implementation may ignore this option.Note that not all base characters will be suitable as bases for combining marks.
This attribute may be escaped with \u
notation, see Escaping.
This element represents a set of form
elements which define the layout of a particular hardware form.
Parents: keyboard3
Children: import, form, special
Occurrence: optional, single
Syntax
<forms>
<form id="iso">
<!-- ... -->
</form>
<form id="us">
<!-- ... -->
</form>
</forms>
This element represents a specific form
element which defines the layout of a particular hardware form.
Note: Most keyboards will not need to use this element directly, and the CLDR repository will not accept keyboards which define a custom
form
element. This element is provided for two reasons:
To formally specify the standard hardware arrangements used with CLDR for implementations. Implementations can verify the arrangement, and validate keyboards against the number of rows and the number of keys per row.
To allow a way to customize the scancode layout for keyboards not intended to be included in the common CLDR repository.
See Implied Form Values, below.
Parents: forms
Occurrence: optional, multiple
Attribute: id
(required)
This attribute specifies the form id. The value may not be
touch
.
Syntax
<form id="us">
<scanCodes codes="00 01 02"/>
<scanCodes codes="03 04 05"/>
</form>
There is an implied set of <form>
elements corresponding to the default forms, thus implementations must behave as if there was the following import statement:
<keyboard3>
<forms>
<import base="cldr" path="techpreview/scanCodes-implied.xml" /> <!-- the version will match the current conformsTo of the file -->
</forms>
</keyboard3>
Here is a summary of the implied form elements. Keyboards included in the CLDR Repository must only use these form=
values and may not override the scanCodes.
touch
- Touch (non-hardware) layout.abnt2
- Brazilian 103 key ABNT2 layout (iso + extra key near right shift)iso
- European 102 key layout (extra key near left shift)jis
- Japanese 109 key layoutus
- ANSI 101 key layoutks
- Korean KS layout
This element represents a keyboard row, and defines the scan codes for the non-frame keys in that row.
Parents: form
Children: none
Occurrence: required, multiple
Attribute:
codes
(required)
The
codes
attribute is a space-separated list of 2-digit hex bytes, each representing a scan code.
Syntax
<scanCodes codes="29 02 03 04 05 06 07 08 09 0A 0B 0C 0D" />
This element represents a set of layer
elements with a specific physical form factor, whether
hardware or touch layout.
Parents: keyboard3
Children: import, layer, special
Occurrence: required, multiple
layers
element is required.Attribute: form
(required)
This attribute specifies the physical layout of a hardware keyboard, or that the form is a
touch
layout.When using an on-screen touch keyboard, if the keyboard does not specify a
<layers form="touch">
element, a<layers form="{hardware}">
element can be used as an fallback alternative. If there is nohardware
form, the implementation may need to choose a different keyboard file, or use some other fallback behavior when using a hardware keyboard.Because a hardware keyboard facilitates non-trivial amounts of text input, and many touch devices can also be connected to a hardware keyboard, it is recommended to always have at least one hardware (non-touch) form.
Multiple
<layers form="touch">
elements are allowed with distinctminDeviceWidth
values. At most one hardware (non-touch
)<layers>
element is allowed. If a different key arrangement is desired between, for example,us
andiso
formats, these should be separated into two different keyboards.The typical keyboard author will be designing a keyboard based on their circumstances and the hardware that they are using. So, for example, if they are in South East Asia, they will almost certainly be using an 101 key hardware keyboard with US key caps. So we want them to be able to reference that (
<layers form="us">
) in their design, rather than having to work with an unfamiliar form.A mismatch between the hardware layout in the keyboard file, and the actual hardware used by the user could result in some keys being inaccessible to the user if their hardware cannot generate the scancodes corresponding to the layout specified by the
form=
attribute. Such keys could be accessed only via an on-screen keyboard utility. Conversely, a user with hardware keys that are not present in the specifiedform=
will result in some hardware keys which have no function when pressed.The value of the
form=
attribute may betouch
, or correspond to aform
element. Seeform
.
Attribute: minDeviceWidth
This attribute specifies the minimum required width, in millimeters (mm), of the touch surface. The
layers
entry with the greatest matching width will be selected. This attribute is intended forform="touch"
, but is supported for hardware forms.This must be a whole number between 1 and 999, inclusive.
A layer
element describes the configuration of keys on a particular layer of a keyboard. It contains one or more row
elements to describe which keys exist in each row.
Syntax
<layer id="layerId" modifiers="{Set of Modifier Combinations}">
...
</layer>
Parents: keyboard3
Occurrence: optional, multiple
Attribute id
(required for touch
)
The
id
attribute identifies the layer for touch layouts. This identifier specifies the layout as the target for layer switching, as specified by theswitch=
attribute on the<key>
element. Touch layouts must have onelayer
withid="base"
to serve as the base layer.Must match
[A-Za-z0-9][A-Za-z0-9-]*
Attribute: modifiers
(required for hardware
)
This has two roles. It acts as an identifier for the
layer
element for hardware keyboards (in the absence of the id= element) and also provides the linkage from the hardware modifiers into the correctlayer
.For hardware layouts, the use of
@modifiers
as an identifier for a layer is sufficient since it is always unique among the set oflayer
elements in eachform
.The set of modifiers must match
(none|([A-Za-z0-9]+)( [A-Za-z0-9]+)*)
To indicate that no modifiers apply, the reserved name of
none
is used.
Syntax
<layer id="base" modifiers="none">
<row keys="a" />
</layer>
<layer id="upper" modifiers="shift">
<row keys="A" />
</layer>
<layer id="altgr" modifiers="altR">
<row keys="a-umlaut" />
</layer>
<layer id="upper-altgr" modifiers="altR shift">
<row keys="A-umlaut" />
</layer>
The following modifier components can be used, separated by spaces.
none
(no modifier)alt
altL
altR
caps
ctrl
ctrlL
ctrlR
shift
other
(matches if no other layers match)alt
in this specification is referred to on some platforms as "opt" or "option".
none
and other
may not be combined with any other components.
L
or R
indicates a left- or right- side modifier only (such as altL
)
whereas alt
indicates either left or right alt key (that is, altL
or altR
). ctrl
indicates either left or right ctrl key (that is, ctrlL
or ctrlR
).
If there are any layers (in the same form=
) with a modifier alt
, there may not also be another layer with altL
or altR
. Similarly, if there is a layer with a modifier ctrl
, there may not be a layer with ctrlL
or ctrlR
.
Left- and right- side modifiers may not be mixed together in a single modifier
attribute value, so neither altL ctrlR"
nor altL altR
are allowed.
shift
indicates either shift key. The left and right shift keys are not distinguishable in this specification.
Layers are matched exactly based on the modifier keys which are down. For example:
none
as a modifier will only match if all of the keys caps
, alt
, ctrl
and shift
are up.
alt
as a modifier will only match if either alt
is down, and caps
, ctrl
, and shift
are up.
altL ctrl
as a modifier will only match if the left alt
is down, either ctrl
is down, and shift
and caps
are up.
other
as a modifier will match if no other layers match.
