This prose specification is one component of a Work Product that also includes:
XML schemas accessible from http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/
This specification replaces or supersedes:
XLIFF Version 1.2. 1 February 2008. OASIS Standard. http://docs.oasis-open.org/xliff/v1.2/os/xliff-core.html
urn:oasis:names:tc:xliff:document:2.0
urn:oasis:names:tc:xliff:matches:2.0
urn:oasis:names:tc:xliff:glossary:2.0
urn:oasis:names:tc:xliff:fs:2.0
urn:oasis:names:tc:xliff:metadata:2.0
urn:oasis:names:tc:xliff:resourcedata:2.0
urn:oasis:names:tc:xliff:changetracking:2.0
urn:oasis:names:tc:xliff:sizerestriction:2.0
urn:oasis:names:tc:xliff:validation:2.0
This document was last revised or approved by the OASIS XML Localisation Interchange File Format (XLIFF) TC on the above date. The level of approval is also listed above. Check the “Latest version” location noted above for possible later revisions of this document.
Technical Committee members should send comments on this specification to the Technical Committee's email list. Others should send comments to the Technical Committee by using the "Send A Comment" button on the Technical Committee's web page at http://www.oasis-open.org/committees/xliff/.
For information on whether any patents have been disclosed that may be essential to implementing this specification, and any offers of patent licensing terms, please refer to the Intellectual Property Rights section of the Technical Committee web page (http://www.oasis-open.org/committees/xliff/ipr.php).
When referencing this specification the following citation format should be used:
[XLIFF v2.0]
XLIFF Version 2.0. Edited by Tom Comerford, David Filip, Rodolfo M. Raya, and Yves Savourel 21 January 2014. OASIS Committee Specification Draft 03. Persistent link to this version: http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/xliff-core-v2.0-csd03.html The latest version is available from: http://docs.oasis-open.org/xliff/xliff-core/v2.0/xliff-core-v2.0.html.
Copyright © OASIS Open 2013. All Rights Reserved.
All capitalized terms in the following text have the meanings assigned to them in the OASIS Intellectual Property Rights Policy (the "OASIS IPR Policy"). The full Policy may be found at the OASIS website.
This document and translations of it may be copied and furnished to others, and derivative works that comment on or otherwise explain it or assist in its implementation may be prepared, copied, published, and distributed, in whole or in part, without restriction of any kind, provided that the above copyright notice and this section are included on all such copies and derivative works. However, this document itself may not be modified in any way, including by removing the copyright notice or references to OASIS, except as needed for the purpose of developing any document or deliverable produced by an OASIS Technical Committee (in which case the rules applicable to copyrights, as set forth in the OASIS IPR Policy, must be followed) or as required to translate it into languages other than English.
The limited permissions granted above are perpetual and will not be revoked by OASIS or its successors or assigns.
This document and the information contained herein is provided on an "AS IS" basis and OASIS DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY OWNERSHIP RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE.
OASIS requests that any OASIS Party or any other party that believes it has patent claims that would necessarily be infringed by implementations of this OASIS Committee Specification or OASIS Standard, to notify OASIS TC Administrator and provide an indication of its willingness to grant patent licenses to such patent claims in a manner consistent with the IPR Mode of the OASIS Technical Committee that produced this specification.
OASIS invites any party to contact the OASIS TC Administrator if it is aware of a claim of ownership of any patent claims that would necessarily be infringed by implementations of this specification by a patent holder that is not willing to provide a license to such patent claims in a manner consistent with the IPR Mode of the OASIS Technical Committee that produced this specification. OASIS may include such claims on its website, but disclaims any obligation to do so.
OASIS takes no position regarding the validity or scope of any intellectual property or other rights that might be claimed to pertain to the implementation or use of the technology described in this document or the extent to which any license under such rights might or might not be available; neither does it represent that it has made any effort to identify any such rights. Information on OASIS' procedures with respect to rights in any document or deliverable produced by an OASIS Technical Committee can be found on the OASIS website. Copies of claims of rights made available for publication and any assurances of licenses to be made available, or the result of an attempt made to obtain a general license or permission for the use of such proprietary rights by implementers or users of this OASIS Committee Specification or OASIS Standard, can be obtained from the OASIS TC Administrator. OASIS makes no representation that any information or list of intellectual property rights will at any time be complete, or that any claims in such list are, in fact, Essential Claims.
The name "OASIS" is a trademark of OASIS, the owner and developer of this specification, and should be used only to refer to the organization and its official outputs. OASIS welcomes reference to, and implementation and use of, specifications, while reserving the right to enforce its marks against misleading uses. Please see http://www.oasis-open.org/policies-guidelines/trademark for above guidance.
XLIFF is the XML Localisation Interchange File Format designed by a group of multilingual content publishers, software providers, localization service providers, localization tools providers and researchers. It is intended to give any multilingual content owner a single interchange file format that can be understood by any localization provider, using any conformant localization tool. While the primary focus is on being a lossless interchange format, usage of XLIFF as a processing format is neither encouraged nor discouraged or prohibited.
All text is normative unless otherwise labeled. The following common methods are used for labeling portions of this specification as informative and hence non-normative:
Appendices and sections marked as "(Informative)" or "Non-Normative" in Title, |
Notes (sections with the "Note" Title), |
Warnings (sections with the "Warning" Title), |
Examples (mainly example code listings but also any inline examples or illustrative exemplary lists in otherwise normative text), |
Schema and other artifacts listings (the corresponding artifacts are normative, not their listings). |
The key words MUST, MUST NOT, REQUIRED, SHALL, SHALL NOT, SHOULD, SHOULD NOT, RECOMMENDED, MAY, and OPTIONAL are to be interpreted as described in [RFC 2119].
any application or tool that generates (creates), reads, edits, writes, processes, stores, renders or otherwise handles XLIFF Documents.
Agent is the most general application conformance target that subsumes all other specialized user agents disregarding whether they are defined in this specification or not.
the process of associating module and extension based metadata and resources with the Extracted XLIFF payload
Processing Requirements
Enriching MAY happen at the time of Extraction.
Extractor knowledge of the native format is not assumed while Enriching.
any Agent that performs the Enriching process
the process of encoding localizable content from a native content or User Interface format as XLIFF payload, so that localizable parts of the content in the source language are available for Translation into the target language along with the necessary context information
any Agent that performs the Extraction process
the process of importing XLIFF payload back to the originating native format, based on the full knowledge of the Extraction mechanism, so that the localized content or User Interface strings replace the source language in the native format
an Agent that performs the Merge process
Unless specified otherwise, any Merger is deemed to have the same knowledge of the native format as the Extractor throughout the specification.
Mergers independent of Extractors can succeed, but it is out of scope of this specification to specify interoperability for Merging back without the full Extractor knowledge of the native format.
the process of changing core and module XLIFF structural and inline elements that were previously created by other Writers
Processing Requirements
XLIFF elements MAY be Modified and Enriched at the same time.
Extractor or Enricher knowledge of the native format is not assumed while Modifying.
an Agent that performs the Modification process
Unless specified otherwise, any Merger is deemed to have the same knowledge of the native format as the Extractor throughout the specification.
Mergers independent of Extractors can succeed, but it is out of scope of this specification to specify interoperability for Merging back without the full Extractor knowledge of the native format.
a rendering of the meaning of the source text, expressed in the target language
an Agent that creates, generates, or otherwise writes an XLIFF Document for whatever purpose, including but not limited to Extractor, Modifier, and Enricher Agents.
Since XLIFF is intended as an exchange format rather than a processing format, many applications will need to generate XLIFF Documents from their internal processing formats, even in cases when they are processing XLIFF Documents created by another Extractor.
The core of XLIFF 2.0 consists of the minimum set of XML elements and attributes required to (a) prepare a document that contains text extracted from one or more files for localization, (b) allow it to be completed with the translation of the extracted text, and (c) allow the generation of Translated versions of the original document.
The XML namespace that corresponds to the core subset of XLIFF 2.0 is
"urn:oasis:names:tc:xliff:document:2.0"
.
The following is the list of allowed schema URN prefixes for XLIFF-defined elements and attributes:
urn:oasis:names:tc:xliff: |
However, the following namespaces are NOT considered XLIFF-defined for the purposes of the XLIFF 2.0 specification:
urn:oasis:names:tc:xliff:document:1.0 |
urn:oasis:names:tc:xliff:document:1.1 |
urn:oasis:names:tc:xliff:document:1.2 |
Elements and attributes from other namespaces are not XLIFF-defined.
any XML document that declares the namespace "urn:oasis:names:tc:xliff:document:2.0"
as
its main namespace, has
<xliff>
as the root element and complies with the XML Schemas and the declared Constraints that are part of this specification.
A module is an OPTIONAL set of XML elements and attributes that stores information about a process applied to an XLIFF Document and the data incorporated into the document as result of that process.
Each official module defined for XLIFF 2.0 has its grammar defined in an independent XML Schema with a separate namespace.
[BCP 47] M. Davis, Tags for Identifying Languages, http://tools.ietf.org/html/bcp47 IETF (Internet Engineering Task Force).
[HTML5] W3C, HTML5. A vocabulary and associated APIs for HTML and XHTML, http://www.w3.org/TR/html5/ W3C Candidate Recommendation 17 December 2012.
[NOTE-datetime] M. Wolf, C. Wicksteed, Date and Time Formats, http://www.w3.org/TR/NOTE-datetime W3C Note, 15th Setember 1997.
[RFC 2119] S. Bradner, Key words for use in RFCs to Indicate Requirement Levels, http://www.ietf.org/rfc/rfc2119.txt IETF (Internet Engineering Task Force) RFC 2119, March 1997.
[UAX #9] M. Davis, UNICODE BIDIRECTIONAL ALGORITHM, http://www.unicode.org/reports/tr9/ Unicode Bidirectional Algorithm.
[UAX #15] M. Davis, K. Whistler, UNICODE NORMALIZATION FORMS, http://www.unicode.org/reports/tr15/ Unicode Normalization Forms.
[Unicode] The Unicode Consortium, The Unicode Standard, http://www.unicode.org/versions/latest/ Mountain View, CA: The Unicode Consortium, 2012.
[XML] W3C, Extensible Markup Language (XML) 1.0, http://www.w3.org/TR/xml/ (Fifth Edition) W3C Recommendation 26 November 2008.
[xml namespace] W3C, Schema document for namespace http://www.w3.org/XML/1998/namespace http://www.w3.org/2001/xml.xsd [http://www.w3.org/2009/01/xml.xsd]. at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/informativeCopiesOf3rdPartySchemas/w3c/xml.xsd in this distribution
[XML Schema Datatypes] W3C, XML Schema Part 2: Datatypes, http://www.w3.org/TR/xmlschema-2/ (Second Edition) W3C Recommendation 28 October 2004.
[ITS] MultilingualWeb-LT WG Internationalization Tag Set (ITS) Version 2.0, 29 October 2013, http://www.w3.org/TR/its20/ W3C Recommendation.
[LDML] Unicode Locale Data Markup Language http://unicode.org/reports/tr35/
[SRX] Segmentation Rules eXchange http://www.gala-global.org/oscarStandards/srx/
[UAX #29] M. Davis, UNICODE TEXT SEGMENTATION, http://www.unicode.org/reports/tr29/ Unicode text Segmentation.