Multiple modifier sets may be separated by commas. For example, none, shift caps
will match either no modifiers or shift and caps. ctrlL altL, altR
will match either left-control and left-alt, or right-alt.
Keystrokes where there isn’t an explicitly matching layer, and where there is no layer with other
specified, are ignored.
A row
element describes the keys that are present in the row of a keyboard.
Syntax
<row keys="{keyId} {keyId} …" />
Parents: layer
Children: none
Occurrence: required, multiple
Attribute: keys
(required)
This is a string that lists the id of
key
elements for each of the keys in a row, whether those are explicitly listed in the file or are implied. See thekey
documentation for more detail.For non-
touch
forms, the number of keys in each row may not exceed the number of scan codes defined for that row, and the number of rows may not exceed the defined number of rows for that form. SeescanCodes
;
Example
Here is an example of a row
element:
<row keys="a z e r t y u i o p caret dollar" />
Parents: keyboard3
Children: import, special, string, set, unicodeSet
Occurrence: optional, single
This is a container for variables to be used with transform, display and key elements.
Note that the id=
attribute must be unique across all children of the variables
element.
Example
<variables>
<string id="y" value="yes" /> <!-- a simple string-->
<set id="upper" value="A B C D E FF" /> <!-- a set with 6 items -->
<unicodeSet id="consonants" value="[कसतनमह]" /> <!-- a UnicodeSet -->
</variables>
Parents: variables
Children: none
Occurrence: optional, multiple
This element represents a single string which is used by the transform elements for string matching and substitution, as well as by the key and display elements.
Attribute: id
(required)
Specifies the identifier (name) of this string. All ids must be unique across all types of variables.
id
must match[0-9A-Za-z_]{1,32}
Attribute: value
(required)
Strings may contain whitespaces. However, for clarity, it is recommended to escape spacing marks, even in strings. This attribute may be escaped with
\u
notation, see Escaping. Variables may refer to other string variables if they have been previously defined, using${string}
syntax. Markers may be included with the\m{…}
notation.
Example
<variables>
<string id="cluster_hi" value="हि" /> <!-- a string -->
<string id="zwnj" value="\u{200C}"/> <!-- single codepoint -->
<string id="acute" value="\m{acute}"/> <!-- refer to a marker -->
<string id="backquote" value="`"/>
<string id="zwnj_acute" value="${zwnj}${acute}" /> <!-- Combine two variables -->
<string id="zwnj_sp_acute" value="${zwnj}\u{0020}${acute}" /> <!-- Combine two variables -->
</variables>
These may be then used in multiple contexts:
<!-- as part of a regex -->
<transform from="${cluster_hi}X" to="X" />
<transform from="Y" to="${cluster_hi}" />
…
<!-- as part of a key bag -->
<key id="hi_key" output="${cluster_hi}" />
<key id="acute_key" output="${acute}" />
…
<!-- Display ´ instead of the non-displayable marker -->
<display output="${acute}" display="${backquote}" />
Parents: variables
Children: none
Occurrence: optional, multiple
This element represents a set of strings used by the transform elements for string matching and substitution.
Attribute: id
(required)
Specifies the identifier (name) of this set. All ids must be unique across all types of variables.
id
must match[0-9A-Za-z_]{1,32}
Attribute: value
(required)
The
value
attribute is always a set of strings separated by whitespace, even if there is only a single item in the set, such as"A"
. Leading and trailing whitespace is ignored. This attribute may be escaped with\u
notation, see Escaping. Sets may refer to other string variables if they have been previously defined, using${string}
syntax, or to other previously-defined sets using$[set]
syntax. Set references must be separated by whitespace:$[set1]$[set2]
is an error; instead use$[set1] $[set2]
. Markers may be included with the\m{…}
notation.
Examples
<variables>
<set id="upper" value="A B CC D E FF " /> <!-- 6 items -->
<set id="lower" value="a b c d e f " /> <!-- 6 items -->
<set id="upper_or_lower" value="$[upper] $[lower]" /> <!-- Concatenate two sets -->
<set id="lower_or_upper" value="$[lower] $[upper]" /> <!-- Concatenate two sets -->
<set id="a" value="A"/> <!-- Just one element, an 'A'-->
<set id="cluster_or_zwnj" value="${hi_cluster} ${zwnj}"/> <!-- 2 items: "हि \u${200C}"-->
</variables>
Match "X" followed by any uppercase letter:
<transform from="X$[upper]" to="…" />
Map from upper to lower:
<transform from="($[upper])" to="$[1:lower]" />
See transform for further details and syntax.
Parents: variables
Children: none
Occurrence: optional, multiple
This element represents a set, using a subset of the UnicodeSet format, used by the
transform
elements for string matching and substitution. Note important restrictions on the syntax below.
Attribute: id
(required)
Specifies the identifier (name) of this unicodeSet. All ids must be unique across all types of variables.
id
must match[0-9A-Za-z_]{1,32}
Attribute: value
(required)
String value in UnicodeSet format. Leading and trailing whitespace is ignored. Variables may refer to other string variables if they have been previously defined, using
${string}
syntax, or to other previously-defined UnicodeSets (not sets) using$[unicodeSet]
syntax.
Syntax Note
transform
elements, but they are different. UnicodeSets must be defined with a unicodeSet
element, and referenced with the $[unicodeSet]
notation in transforms. UnicodeSets cannot be specified inline in a transform, and can only be used indirectly by reference to the corresponding unicodeSet
element.{}
) are not supported, such as [żġħ{ie}{għ}]
.\p{…}
or [:…:]
) may NOT be used, because that would make implementations dependent on a particular version of Unicode. However, implementations and tools may wish to pre-calculate the value of a particular UnicodeSet, and "freeze" it as explicit code points. The example below of $[KhmrMn]
matches all nonspacing marks in the Khmr
script.Examples
<variables>
<unicodeSet id="consonants" value="[कसतनमह]" /> <!-- unicode set range -->
<unicodeSet id="range" value="[a-z D E F G \u{200A}]" /> <!-- a through z, plus a few others -->
<unicodeSet id="newrange" value="[$[range]-[G]]" /> <!-- The above range, but not including G -->
<unicodeSet id="KhmrMn" value="[\u{17B4}\u{17B5}\u{17B7}-\u{17BD}\u{17C6}\u{17C9}-\u{17D3}\u{17DD}]"> <!-- [[:Khmr:][:Mn:]] as of Unicode 15.0-->
</variables>
The unicodeSet
element may not be used as the source or target for mapping operations ($[1:variable]
syntax).
The unicodeSet
element may not be referenced by key
and display
elements.
This element defines a group of one or more transform
elements associated with this keyboard layout. This is used to support features such as dead-keys, character reordering, backspace behavior, etc. using a straightforward structure that works for all the keyboards tested, and that results in readable source data.
There can be multiple <transforms>
elements, but only one for each type
.