[XML I18N BP] Best Practices for XML Internationalization, 13 February 2008, http://www.w3.org/TR/xml-i18n-bp/ W3C Working Group.
Document Conformance
XLIFF is an XML vocabulary, therefore conformant XLIFF Documents MUST be well formed and valid [XML] documents.
Conformant XLIFF Documents MUST be valid instances of the official Core XML Schema that is part of this XLIFF specification.
As not all aspects of the XLIFF specification can be expressed in terms of XML Schemas, conformant XLIFF Documents MUST also comply with all relevant elements and attributes definitions, normative usage descriptions, and Constraints specified in this specification document.
XLIFF Documents MAY contain custom extensions, as defined in the Extension Mechanisms section.
Application Conformance
XLIFF Writers MUST create conformant XLIFF Documents to be considered XLIFF compliant.
Agents processing conformant XLIFF Documents that contain custom extensions are not REQUIRED to understand and process non-XLIFF elements or attributes. However, conformant applications SHOULD preserve existing custom extensions when processing conformant XLIFF Documents, provided that the elements that contain custom extensions are not removed according to XLIFF Processing Requirements or the extension's own processing requirements.
All Agents MUST comply with Processing Requirements for otherwise unspecified Agents or without a specifically set target Agent.
Specialized Agents defined in this specification - this is Extractor, Merger, Writer, Modifier, and Enricher Agents - MUST comply with the Processing Requirements targeting their specifically defined type of Agent on top of Processing Requirements targeting all Agents as per point c. above.
XLIFF is a format explicitly designed for exchanging data among various Agents. Thus, a conformant XLIFF application MUST be able to accept XLIFF Documents it had written after those XLIFF Documents were Modified or Enriched by a different application, provided that:
The processed files are conformant XLIFF Documents,
in a state compliant with all relevant Processing Requirements.
Backwards Compatibility
Conformant applications are NOT REQUIRED to support XLIFF 1.2 or previous Versions.
Because XLIFF Documents do not follow the usual behavior of XML documents when it comes to element identifiers, this specification defines how Agents MUST interpret the fragment identifiers in IRIs pointing to XLIFF Documents.
Note that some identifiers may change during the localization process. For example <data>
elements may be re-grouped or not depending on how tools treat
identical original data.
Constraints
A fragment identifier MUST match the following format:
<expression> ::= "#" ["/"] <selector> {<selectorSeparator> <selector>} <selector> ::= [<prefix> <prefixSeparator>] <id> <prefix> ::= NMTOKEN <id> ::= NMTOKEN <prefixSeparator> ::= "=" <selectorSeparator> ::= "/"
There MUST NOT be two identical prefixes in the expression.
When used, the following selectors MUST be declared in this order: file selector, group selector and unit selector.
The selectors for modules or extensions, <note>
, <segment>
or <ignorable>
or source inline elements, target inline elements and
<data>
have the following constraints:
Only one of them MAY be used in the expression.
The one used MUST be the last selector of the expression.
Please note that due to the above Constraints, referencing fragments using third party namespaces within Modules or extensions (including but not limited to XLIFF Core or the Metadata Module) is not possible. This is to restrict the complexity of the fragment identification mechanism, as it would otherwise have potentially unlimited depth.
The prefix f
indicates a <file>
id and the value of that id is unique among all <file>
id
attribute values within the enclosing <xliff>
element.
The prefix g
indicates a <group>
id and the value of that id is unique among all <group>
id
attribute values within the enclosing <file>
element.
The prefix u
indicates a <unit>
id and the value of that id is unique among all <unit>
id
attribute values within the enclosing <file>
element.
The prefix n
indicates a <note>
id and the value of that id is unique among all <note>
id
attribute values within the immediate enclosing
<file>
,
<group>
, or
<unit>
element.
The prefix d
indicates a <data>
id and the value of that id is unique among all <data>
id
attribute values within the enclosing
<unit>
element.
The prefix t
indicates an id for an inline element in the <target>
element and the value of that id is unique within the
enclosing <unit>
element (with the exception of the matching inline elements in the <source>
).
No prefix indicates an id for a <segment>
or an <ignorable>
or an inline element in the <source>
element and the value of that id
is unique within the enclosing <unit>
element (with the exception of the matching inline elements in the <target>
).
A selector for a module or an extension uses a registered prefix and the value of that id is unique within the immediate enclosing
<file>
,
<group>
or <unit>
element.
Constraints
The prefix of a module or an extension MUST be an NMTOKEN longer than 1 character and MUST be defined in the module or extension specification.
The prefix of a module or an extension MUST be registered with the XLIFF TC.
A given module or extension namespace URI MUST be associated with a single prefix.
A prefix MAY be associated with more than one namespace URI (to allows for example different versions of a given module or extension to use the same prefix).
See also the constraints related to how IDs need to be specified in extensions (which applies for modules as well).
Fragment identifiers that do not start with a character /
(U+002F) are relative to their location in the document,
or to the document being processed.
Any unit, group or file selector missing to resolve the relative reference is obtained from the immediate enclosing unit, group or file elements.
XLIFF is a bilingual document format designed for containing text that needs Translation, its corresponding translations and auxiliary data that makes the Translation process possible.
At creation time, an XLIFF file MAY contain only text in the source language. Translations expressed in the target language MAY be added at a later time.
The root element of an XLIFF document is <xliff>
. It contains a
collection of <file>
elements. Each <file>
element contains a set
of <unit>
elements that contain
the text to be translated in the <source>
child of one or
more <segment>
elements.
Translations are stored in the <target>
child of each
<segment>
element.
An Agent processing a valid XLIFF Document that contains XLIFF-defined elements and attributes that it cannot handle MUST preserve those elements and attributes.
An Agent processing a valid XLIFF Document that contains custom elements and attributes that it cannot handle SHOULD preserve those elements and attributes.