Syntax
<transforms type="...">
{a set of transform groups}
</transforms>
Parents: keyboard3
Children: import, special, transformGroup
Occurrence: optional, multiple
Attribute: type
(required)
Values:
simple
,backspace
There are other keying behaviors that are needed particularly in handing complex orthographies from various parts of the world. The behaviors intended to be covered by the transforms are:
Markers are placeholders which record some state, but without producing normal visible text output. They were designed particularly to support dead-keys.
The marker ID is any valid NMTOKEN
(But see CLDR-17043 for future discussion.)
Consider the following abbreviated example:
<display output="\m{circ_marker}" display="^" />
…
<key id="circ_key" output="\m{circ_marker}" />
<key id="e" output="e" />
…
<transform from="\m{circ_marker}e" to="ê" />
The user presses the circ_key
key. The key can be shown with the keycap ^
due to the <display>
element.
The special marker, circ_marker
, is added to the end of input context.
The input context does not match any transforms.
The input context has:
circ_marker
Also due to the <display>
element, implementations can opt to display a visible ^
(perhaps visually distinct from a plain ^
carat). Implementations may opt to display nothing and only store the marker in the input context.
The user now presses the e
key, which is also added to the input context. The input context now has:
e
circ_marker
Now, the input context matches the transform. The e
and the marker are replaced with ê
.
The input context now has:
ê
Using markers to inhibit other transforms
Sometimes it is desirable to prevent transforms from having an effect. Perhaps two different keys output the same characters, with different key or modifier combinations, but only one of them is intended to participate in a transform.
Consider the following case, where pressing the keys X
, e
results in ^e
, which is transformed into ê
.
<keys>
<key id="X" output="^"/>
<key id="e" output="e" />
</keys>
<transforms>
<transform from="^e" output="ê"/>
</transforms>
However, what if the user wanted to produce ^e
without the transform taking effect?
One strategy would be to use a marker, which won’t be visible in the output, but will inhibit the transform.
<keys>
<key id="caret" output="^\m{no_transform}"/>
<key id="X" output="^" />
<key id="e" output="e" />
</keys>
…
<transforms>
<!-- this wouldn't match the key caret output because of the marker -->
<transform from="^e" output="ê"/>
</transforms>
Pressing caret
e
will result in ^e
(with an invisible no_transform marker — note that any name could be used). The ^e
won’t have the transform applied, at least while the marker’s context remains valid.
Another strategy might be to use a marker to indicate where transforms are desired, instead of where they aren't desired.
<keys>
<key id="caret" output="^"/>
<key id="X" output="^\m{transform}"/>
<key id="e" output="e" />
</keys>
…
<transforms …>
<!-- Won't match ^e without marker. -->
<transform from="^\m{transform}e" output="ê"/>
</transforms>
In this way, only the X
, e
keys will produce ^e
with a transform marker (again, any name could be used) which will cause the transform to be applied. One benefit is that navigating to an existing ^
in a document and adding an e
will result in ^e
, and this output will not be affected by the transform, because there will be no marker present there (remember that markers are not stored with the document but only recorded in memory temporarily during text input).
Effect of markers on final text
All markers must be removed before text is returned to the application from the input context. If the input context changes, such as if the cursor or mouse moves the insertion point somewhere else, all markers in the input context are removed.
Implementation Notes
Ideally, markers are implemented entirely out-of-band from the normal text stream. However, implementations may choose to map each marker to a Unicode private-use character for use only within the implementation’s processing and temporary storage in the input context.
For example, the first marker encountered could be represented as U+E000, the second by U+E001 and so on. If a regex processing engine were used, then those PUA characters could be processed through the existing regex processing engine. [^\u{E000}-\u{E009}]
could be used as an expression to match a character that is not a marker, and [Ee]\u{E000}
could match E
or e
followed by the first marker.
Such implementations must take care to remove all such markers (see prior section) from the resultant text. As well, implementations must take care to avoid conflicts if applications themselves are using PUA characters, such as is often done with not-yet-encoded scripts or characters.
Parents: transforms
Children: import, reorder, special, transform
Occurrence: optional, multiple
A transformGroup
represents a set of transform elements or reorder elements.
Each transformGroup
is processed entirely before proceeding to the next one.
Each transformGroup
element, after imports are processed, must have either reorder elements or transform elements, but not both. The <transformGroup>
element may not be empty.
Examples
transformGroup
with transform
elementsThis is a transformGroup
that consists of one or more transform
elements, prefaced by one or more import
elements. See the discussion of those elements for details. import
elements in this group may not import reorder
elements.
<transformGroup>
<import path="..."/> <!-- optional import elements-->
<transform />
<!-- other <transform/> elements -->
</transformGroup>
transformGroup
with reorder
elementsThis is a transformGroup
that consists of one or more transform
elements, optionally prefaced by one or more import
elements that import transform
elements. See the discussion of those elements for details.
import
elements in this group may not import transform
elements.
<transformGroup>
<import path="..."/> <!-- optional import elements-->
<reorder ... />
<!-- other <reorder> elements -->
</transformGroup>
This element represents a single transform that may be performed using the keyboard layout. A transform is an element that specifies a set of conversions from sequences of code points into (one or more) other code points. For example, in most French keyboards hitting the ^
dead-key followed by the e
key produces ê
.
Matches are processed against the "input context", a temporary buffer containing all relevant text up to the insertion point. If the user moves the insertion point, the input context is discarded and recreated from the application’s text buffer. Implementations may discard the input context at any time.
The input context may contain, besides regular text, any Markers as a result of keys or transforms, since the insertion point was moved.
Using regular expression terminology, matches are done as if there was an implicit $
(match end of buffer) at the end of each pattern. In other words, <transform from="ke" …>
will not match an input context ending with …keyboard
, but it will match the last two codepoints of an input context ending with …awake
.
All of the transform
elements in a transformGroup
are tested for a match, in order, until a match is found. Then, the matching element is processed, and then processing proceeds to the next transformGroup
. If none of the transform
elements match, processing proceeds without modification to the buffer to the next transformGroup
.
Syntax
<transform from="{input rule}" to="{output pattern}"/>
Parents: transformGroup Children: none Occurrence: required, multiple
Attribute: from
(required)
The
from
attribute consists of an input rule for matching the input context.The
transform
rule and output pattern uses a modified, mostly subsetted, regular expression syntax, with EcmaScript syntax (with theu
Unicode flag) as its baseline reference (see MDN-REGEX). Differences from regex implementations will be noted.
Simple matches
abc
𐒵
Unicode codepoint escapes
\u{1234} \u{012A}
\u{22} \u{012a} \u{1234A}
The hex escaping is case insensitive. The value may not match a surrogate or illegal character, nor a marker character.
The form \u{…}
is preferred as it is the same regardless of codepoint length.
Fixed character classes and escapes
\s \S \t \r \n \f \v \\ \$ \d \w \D \W \0
The value of these classes do not change with Unicode versions.