This section contains a description of all elements used in XLIFF 2.0.
Legend:
+ = one or more |
? = zero or one |
* = zero, one or more |
<xliff>
| +---<file>
+ | +---<skeleton>
? | | | +---<any> * | +---<any> * | +---<notes>
? | | | +---<note>
+ | +---At least one of (<unit>
or<group>
)
The structural elements used in XLIFF 2.0 are:
<xliff>
,
<file>
,
<skeleton>
,
<group>
,
<unit>
,
<segment>
,
<ignorable>
,
<notes>
,
<note>
,
<originalData>
,
<data>
,
<source>
and <target>
.
Root element for XLIFF documents.
Contains:
- One or more <file>
elements |
Attributes:
- version , REQUIRED |
- srcLang , REQUIRED |
- trgLang , OPTIONAL |
- xml:space , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The trgLang
attribute is REQUIRED
if and only if the XLIFF Document contains <target>
elements that are children
of <segment>
or <ignorable>
.
Container for localization material extracted from an entire single document, or another high level self contained logical node in a content structure that cannot be described in the terms of documents.
Sub-document artifacts such as particular sheets, pages, chapters and similar are better
mapped onto the <group>
element. The
<file>
element is intended for the highest logical level. For
instance a collection of papers would map to a single XLIFF
Document, each paper will be represented with one <file>
element, whereas chapters and subsections will map onto nested
<group>
elements.
Contains:
- Zero or one <skeleton> element
followed by |
- Zero, one or more elements from other namespaces. |
- Zero or one
<notes>
element followed by |
- One or more <unit> or <group> elements in any order. |
Attributes:
- id ,
REQUIRED |
- canResegment , OPTIONAL |
- original , OPTIONAL |
- translate , OPTIONAL |
- srcDir , OPTIONAL |
- trgDir , OPTIONAL |
- xml:space , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The following XLIFF Module elements are explicitly allowed by the wildcard other
:
- Zero or one <ctr:changeTrack>
elements |
- Zero or one <mda:metadata> elements |
- Zero, one or more <res:resourceData>
elements |
- Zero or one <slr:profiles>
elements |
- Zero or one <slr:data> elements |
- Zero or one <val:validation>
elements |
Module and Extension elements MAY be used in any order.
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs , OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
Container for untranslatable material pertaining to the parent
<file>
element.
Contains:
Either
- Untranslatable text |
- XML elements from any namespace |
or
- is empty. |
Attributes:
- href , OPTIONAL |
Constraints
The attribute href
is REQUIRED if and only if the
<skeleton>
element is empty.
Processing Requirements
Modifiers and Enrichers processing
an XLIFF Document that contains a <skeleton>
element MUST NOT change those elements.
Extractors creating an XLIFF Document with a <skeleton>
element
MUST leave the <skeleton>
element empty if and only if they specify
the attribute href
.
Provides a way to organize units into a structured hierarchy.
Note that this is especially useful for mirroring a source format's hierarchical structure.
Contains:
- Zero, one or more elements from other namespaces. |
- Zero or one
<notes>
element followed by |
- Zero, one or more
<unit>
or <group>
elements in any order. |
Attributes:
- id , REQUIRED |
- name , OPTIONAL |
- canResegment , OPTIONAL |
- translate , OPTIONAL |
- srcDir , OPTIONAL |
- trgDir , OPTIONAL |
- type , OPTIONAL |
- xml:space , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The following XLIFF Module elements are explicitly allowed
by the wildcard other
:
- Zero or one <ctr:changeTrack>
elements |
- Zero or one <mda:metadata>
elements |
- Zero or one <slr:data> elements |
- Zero or one <val:validation>
elements |
Module and Extension elements MAY be used in any order.
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs , OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
Static container for a dynamic structure of elements holding the extracted translatable source text, aligned with the Translated text.
Contains:
- Zero, one or more elements from other namespaces. |
- Zero or one
<notes>
elements followed by |
- Zero or one
<originalData>
element followed by |
- One or more
<segment>
or <ignorable>
elements in any order. |
Attributes:
- id , REQUIRED |
- name , OPTIONAL |
- canResegment , OPTIONAL |
- translate , OPTIONAL |
- srcDir , OPTIONAL |
- trgDir , OPTIONAL |
- xml:space , OPTIONAL |
- type , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The following XLIFF Module elements are explicitly allowed
by the wildcard other
:
- Zero or one <ctr:changeTrack>
elements |
- Zero or one
<mtc:matches>
elements |
- Zero or one
<gls:glossary>
elements |
- Zero or one <mda:metadata>
elements |
- Zero or one <res:resourceData>
elements |
- Zero or one <slr:data>
elements |
- Zero or one <val:validation>
elements |
Module and Extension elements MAY be used in any order.
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs , OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
This element is a container to hold in its aligned pair of children elements the minimum portion of translatable source text and its Translation in the given Segmentation.
Contains:
- One <source> element followed
by |
- Zero or one <target> element |
Attributes:
- id , OPTIONAL |
- canResegment , OPTIONAL |
- state , OPTIONAL |
- subState , OPTIONAL |
Part of the extracted content that is not included in a segment (and therefore not
translatable). For example tools can use <ignorable>
to store the white
space and/or codes that are between two segments.
Contains:
- One <source> element
followed by |
- Zero or one <target> element |
Attributes:
- id , OPTIONAL |
This is an XLIFF specific way how to present end user readable comments and annotations. A
note can contain information about <source>
, <target>
, <unit>
, <group>
, or <file>
elements.
Contains:
- Text |
Attributes:
- id , OPTIONAL |
- appliesTo , OPTIONAL |
- category , OPTIONAL |
- priority , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Storage for the original data of an inline code.
Contains:
- Untranslatable text |
- Zero, one or more <cp> elements. |
Untranslatable text and <cp>
elements MAY appear in any
order.
Attributes:
- id , REQUIRED |
- dir , OPTIONAL |
- xml:space , OPTIONAL, the value is restricted
to preserve on this element |
Portion of text to be translated.
Contains:
- Text |
- Zero, one or more <cp> elements |
- Zero, one or more <ph> elements |
- Zero, one or more <pc> elements |
- Zero, one or more <sc> elements |
- Zero, one or more <ec> elements |
- Zero, one or more <mrk> elements |
- Zero, one or more <sm> elements |
- Zero, one or more <em> elements |
Text and inline elements may appear in any order.
Attributes:
- xml:lang , OPTIONAL |
- xml:space , OPTIONAL |
The translation of the sibling <source>
element.
Contains:
- Text |
- Zero, one or more <cp> elements |
- Zero, one or more <ph> elements |
- Zero, one or more <pc> elements |
- Zero, one or more <sc> elements |
- Zero, one or more <ec> elements |
- Zero, one or more <mrk> elements |
- Zero, one or more <sm> elements |
- Zero, one or more <em> elements |
Text and inline elements may appear in any order.
Attributes:
- xml:lang , OPTIONAL |
- xml:space , OPTIONAL |
- order , OPTIONAL |
Constraints
When a <target>
element is a child of
<segment>
or
<ignorable>
and the OPTIONAL
xml:lang
attribute is present, its value MUST be equal to the value of the
trgLang
attribute of the enclosing
<xliff>
element.
When a <target>
child is
added to a <segment>
element,
the value of its xml:space
attribute
MUST be set to preserve
if the xml:space
attribute of the sibling <source>
element is
set to preserve
.
The inline elements at the <source>
or <target>
level are: <cp>
,
<ph>
, <pc>
,
<sc>
, <ec>
,
<mrk>
, <sm>
and <em>
.
The elements at the <unit>
level directly related
to inline elements are: <originalData>
and
<data>
.
Represents a Unicode character that is invalid in XML.
Contains:
This element is always empty. |
Parents:
<data> , <mrk> ,
<source> , <target> and <pc> |
Attributes:
- hex , REQUIRED |
Example:
<unit id="1"> <segment> <source>Ctrl+C=<cp hex="0003"/></source> </segment> </unit>
The example above shows a character U+0003 (Control C) as it has to be represented in XLIFF.
Represents a standalone code of the original format.
Contains:
This element is always empty. |
Parents:
<source> , <target> , <pc> and
<mrk> |
Attributes:
- canCopy , OPTIONAL |
- canDelete , OPTIONAL |
- canReorder , OPTIONAL |
- copyOf , OPTIONAL |
- disp , OPTIONAL |
- equiv , OPTIONAL |
- id , REQUIRED. |
- dataRef , OPTIONAL |
- subFlows , OPTIONAL |
- subType , OPTIONAL |
- type , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Example:
<unit id="1"> <originalData> <data id="d1">%d</data> <data id="d2"><br/></data> </originalData> <segment> <source>Number of entries: <ph id="1" dataRef="d1" /> <ph id="2" dataRef="d2"/>(These entries are only the ones matching the current filter settings)</source> </segment> </unit>
Constraints
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs ,
OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:equivStorage , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
No other attributes MUST be used.
Represents a well-formed spanning original code.
Contains:
- Text |
- Zero, one or more <cp> elements |
- Zero, one or more <ph> elements |
- Zero, one or more <pc> elements |
- Zero, one or more <sc> elements |
- Zero, one or more <ec> elements |
- Zero, one or more <mrk> elements |
- Zero, one or more <sm> elements |
- Zero, one or more <em> elements |
Text and inline elements may appear in any order.
Parents:
<source> , <target> , <pc> and <mrk> |
Attributes:
- canCopy , OPTIONAL |
- canDelete , OPTIONAL |
- canOverlap , OPTIONAL |
- canReorder , OPTIONAL |
- copyOf , OPTIONAL |
- dispEnd , OPTIONAL |
- dispStart , OPTIONAL |
- equivEnd , OPTIONAL |
- equivStart , OPTIONAL |
- id , REQUIRED |
- dataRefEnd , OPTIONAL |
- dataRefStart , OPTIONAL |
- subFlowsEnd ,
OPTIONAL |
- subFlowsStart ,
OPTIONAL |
- subType , OPTIONAL |
- type , OPTIONAL |
- dir , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Example:
<unit id="1"> <originalData> <data id="1"><B></data> <data id="2"></B></data> </originalData> <segment><pc id="1" dataRefStart="1" dataRefEnd="2">Important</pc> text</source> </segment> </unit>
Constraints
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs ,
OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
- slr:equivStorage , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
No other attributes MUST be used.
Processing Requirements
Extractors
MUST NOT use the <pc>
element to represent standalone codes.
Rationale: Using a spanning code for a standalone code can easily result in having text inside a span where the original format does not allow it.
Start of a spanning original code.
Contains:
This element is always empty. |
Parents:
<source> , <target> , <pc> and
<mrk> |
Attributes:
- canCopy , OPTIONAL |
- canDelete , OPTIONAL |
- canOverlap , OPTIONAL |
- canReorder , OPTIONAL |
- copyOf , OPTIONAL |
- dataRef , OPTIONAL |
- dir , OPTIONAL |
- disp , OPTIONAL |
- equiv , OPTIONAL |
- id , REQUIRED |
- isolated , OPTIONAL |
- subFlows , OPTIONAL |
- subType , OPTIONAL |
- type , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Example:
<unit id="1"> <segment> <source><sc id="1" type="fmt" subType="xlf:b"/>First sentence. </source> </segment> <segment> <source>Second sentence.<ec startRef="1" type="fmt" subType="xlf:b"/></source> </segment> </unit>
Constraints
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs ,
OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
- slr:equivStorage , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
No other attributes MUST be used.