\s
for example is exactly [\f\n\r\t\v\u{00a0}\u{1680}\u{2000}-\u{200a}\u{2028}\u{2029}\u{202f}\u{205f}\u{3000}\u{feff}]
\\
and \$
evaluate to \
and $
, respectively.
Character classes
[abc]
[^def]
[a-z]
[ॲऄ-आइ-ऋ]
[\u{093F}-\u{0944}\u{0962}\u{0963}]
\p{…}
unicodeSet
elements, but they are different. UnicodeSets must be defined with a unicodeSet
element, and referenced with the $[unicodeSet]
notation in transforms. UnicodeSets cannot be used directly in a transform.Bounded quantifier
{x,y}
x
and y
are required single digits representing the minimum and maximum number of occurrences.
x
must be ≥ 0, y
must be ≥ x and ≥ 1
Optional Specifier
?
- equivalent of {0,1}
Numbered Capture Groups
([abc])([def])
(up to 9 groups)
These refer to groups captured as a set, and can be referenced with the $1
through $9
operators in the to=
pattern. May not be nested.
Non-capturing groups
(?:thismatches)
Nested capturing groups
(?:[abc]([def]))|(?:[ghi])
Capture groups may be nested, however only the innermost group is allowed to be a capture group. The outer group must be a non-capturing group.
Disjunctions
abc|def
Match either abc
or def
.
Match a single Unicode codepoint
.
Matches a codepoint, not individual code units. (See the ’u’ option in EcmaScript262 regex.)
For example, Osage 𐒵
is one match (.
) not two.
Does not match markers. (See \m{.}
and \m{marker}
, below.)
Match the start of the text context
^
The start of the context could be the start of a line, a grid cell, or some other formatting boundary.
See description at the top of transforms
.
The following are additions to standard Regex syntax.
Match a Marker
\m{Some_Marker}
Matches the named marker. Also see Markers.
Match a single marker
\m{.}
Matches any single marker. Also see Markers.
String Variables
${zwnj}
In this usage, the variable with id="zwnj"
will be substituted in at this point in the expression. The variable can contain a range, a character, or any other portion of a pattern. If zwnj
is a simple string, the pattern will match that string at this point.
Set and UnicodeSet variables
$[upper]
Given a space-separated variable, this syntax will match any of the substrings. This expression may be thought of (and implemented) as if it were a non-capturing group. It may, however, be enclosed within a capturing group. For example, the following definition of $[upper]
will match as if it were written (?:A|B|CC|D|E|FF)
.
<variables>
<set id="upper" value=" A B CC D E FF " />
</variables>
This expression in a from=
may be used to insert a mapped variable, see below under Replacement syntax.
Unicode properties
\p{property}
\P{property}
Rationale: The behavior of this feature varies by Unicode version, and so would not have predictable results.
Tooling may choose to suggest an expansion of properties, such as \p{Mn}
to all non spacing marks for a certain Unicode version. As well, a set of variables could be constructed in an import
-able file matching particularly useful Unicode properties.
<unicodeSet id="Mn" value="[\u{034F}\u{0591}-\u{05AF}\u{05BD}\u{05C4}\u{05C5}\…]" /> <!-- 1,985 code points -->
Backreferences
([abc])-\1
\k<something>
Rationale: Implementation and cognitive complexity.
Unbounded Quantifiers
* + *? +? {1,} {0,}
Rationale: Implementation and Computational complexity.
Nested capture groups
((a|b|c)|(d|e|f))
Rationale: Computational and cognitive complexity.
Named capture groups
(?<something>)
Rationale: Implementation complexity.
Assertions other than ^
\b
\B
(?<!…)
…
Rationale: Implementation complexity.
End marker
$
The end marker can be thought of as being implicitly at the end of every from=
pattern, matching the insertion point. Transforms do not match past the insertion point.
Attribute: to
This attribute represents the characters that are output from the transform.
If this attribute is absent, it indicates that the no characters are output, such as with a backspace transform.
A final rule such as
<transform from=".*"/>
will remove all context which doesn’t match one of the prior rules.
Used in the to=
Literals
$$ \$ \\
= $ $ \
Entire matched substring
$0
Insert the specified capture group
$1 $2 $3 … $9
Insert an entire variable
${variable}
The entire contents of the named variable will be inserted at this point.
Insert a mapped set
$[1:variable]
(Where "1" is any numbered capture group from 1 to 9)
Maps capture group 1 to variable variable
. The from=
side must also contain a grouped variable. This expression may appear anywhere or multiple times in the to=
pattern.
Example
<set id="upper" value="A B CC D E FF G" />
<set id="lower" value="a b c d e \u{0192} g" />
<!-- note that values may be spaced for ease of reading -->
…
<transform from="($[upper])" to="$[1:lower]" />
The capture group on the from=
side must contain exactly one set variable. from="Q($[upper])X"
can be used (other context before or after the capture group), but from="(Q$[upper])"
may not be used with a mapped variable and is flagged as an error.
The from=
and to=
sides of the pattern must both be using set
variables. There is no way to insert a set literal on either side and avoid using a variable.
A UnicodeSet may not be used directly, but must be defined as a unicodeSet
variable.
The two variables (here upper
and lower
) must have exactly the same number of whitespace-separated items. Leading and trailing space (such as at the end of lower
) is ignored. A variable without any spaces is considered to be a set variable of exactly one item.
As described in Additional Features, the upper
set variable as used here matches as if it is ((?:A|B|CC|D|E|FF|G))
, showing the enclosing capturing group. When text from the input context matches this expression, and all above conditions are met, the mapping proceeds as follows:
The portion of the input context, such as CC
, is matched against the above calculated pattern.
The position within the from=
variable (upper
) is calculated. The regex match may not have this information, but the matched substring CC
can be compared against the tokenized input variable: A
, B
, CC
, D
, … to find that the 3rd item matches exactly.
The same position within the to=
variable (lower
) is calculated. The 3rd item is c
.
CC
in the input context is replaced with c
, and processing proceeds to the next transformGroup
.
Emit a marker
\m{Some_marker}
Emits the named mark. Also see Markers.
The reorder transform consists of a <transformGroup>
element containing <reorder>
elements. Multiple such <transformGroup>
elements may be contained in an enclosing <transforms>
element.
One or more <import>
elements are allowed to precede the <reorder>
elements.
This transform has the job of reordering sequences of characters that have been typed, from their typed order to the desired output order. The primary concern in this transform is to sort combining marks into their correct relative order after a base, as described in this section. The reorder transforms can be quite complex, keyboard layouts will almost always import them.
The reordering algorithm consists of four parts:
run := preBase* (primary=0 && tertiary=0) ((primary≠0 || tertiary≠0) && !preBase)*
The primary order of a character with the Unicode property Canonical_Combining_Class
(ccc) of 0 may well not be 0. In addition, a character may receive a different primary order dependent on context. For example, in the Devanagari sequence ka halant ka, the first ka would have a primary order 0 while the halant ka sequence would give both halant and the second ka a primary order > 0, for example 2. Note that “base” character in this discussion is not a Unicode base character. It is instead a character with primary=0.