The values of the attributes canCopy
, canDelete
, canReorder
and canOverlap
MUST be the same as the values the ones in the <ec>
element
corresponding to this start code.
The attribute isolated
MUST be set to
yes
if and only if the <ec>
element corresponding to
this start marker is not in the same <unit>
, and set to
no
otherwise.
End of a spanning original code.
Contains:
This element is always empty. |
Parents:
<source> , <target> , <pc> and
<mrk> |
Attributes:
- canCopy , OPTIONAL |
- canDelete , OPTIONAL |
- canOverlap , OPTIONAL |
- canReorder , OPTIONAL |
- copyOf , OPTIONAL |
- dataRef , OPTIONAL |
- dir , OPTIONAL |
- disp , OPTIONAL |
- equiv , OPTIONAL |
- id , OPTIONAL |
- isolated , OPTIONAL |
- startRef , OPTIONAL |
- subFlows , OPTIONAL |
- subType , OPTIONAL |
- type , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Example:
<unit id="1"> <originalData> <data id="d1">\b </data> <data id="d2">\i </data> <data id="d3">\b0 </data> <data id="d4">\i0 </data> </originalData> <segment> <source>Text in <sc id="1" dataRef="d1"/>bold <sc id="2" dataRef="d2"/> and<ec startRef="1" dataRef="d3"/> italics<ec startRef="2" dataRef="d4"/>.</source> </segment> </unit>
Constraints
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs ,
OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:equivStorage , OPTIONAL |
- slr:sizeInfo , OPTIONAL |
- slr:sizeInfoRef , OPTIONAL |
No other attributes MUST be used.
The values of the attributes canCopy
, canDelete
and canOverlap
MUST be the same
as the values the ones in the <sc>
element corresponding to
this end code.
The value of the attribute canReorder
MUST be no
if the value of canReorder
is firstNo
in the <sc>
element corresponding to
this end code.
The attribute isolated
MUST be set to yes
if and only if the <sc>
element
corresponding to this end code is not in the same <unit>
and set to no
otherwise.
If and only if the attribute isolated
is set to yes
, the
attribute id
MUST be used instead of the attribute startRef
that MUST be used otherwise.
If and only if the attribute isolated
is set to yes
, the attribute dir
MAY be used, otherwise the attribute dir
MUST NOT be used on the <ec>
element.
Represents an annotation pertaining to the marked span.
Contains:
- Text |
- Zero, one or more <cp> elements |
- Zero, one or more <ph> elements |
- Zero, one or more <pc> elements |
- Zero, one or more <sc> elements |
- Zero, one or more <ec> elements |
- Zero, one or more <mrk> elements |
- Zero, one or more <sm> elements |
- Zero, one or more <em> elements |
Text and inline elements may appear in any order.
Parents:
<source> , <target> , <pc> and
<mrk> |
Attributes:
- id , REQUIRED |
- translate , OPTIONAL |
- type , OPTIONAL |
- ref , OPTIONAL |
- value , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The [xml namespace] MUST NOT be used at this extension point.
The following XLIFF Module attributes are explicitly
allowed by the wildcard other
:
- fs:fs ,
OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction , OPTIONAL |
- slr:sizeRestriction , OPTIONAL |
See the Annotations section for more details and
examples on how to use the <mrk>
element.
Start marker of an annotation where the spanning marker cannot be used for wellformedness reasons.
Contains:
This element is always empty. |
Parents:
<source> , <target> , <pc> and
<mrk> |
Attributes:
- id , REQUIRED |
- translate , OPTIONAL |
- type , OPTIONAL |
- ref , OPTIONAL |
- value , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The [xml namespace] MUST NOT be used at this extension point.
The following XLIFF Module attributes are explicitly allowed by
the wildcard other
:
- fs:fs , OPTIONAL |
- fs:subFs , OPTIONAL |
- slr:storageRestriction ,
OPTIONAL |
- slr:sizeRestriction ,
OPTIONAL |
See the Annotations section for more details and
examples on how to use the <sm>
element.
This section lists all the various attributes used in XLIFF core elements.
The attributes defined in XLIFF 2.0 are: appliesTo
,
canCopy
,
canDelete
,
canOverlap
,
canReorder
,
canResegment
,
category
,
copyOf
,
dataRef
,
dataRefEnd
,
dataRefStart
,
dir
,
disp
,
dispEnd
,
dispStart
,
equiv
,
equivEnd
,
equivStart
,
hex
,
href
,
id
,
isolated
,
name
,
order
,
original
,
priority
,
ref
,
srcDir
,
srcLang
,
startRef
,
state
,
subFlows
,
subFlowsEnd
,
subFlowsStart
,
subState
,
subType
,
trgLang
,
translate
,
trgDir
,
type
,
value
and version
.
Comment target - indicates the element to what the content of the note applies.
Value description: source
or target
.
Default value: undefined.
Used in: <note>
.
Replication editing hint - indicates whether or not the inline code can be copied.
Value description:
yes
if the code can be copied, no
if the code is not intended to
be copied.
Default value: yes
.
Deletion editing hint - indicates whether or not the inline code can be deleted.
Value description:
yes
if the code can be deleted, no
if the code is not allowed to
be deleted.
Default value: yes
.
Code can overlap - indicates whether or not the spanning code where this attribute is used can enclose partial spanning codes (i.e. a start code without its corresponding end code, or an end code without its corresponding start code).
Value description: yes
or
no
.