In order to get the characters into the correct relative order, it is necessary not only to order combining marks relative to the base character, but also to order some combining marks in a subsequence following another combining mark. For example in Devanagari, a nukta may follow a consonant character, but it may also follow a conjunct consisting of consonant, halant, consonant. Notice that the second consonant is not, in this model, the start of a new run because some characters may need to be reordered to before the first base, for example repha. The repha would get primary < 0, and be sorted before the character with order = 0, which is, in the case of Devanagari, the initial consonant of the orthographic syllable.
The reorder transform consists of <reorder>
elements encapsulated in a <transformGroup>
element. Each element is a rule that matches against a string of characters with the action of setting the various ordering attributes (primary
, tertiary
, tertiaryBase
, preBase
) for the matched characters in the string.
The relative ordering of <reorder>
elements is not significant.
Syntax
<transformGroup>
<!-- one or more <import/> elements are allowed at this point -->
<reorder from="{combination of characters}"
before="{look-behind required match}"
order="{list of weights}"
tertiary="{list of weights}"
tertiaryBase="{list of true/false}"
preBase="{list of true/false}" />
<!-- other <reorder/> elements... -->
</transformGroup>
Parents: transformGroup Children: none Occurrence: optional, multiple
Attribute: from
(required)
This attribute contains a string of elements. Each element matches one character and may consist of a codepoint or a UnicodeSet (both as defined in UTS #35 Part One).
Attribute: before
This attribute contains the element string that must match the string immediately preceding the start of the string that the @from matches.
Attribute: order
This attribute gives the primary order for the elements in the matched string in the
@from
attribute. The value is a simple integer between -128 and +127 inclusive, or a space separated list of such integers. For a single integer, it is applied to all the elements in the matched string. Details of such list type attributes are given after all the attributes are described. If missing, the order value of all the matched characters is 0. We consider the order value for a matched character in the string.
- If the value is 0 and its tertiary value is 0, then the character is the base of a new run.
- If the value is 0 and its tertiary value is non-zero, then it is a normal character in a run, with ordering semantics as described in the
@tertiary
attribute.- If the value is negative, then the character is a primary character and will reorder to be before the base of the run.
- If the value is positive, then the character is a primary character and is sorted based on the order value as the primary key following a previous base character.
A character with a zero tertiary value is a primary character and receives a sort key consisting of:
- Primary weight is the order value
- Secondary weight is the index of the character. This may be any value (character index, codepoint index) such that its value is greater than the character before it and less than the character after it.
- Tertiary weight is 0.
- Quaternary weight is the same as the secondary weight.
Attribute: tertiary
This attribute gives the tertiary order value to the characters matched. The value is a simple integer between -128 and +127 inclusive, or a space separated list of such integers. If missing, the value for all the characters matched is 0. We consider the tertiary value for a matched character in the string.
- If the value is 0 then the character is considered to have a primary order as specified in its order value and is a primary character.
- If the value is non zero, then the order value must be zero otherwise it is an error. The character is considered as a tertiary character for the purposes of ordering.
A tertiary character receives its primary order and index from a previous character, which it is intended to sort closely after. The sort key for a tertiary character consists of:
- Primary weight is the primary weight of the primary character..
- Secondary weight is the index of the primary character, not the tertiary character
- Tertiary weight is the tertiary value for the character.
- Quaternary weight is the index of the tertiary character.
Attribute: tertiaryBase
This attribute is a space separated list of
"true"
or"false"
values corresponding to each character matched. It is illegal for a tertiary character to have a truetertiaryBase
value. For a primary character it marks that this character may have tertiary characters moved after it. When calculating the secondary weight for a tertiary character, the most recently encountered primary character with a truetertiaryBase
attribute is used. Primary characters with an@order
value of 0 automatically are treated as havingtertiaryBase
true regardless of what is specified for them.
Attribute: preBase
This attribute gives the prebase attribute for each character matched. The value may be
"true"
or"false"
or a space separated list of such values. If missing the value for all the characters matched is false. It is illegal for a tertiary character to have a true prebase value.If a primary character has a true prebase value then the character is marked as being typed before the base character of a run, even though it is intended to be stored after it. The primary order gives the intended position in the order after the base character, that the prebase character will end up. Thus
@order
shall not be 0. These characters are part of the run prefix. If such characters are typed then, in order to give the run a base character after which characters can be sorted, an appropriate base character, such as a dotted circle, is inserted into the output run, until a real base character has been typed. A value of"false"
indicates that the character is not a prebase.
For @from
attributes with a match string length greater than 1, the sort key information (@order
, @tertiary
, @tertiaryBase
, @preBase
) may consist of a space-separated list of values, one for each element matched. The last value is repeated to fill out any missing values. Such a list may not contain more values than there are elements in the @from
attribute:
if len(@from) < len(@list) then error
else
while len(@from) > len(@list)
append lastitem(@list) to @list
endwhile
endif
Example
For example, consider the Northern Thai (nod-Lana
, Tai Tham script) word: ᨡ᩠ᩅᩫ᩶ 'roasted'. This is ideally encoded as the following:
name | kha | sakot | wa | o | t2 |
---|---|---|---|---|---|
code | 1A21 | 1A60 | 1A45 | 1A6B | 1A76 |
ccc | 0 | 9 | 0 | 0 | 230 |
(That sequence is already in NFC format.)
Some users may type the upper component of the vowel first, and the tone before or after the lower component. Thus someone might type it as:
name | kha | o | t2 | sakot | wa |
---|---|---|---|---|---|
code | 1A21 | 1A6B | 1A76 | 1A60 | 1A45 |
ccc | 0 | 0 | 230 | 9 | 0 |
The Unicode NFC format of that typed value reorders to:
name | kha | o | sakot | t2 | wa |
---|---|---|---|---|---|
code | 1A21 | 1A6B | 1A60 | 1A76 | 1A45 |
ccc | 0 | 0 | 9 | 230 | 0 |
Finally, the user might also type in the sequence with the tone after the lower component.
name | kha | o | sakot | wa | t2 |
---|---|---|---|---|---|
code | 1A21 | 1A6B | 1A60 | 1A45 | 1A76 |
ccc | 0 | 0 | 9 | 0 | 230 |
(That sequence is already in NFC format.)
We want all of these sequences to end up ordered as the first. To do this, we use the following rules:
<reorder from="\u{1A60}" order="127" /> <!-- max possible order -->
<reorder from="\u{1A6B}" order="42" />
<reorder from="[\u{1A75}-\u{1A79}]" order="55" />
<reorder before="\u{1A6B}" from="\u{1A60}\u{1A45}" order="10" />
<reorder before="\u{1A6B}[\u{1A75}-\u{1A79}]" from="\u{1A60}\u{1A45}" order="10" />
<reorder before="\u{1A6B}" from="\u{1A60}[\u{1A75}-\u{1A79}]\u{1A45}" order="10 55 10" />
The first reorder is the default ordering for the sakot which allows for it to be placed anywhere in a sequence, but moves any non-consonants that may immediately follow it, back before it in the sequence. The next two rules give the orders for the top vowel component and tone marks respectively. The next three rules give the sakot and wa characters a primary order that places them before the o. Notice particularly the final reorder rule where the sakot+wa is split by the tone mark. This rule is necessary in case someone types into the middle of previously normalized text.
<reorder>
elements are priority ordered based first on the length of string their @from
attribute matches and then the sum of the lengths of the strings their @before
attribute matches.
<import>
with <reorder>
elementsThis section describes the impact of using import
elements with <reorder>
elements.
The @from string in a <reorder>
element describes a set of strings that it matches. This also holds for the @before
attribute. The intersection of any two <reorder>
elements consists of the intersections of their @from
and @before
string sets. Tooling should warn users if the intersection between any two <reorder>
elements in the same <transformGroup>
element to be non empty prior to processing imports.
If two <reorder>
elements have a non empty intersection, then they are split and merged. They are split such that where there were two <reorder>
elements, there are, in effect (but not actuality), three elements consisting of:
@from
, @before
that match the intersection of the two rules. The other attributes are merged, as described below.@from
, @before
that match the set of strings in the first rule not in the intersection with the other attributes from the first rule.@from
, @before
that match the set of strings in the second rule not in the intersection, with the other attributes from the second rule.When merging the other attributes, the second rule is taken to have priority (being an override of the earlier element). Where the second rule does not define the value for a character but the first does, the value is taken from the first rule, otherwise it is taken from the second rule.
Notice that it is possible for two rules to match the same string, but for them not to merge because the distribution of the string across @before
and @from
is different. For example, the following would not merge:
<reorder before="ab" from="cd" />
<reorder before="a" from="bcd" />
After <reorder>
elements merge, the resulting reorder
elements are sorted into priority order for matching.
Consider this fragment from a shared reordering for the Myanmar script:
<!-- File: "myanmar-reordering.xml" -->
<transformGroup>
<!-- medial-r -->
<reorder from="\u{103C}" order="20" />
<!-- [medial-wa or shan-medial-wa] -->
<reorder from="[\u{103D}\u{1082}]" order="25" />
<!-- [medial-ha or shan-medial-wa]+asat = Mon asat -->
<reorder from="[\u{103E}\u{1082}]\u{103A}" order="27" />
<!-- [medial-ha or mon-medial-wa] -->
<reorder from="[\u{103E}\u{1060}]" order="27" />
<!-- [e-vowel (U+1031) or shan-e-vowel (U+1084)] -->
<reorder from="[\u{1031}\u{1084}]" order="30" />
<reorder from="[\u{102D}\u{102E}\u{1033}-\u{1035}\u{1071}-\u{1074}\u{1085}\u{109D}\u{A9E5}]" order="35" />
</transformGroup>
A particular Myanmar keyboard layout can have these reorder
elements:
<transformGroup>
<import path="myanmar-reordering.xml"/> <!-- import the above transformGroup -->
<!-- Kinzi -->
<reorder from="\u{1004}\u{103A}\u{1039}" order="-1" />
<!-- e-vowel -->
<reorder from="\u{1031}" preBase="1" />
<!-- medial-r -->
<reorder from="\u{103C}" preBase="1" />
</transformGroup>
The effect of this is that the e-vowel will be identified as a prebase and will have an order of 30. Likewise a medial-r will be identified as a prebase and will have an order of 20. Notice that a shan-e-vowel (\u{1084}
) will not be identified as a prebase (even if it should be!). The kinzi is described in the layout since it moves something across a run boundary. By separating such movements (prebase or moving to in front of a base) from the shared ordering rules, the shared ordering rules become a self-contained combining order description that can be used in other keyboards or even in other contexts than keyboarding.
It may be desired to perform additional processing following reorder operations. This may be aaccomplished by adding an additional <transformGroup>
element after the reorders.
First, a partial example from Khmer where split vowels are combined after reordering.
…
<transformGroup>
<reorder … />
<reorder … />
<reorder … />
…
</transformGroup>
<transformGroup>
<transform from="\u{17C1}\u{17B8}" to="\u{17BE}" />
<transform from="\u{17C1}\u{17B6}" to="\u{17C4}" />
</transformGroup>
Another partial example allows a keyboard implementation to prevent people typing two lower vowels in a Burmese cluster:
…
<transformGroup>
<reorder … />
<reorder … />
<reorder … />
…
</transformGroup>
<transformGroup>
<transform from="[\u{102F}\u{1030}\u{1048}\u{1059}][\u{102F}\u{1030}\u{1048}\u{1059}]" />
</transformGroup>
The <transforms type="backspace">
describe an optional transform that is not applied on input of normal characters, but is only used to perform extra backspace modifications to previously committed text.
When the backspace key is pressed, the <transforms type="backspace">
element (if present) is processed, and then the <transforms type="simple">
element (if processed) as with any other key.
Keyboarding applications typically work, but are not required to, in one of two modes:
text entry
text entry happens while a user is typing new text. A user typically wants the backspace key to undo whatever they last typed, whether or not they typed things in the 'right' order.
text editing
text editing happens when a user moves the cursor into some previously entered text which may have been entered by someone else. As such, there is no way to know in which order things were typed, but a user will still want appropriate behaviour when they press backspace. This may involve deleting more than one character or replacing a sequence of characters with a different sequence.
In text editing mode, different keyboard layouts may behave differently in the same textual context. The backspace transform allows the keyboard layout to specify the effect of pressing backspace in a particular textual context. This is done by specifying a set of backspace rules that match a string before the cursor and replace it with another string. The rules are expressed within a transforms type="backspace"
element.
<transforms type="backspace">
<transformGroup>
<transform from="{combination of characters}" to="{output}" />
</transformGroup>
</transforms>
Example
For example, consider deleting a Devanagari ksha क्श:
While this character is made up of three codepoints, the following rule causes all three to be deleted by a single press of the backspace.
<transforms type="backspace">
<transformGroup>
<transform from="\u{0915}\u{094D}\u{0936}"/>
</transformGroup>
</transforms>
Note that the optional attribute @to
is omitted, since the whole string is being deleted. This is not uncommon in backspace transforms.