Default value: the default value for this attribute depends on the element in which it is used:
Example:
<unit id="1"> <originalData> <data id="1">\i1 </data> <data id="2">\i0 </data> <data id="3">{\b </data> <data id="4">}</data> </originalData> <segment> <source><pc id="1" dataRefStart="3" dataRefEnd="4" canOverlap="no"/>Bold, <sc id="2" dataRef="1" canOverlap="yes"/>both</pc>, italics<ec startRef="2" dataRef="2"/></source> </segment> </unit>
Re-ordering editing hint - indicates whether or not the inline code can be re-ordered. See Editing Hints section for more details.
Value description:
yes
in case the code can be re-ordered, firstNo
when the code is the
first element of a sequence that cannot be re-ordered, no
when it is another
element of such a sequence.
Default value: yes
.
Can resegment - indicates whether or not the source text in the scope of the given
canResegment
flag can be reorganized into a different structure of <segment>
elements within the same parent <unit>
.
Value description: yes
or no
.
Default value: default values for this attribute depend on the element in which it is used:
When used in <file>
:
The value yes
.
When used in any other element:
The value of the canResegment
attribute of its parent element.
Category - provides a way to categorize notes.
Value description: Text.
Default value: undefined
Used in: <note>
.
Reference to base code - holds the id
of the base code of a copied code.
Value description: NMTOKEN. The id
value of the base
code of which this code is a copy.
Default value: undefined
Used in: <ph>
, <pc>
, <sc>
, <ec>
.
Example:
<unit id="1"> <segment> <source>Äter <pc id="1">katter möss</pc>?</source> <target>Do <pc id="1">cats</pc> eat <pc id="2" copyOf="1">mice</pc>?</target> </segment> </unit>
Original data reference - holds the identifier of the <data>
element that contains the original data for a given inline code.
Value description: An [XML Schema Datatypes] NMTOKEN that
MUST be the value of the id
attribute of
one of the <data>
element listed in the
same <unit>
element.
Default value: undefined.
Example:
<unit id="1"> <originalData> <data id="d1">{0}</data> </originalData> <segment> <source>Error in '<ph id="1" dataRef="d1"/>'.</source> <target>Erreur dans '<ph id="1" dataRef="d1"/>'.</target> </segment> </unit>
The example above shows a <ph>
element that has its original
data stored outside the content, in a <data>
element.
Original data reference - holds the identifier of the <data>
element that contains the original data for the end marker of a given inline code.
Value description: An [XML Schema Datatypes] NMTOKEN that MUST be
the value of the id
attribute of one of the <data>
element listed in the
same <unit>
element.
Default value: undefined.
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1"><EM></data> <data id="d2"></EM></data> </originalData> <segment> <source><pc id="1" dataRefStart="d1" dataRefEnd="d2">Efficiency<pc> is the operative word here.</source> <target><pc id="1" dataRefStart="d1" dataRefEnd="d2">Efficacité<pc> est le mot clé ici.</target> </segment> </unit>
The example above shows two <pc>
elements with their original
data stored outside the content, in two <data>
elements.
Original data reference - holds the identifier of the <data>
element that contains the original data for the start marker of a given inline code.
Value description: An [XML Schema Datatypes] NMTOKEN that MUST be
the value of the id
attribute of one of the <data>
element listed in the
same <unit>
element.
Default value: undefined.
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1"><EM></data> <data id="d2"></EM></data> </originalData> <segment> <source><pc id="1" dataRefStart="d1" dataRefEnd="d2">Efficiency</pc> is the operative word here.</source> <target><pc id="1" dataRefStart="d1" dataRefEnd="d2">Efficacité</pc> est le mot clé ici.</target> </segment> </unit>
The example above shows two <pc>
elements with their original
data stored outside the content, in two <data>
elements.
Directionality - indicates the directionality of content.
Value description:
ltr
(Left-To-Right), rtl
(Right-To-Left), or auto
(determined heuristically, based on the first strong directional character in scope, see [UAX #9]).
Default value: default values for this attribute depend on the element in which it is used:
When used in a <pc>
, <sc>
, or <ec>
element that has a <source>
element as its parent:
The value of the srcDir
attribute of the <unit>
element, in which the elements are located.
When used in a <pc>
, <sc>
, or <ec>
element that has a <target>
element as its parent:
The value of the trgDir
attribute of the <unit>
element, in which the elements are located.
When used in a <pc>
, <sc>
, or <ec>
element that has a <pc>
element as its parent:
When used in <data>
:
The value auto
.
Display text - holds an alternative user-friendly display representation of the original data of the inline code.
Value description: Text
Default value: undefined
Example:
<unit id="1"> <originalData> <data id="d1">{1}</data> </originalData> <segment> <source>Welcome back <ph id="1" disp="[UserName]" dataRef="d1"/>!</source> </segment> </unit>
To provide a plain text equivalent of the code, use the equiv
attribute.
Display text - holds an alternative user-friendly display representation of the original data of the end marker of an inline code.
Value description: Text
Default value: undefined
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1">\cf1\ul\b\f1\fs24 </data> <data id="d2">\cf0\ulnone\b0\f0\fs22 </data> </originalData> <segment> <source>Example of <pc id="1" dataRefStart="d1" dataRefEnd="d2" dispStart="<span>" dispEnd="</span>">formatted text</pc>.</source> </segment> </unit>
In the example above, the dispStart
and dispEnd
attributes provide a more user-friendly representation of the original
formatting codes.
To provide a plain text equivalent of the code, use the equivEnd
attribute.
Display text - holds an alternative user-friendly display representation of the original data of the start marker of an inline code.
Value description: Text
Default value: undefined
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1">\cf1\ul\b\f1\fs24 </data> <data id="d2">\cf0\ulnone\b0\f0\fs22 </data> </originalData> <segment> <source>Example of <pc id="1" dataRefStart="d1" dataRefEnd="d2" dispStart="<span>" dispEnd="</span>">formatted text</pc>.</source> </segment> </unit>
In the example above, the dispStart
and dispEnd
attributes provide a more user-friendly representation of the original
formatting codes.