A more complex example comes from a Burmese visually ordered keyboard:
<transforms type="backspace">
<transformGroup>
<!-- Kinzi -->
<transform from="[\u{1004}\u{101B}\u{105A}]\u{103A}\u{1039}" />
<!-- subjoined consonant -->
<transform from="\u{1039}[\u{1000}-\u{101C}\u{101E}\u{1020}\u{1021}\u{1050}\u{1051}\u{105A}-\u{105D}]" />
<!-- tone mark -->
<transform from="\u{102B}\u{103A}" />
<!-- Handle prebases -->
<!-- diacritics stored before e-vowel -->
<transform from="[\u{103A}-\u{103F}\u{105E}-\u{1060}\u{1082}]\u{1031}" to="\u{1031}" />
<!-- diacritics stored before medial r -->
<transform from="[\u{103A}-\u{103B}\u{105E}-\u{105F}]\u{103C}" to="\u{103C}" />
<!-- subjoined consonant before e-vowel -->
<transform from="\u{1039}[\u{1000}-\u{101C}\u{101E}\u{1020}\u{1021}]\u{1031}" to="\u{1031}" />
<!-- base consonant before e-vowel -->
<transform from="[\u{1000}-\u{102A}\u{103F}-\u{1049}\u{104E}]\u{1031}" to="\m{prebase}\u{1031}" />
<!-- subjoined consonant before medial r -->
<transform from="\u{1039}[\u{1000}-\u{101C}\u{101E}\u{1020}\u{1021}]\u{103C}" to="\u{103C}" />
<!-- base consonant before medial r -->
<transform from="[\u{1000}-\u{102A}\u{103F}-\u{1049}\u{104E}]\u{103C}" to="\m{prebase}\u{103C}" />
<!-- delete lone medial r or e-vowel -->
<transform from="\m{prebase}[\u{1031}\u{103C}]" />
</transformGroup>
</transforms>
The above example is simplified, and doesn't fully handle the interaction between medial-r and e-vowel.
The character
\m{prebase}
does not represent a literal character, but is instead a special marker, used as a "filler string". When a keyboard implementation handles a user pressing a key that inserts a prebase character, it also has to insert a special filler string before the prebase to ensure that the prebase character does not combine with the previous cluster. See the reorder transform for details. See markers for the\m
syntax.
The first three transforms above delete various ligatures with a single keypress. The other transforms handle prebase characters. There are two in this Burmese keyboard. The transforms delete the characters preceding the prebase character up to base which gets replaced with the prebase filler string, which represents a null base. Finally the prebase filler string + prebase is deleted as a unit.
If no specified transform among all transformGroup
s under the <transforms type="backspace">
element matches, a default will be used instead — an implied final transform that simply deletes the codepoint at the end of the input context. This implied transform is effectively similar to the following code sample, even though the *
operator is not actually allowed in from=
. See the documentation for Match a single Unicode codepoint under transform syntax and markers, above.
It is important that implementations do not by default delete more than one non-marker codepoint at a time, except in the case of emoji clusters. Note that implementations will vary in the emoji handling due to the iterative nature of successive Unicode releases. See UTS#51 §2.4.2: Emoji Modifiers in Text
<transforms type="backspace">
<!-- Other explicit transforms -->
<!-- Final implicit backspace transform: Delete the final codepoint. -->
<transformGroup>
<!-- (:?\m{.})* - matches any number of contiguous markers -->
<transform from="(:?\m{.})*.(:?\m{.})*" /> <!-- deletes any number of markers directly on either side of the final pre-caret codepoint -->
</transformGroup>
</transforms>
Beyond what the DTD imposes, certain other restrictions on the data are imposed on the data. Please note the constraints given under each element section above. DTD validation alone is not sufficient to verify a keyboard file.
There is a set of subtags that help identify the keyboards. Each of these are used after the "t-k0"
subtags to help identify the keyboards. The first tag appended is a mandatory platform tag followed by zero or more tags that help differentiate the keyboard from others with the same locale code.
The following are the design principles for the IDs.
en
, sr-Cyrl
, or en-t-k0-extended
.likelySubtags
(see Part 1: Likely Subtags)fa-Arab
, use fa
.-t-k0-
. If a keyboard on the platform changes over time, both are dated, eg bg-t-k0-chromeos-2011
. When selecting, if there is no date, it means the latest one.-extended
, -phonetic
, -qwerty
, -qwertz
, -azerty
, …-trad
or -traditio
(both exist in bcp47).fi-t-k0-smi
or extended-smi
<locales>
element may be used to identify additional languages.en-US-t-k0-chromeos-intl-altgr.xml
Examples
<!-- Serbian Latin -->
<keyboard3 locale="sr-Latn"/>
<!-- Serbian Cyrillic -->
<keyboard3 locale="sr-Cyrl"/>
<!-- Pan Nigerian Keyboard-->
<keyboard3 locale="mul-Latn-NG-t-k0-panng">
<locales>
<locale id="ha"/>
<locale id="ig"/>
<!-- others … -->
</locales>
</keyboard3>
<!-- Finnish Keyboard including Skolt Sami -->
<keyboard3 locale="fi-t-k0-smi">
<locales>
<locale id="sms"/>
</locales>
</keyboard3>
Platform | No modifier combination match is available | No map match is available for key position | Transform fails (i.e. if ^d is pressed when that transform does not exist) |
---|---|---|---|
Chrome OS | Fall back to base | Fall back to character in a keyMap with same "level" of modifier combination. If this character does not exist, fall back to (n-1) level. (This is handled data-generation-side.) In the specification: No output |
No output at all |
Mac OS X | Fall back to base (unless combination is some sort of keyboard shortcut, e.g. cmd-c) | No output | Both keys are output separately |
Windows | No output | No output | Both keys are output separately |
Keyboard Test Data allows the keyboard author to provide regression test data to validate the repertoire and behavior of a keyboard. Tooling can run these regression tests against an implementation, and can also be used as part of the development cycle to validate that keyboard changes do not deviate from expected behavior. In the interest of complete coverage, tooling could also indicate whether all keys and gestures in a layout are exercised by the test data.
Test data files have a separate DTD, named ldmlKeyboardTest3.dtd
. Note that multiple test data files can refer to the same keyboard. Test files should be named similarly to the keyboards which they test, such as fr_test.xml
to test fr.xml
.
Sample test data files are located in the keyboards/test
subdirectory.
The following describes the structure of a keyboard test file.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE keyboardTest3 SYSTEM "../dtd/ldmlKeyboardTest3.dtd">
The top level element is named keyboardTest
.
Children: info, repertoire, special, tests
This is the top level element.
Attribute: conformsTo
(required)
The conformsTo
attribute here is the same as on the <keyboard3>
element.
<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE keyboardTest3 SYSTEM "../dtd/ldmlKeyboardTest3.dtd">
<keyboardTest3 conformsTo="techpreview">
…
</keyboardTest3>
Parents: keyboardTest
Occurrence: Required, Single
Attribute: author
This freeform attribute allows for description of the author or authors of this test file.
Attribute: keyboard
(required)
This attribute specifies the keyboard’s file name, such as fr-t-k0-azerty.xml
.
Attribute: name
(required)
This attribute specifies a name for this overall test file. These names could be output to the user during test execution, used to summarize success and failure, or used to select or deselect test components.
Example
<info keyboard="fr-t-k0-azerty.xml" author="Team Keyboard" name="fr-test" />
Parents: keyboardTest
Children: none
Occurrence: Optional, Multiple
This element represents a repertoire test, to validate the available characters and their reachability. This test ensures that each of the specified characters is somehow typeable on the keyboard, after transforms have been applied. The characters in the repertoire will be matched against the complete set of possible generated outputs, post-transform, of all keys on the keyboard.
Attribute: name
(required)
This attribute specifies a unique name for this repertoire test. These names could be output to the user during test execution, used to summarize success and failure, or used to select or deselect test components.
Attribute: type
This attribute is one of the following:
type | Meaning |
---|---|
default | This is the default, indicates that any gesture or keystroke may be used to generate each character |
simple | Each of the characters must be typeable by simple single keystrokes without needing any gestures. |
gesture | The characters are typeable by use of any gestures such as flicks, long presses, or multiple taps. |
flick | The characters are typeable by use of any flick element. |
longPress | The characters are typeable by use of any longPress value. |
multiTap | The characters are typeable by use of any multiTap value. |
hardware | The characters are typeable by use of any simple keystrokes on any hardware layout. |
Attribute: chars
(required)
This attribute specifies a list of characters in UnicodeSet format, which is specified in UTS #35 Part One.
Example
<repertoire chars="[a b c d e \u{22}]" type="default" />
<!-- taken from CLDR's common/main/fr.xml main exemplars - indicates that all of these characters should be reachable without requiring a gesture.
Note that the 'name' is arbitrary. -->
<repertoire name="cldr-fr-main" chars="[a à â æ b c ç d e é è ê ë f g h i î ï j k l m n o ô œ p q r s t u ù û ü v w x y ÿ z]" type="simple" />
<!-- taken from CLDR's common/main/fr.xml auxiliary exemplars - indicates that all of these characters should be reachable even if a gesture is required.-->
<repertoire name="cldr-fr-auxiliary" chars="[á å ä ã ā ć ē í ì ī ij ñ ó ò ö õ ø ř š ſ ß ú ǔ]" type="gesture" />
Note: CLDR’s extensive exemplar set data may be useful in validating a language’s repertoire against a keyboard. Tooling may wish to make use of this data in order to suggest recommended repertoire values for a language.
Parents: keyboardTest
Occurrence: Optional, Multiple
This element specifies a particular suite of <test>
elements.
Attribute: name
(required)
This attribute specifies a unique name for this suite of tests. These names could be output to the user during test execution, used to summarize success and failure, or used to select or deselect test components.
Example
<tests name="key-tests">
<test name="key-test">
…
</test>
<test name="gestures-test">
…
</test>
</tests>
<tests name="transform tests">
<test name="transform test">
…
</test>
</tests>
Parents: tests
Children: startContext, emit, keystroke, backspace, check, special
Occurrence: Required, Multiple
This attribute specifies a specific isolated regression test. Multiple test elements do not interact with each other.
The order of child elements is significant, with cumulative effects: they must be processed from first to last.
Attribute: name
(required)
This attribute specifies a unique name for this particular test. These names could be output to the user during test execution, used to summarize success and failure, or used to select or deselect test components.
Example
<info keyboard="fr-t-k0-azerty.xml" author="Team Keyboard" name="fr-test" />
This element specifies pre-existing text in a document, as if prior to the user’s insertion point. This is useful for testing transforms and reordering. If not specified, the startContext can be considered to be the empty string ("").
Parents: test
Children: none
Occurrence: Optional, Single
Attribute: to
(required)
Specifies the starting context. This text may be escaped with \u
notation, see Escaping.
Example
<startContext to="abc\u{0022}"/>
Parents: test
Children: none
Occurrence: Optional, Multiple
This element represents a single keystroke or other gesture event, identified by a particular key element.
Optionally, one of the gesture attributes, either flick
, longPress
, or tapCount
may be specified. If none of the gesture attributes are specified, then a regular keypress is effected on the key. It is an error to specify more than one gesture attribute.
If a key is not found, or a particular gesture has no definition, the output should be behave as if the user attempted to perform such an action. For example, an unspecified flick
would result in no output.
When a key is found, processing continues with the transform and other elements before updating the test output buffer.
Attribute: key
(required)
This attribute specifies a key by means of the key’s id
attribute.
Attribute: flick
This attribute specifies a flick gesture to be performed on the specified key instead of a keypress, such as e
or nw se
. This value corresponds to the directions
attribute of the <flickSegment>
element.
Attribute: longPress
This attribute specifies that a long press gesture should be performed on the specified key instead of a keypress. For example, longPress="2"
indicates that the second character in a longpress series should be chosen. longPress="0"
indicates that the longPressDefault
value, if any, should be chosen. This corresponds to longPress
and longPressDefault
on <key>
.
Attribute: tapCount
This attribute specifies that a multi-tap gesture should be performed on the specified key instead of a keypress. For example, tapCount="3"
indicates that the key should be tapped three times in rapid succession. This corresponds to multiTap
on <key>
. The minimum tapCount is 2.
Example
<keystroke key="q"/>
<keystroke key="doublequote"/>
<keystroke key="s" flick="nw se"/>
<keystroke key="e" longPress="1"/>
<keystroke key="E" tapCount="2"/>
Parents: test
Children: none
Occurrence: Optional, Multiple
This element also represents an input event, except that the input is specified in terms of textual value rather than key or gesture identity. This element is particularly useful for testing transforms.
Processing of the specified text continues with the transform and other elements before updating the test output buffer.
Attribute: to
(required)
This attribute specifies a string of output text representing a single keystroke or gesture. This string is intended to match the output of a key
, flick
, longPress
or multiTap
element or attribute.
Tooling should give a hint if this attribute does not match at least one keystroke or gesture. Note that the specified text is not injected directly into the output buffer.
This attribute may be escaped with \u
notation, see Escaping.
Example
<emit to="s"/>
Parents: test
Children: none
Occurrence: Optional, Multiple
This element represents a backspace action, as if the user typed the backspace key
Example
<backspace/>
Parents: test
Children: none
Occurrence: Optional, Multiple
This element represents a check on the current output buffer.
Attribute: result
(required)
This attribute specifies the expected resultant text in a document after processing this event and all prior events, and including any startContext
text. This text may be escaped with \u
notation, see Escaping.
Example
<check result="abc\u{0022}s\u{0022}•éÈ"/>
<test name="spec-sample">
<startContext to="abc\u{0022}"/>
<!-- simple, key specified by to -->
<emit to="s"/>
<check result="abc\u{0022}s"/>
<!-- simple, key specified by id -->
<keystroke key="doublequote"/>
<check result="abc\u{0022}s\u{0022}"/>
<!-- flick -->
<keystroke key="s" flick="nw se"/>
<check result="abc\u{0022}s\u{0022}•"/>
<!-- longPress -->
<keystroke key="e" longPress="1"/>
<check result="abc\u{0022}s\u{0022}•é"/>
<!-- multiTap -->
<keystroke key="E" tapCount="2"/>
<check result="abc\u{0022}s\u{0022}•éÈ"/>
</test>
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