To provide a plain text equivalent of the code, use the equivStart
attribute.
Equivalent text - holds a plain text representation of the original data of the inline code that can be used when generating a plain text representation of the content.
Value description: Text
Default value: an empty string.
Example:
<unit id="1"> <originalData> <data id="d1">&</data> </originalData> <segment> <source>Open <ph id="1" equiv="" dataRef="d1"/>File</source> </segment> </unit>
In this example the equiv
attribute of the <ph>
element is used to indicate
that the original data of the code can be ignored in the text representation
of the string. This could, for instance, help a spell-checker tool to
process the content as "Open File".
To provide a user-friendly representation, use the disp
attribute.
Equivalent text - holds a plain text representation of the original data of the end marker of an inline code that can be used when generating a plain text representation of the content.
Value description: Text
Default value: an empty string
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1"><span class="link" onclick="linkTo('dbId5345')"></data> <data id="d2"></span></data> </originalData> <segment> <source>The jam made of <pc id="1" dataRefStart="d1" equivStart="" dataRefEnd="d2" equivEnd="">lingonberries</pc> is quite tasty.</source> </segment> </unit>
To provide a user-friendly representation, use the dispEnd
attribute.
Equivalent text - holds a plain text representation of the original data of the start marker of an inline code that can be used when generating a plain text representation of the content.
Value description: Text
Default value: an empty string
Used in: <pc>
.
Example:
<unit id="1"> <originalData> <data id="d1"><span class="link" onclick="linkTo('dbId5345')"></data> <data id="d2"></span></data> </originalData> <segment> <source>The jam made of <pc id="1" dataRefStart="d1" equivStart="" dataRefEnd="d2" equivEnd="">lingonberries</pc> is quite tasty.</source> </segment> </unit>
To provide a user-friendly representation, use the dispStart
attribute.
Hexadecimal code point - holds the value of a Unicode code point that is invalid in XML.
Value description: A canonical representation of the hexBinary [XML Schema Datatypes] data type: Two hexadecimal digits to represent each octet of the Unicode code point. The allowed values are any of the values representing code points invalid in XML, between hexadecimal 0000 and 10FFFF (both included).
Default value: undefined
Used in: <cp>
.
Example:
<cp hex="001A"/><cp hex="0003"/>
The example above shows a character U+001A and a character U+0003 as they have to be represented in XLIFF.
href - a pointer to the location of an external skeleton file pertaining to the
enclosing <file>
element..
Value description: IRI.
Default value: undefined
Used in: <skeleton>
.
Identifier - a character string used to identify an element.
Value description: NMTOKEN. The scope of the values for this attribute depends on the element, in which it is used.
When used in a <file>
element:
The value MUST be unique among all <file>
id
attribute values within the enclosing <xliff>
element.
When used in <group>
elements:
The value MUST be unique among all <group>
id
attribute values within the enclosing <file>
element.
When used in <unit>
elements:
The value MUST be unique among all <unit>
id
attribute values within the enclosing <file>
element.
When used in <note>
elements:
The value MUST be unique among all <note>
id
attribute values within the immediate enclosing
<file>
,
<group>
, or
<unit>
element.
When used in <data>
elements:
The value MUST be unique among all <data>
id
attribute values within the enclosing
<unit>
element.
When used in
<segment>
,
<ignorable>
,
<mrk>
,
<sm>
,
<pc>
,
<sc>
,
<ec>
,
or <ph>
elements:
The inline elements enclosed by a <target>
element MUST use the duplicate id
values
of their corresponding inline elements enclosed within the sibling <source>
element if and only if those corresponding elements exist.
Except for the above exception, the value MUST be unique among all of the above within the
enclosing <unit>
element.
Default value: undefined
Used in: <file>
,
<group>
,
<unit>
,
<note>
,
<segment>
, <ignorable>
, <data>
, <sc>
, <ec>
, <ph>
, <pc>
, <mrk>
and <sm>
.
Orphan code flag - indicates if the start or end marker of a spanning inline code is not in
the same <unit>
as its corresponding end or start code.
Value description:
yes
if this start or end code is not in the same <unit>
as its corresponding end or start code, no
if both codes are in the same <unit>
.
Default value: no
Example:
<unit id="1"> <segment> <source><pc id="1">Warning: File not found.</pc></source> </segment> <mtc:matches> <mtc:match> <source><sc id="1" isolated="yes"/>Warning:</source> <target><sc id="1" isolated="yes"/>Attention :</target> </mtc:match> </match> </unit>
In the example above the <sc>
elements have their isolated
attribute set to yes
because they do not have their
corresponding <ec>
elements.
Resource name - the original identifier of the resource corresponding to the
Extracted
<unit>
or <group>
.
For example: the key in the key/value pair in a Java properties file, the ID of a string in a Windows string table, the index value of an entry in a database table, etc.
Value description: Text string.
Default value: undefined.
target order - indicates the order, in which to compose the target content parts.
Value description: A positive integer.
Default value: undefined
Used in: <target>
.
See the Segments Order section for the normative usage description.
Original file - a pointer to the location of the original document from which the content
of the enclosing <file>
element is extracted.
Value description: IRI.
Default value: undefined
Used in: <file>
.
Priority - provides a way to prioritize notes.
Value description: Integer 1-10.
Default value: 1
Used in: <note>
.
Please note that 1 is the highest priority that can be interpreted as an alert, e.g. an [ITS] Localization Note of the type alert. The best practice is to use only one alert per an annotated element, and the full scale of 2-10 can be used for prioritizing notes of lesser importance than the alert.
Reference - holds a reference for the associated annotation.
Value description: A value of the [XML Schema Datatypes] type anyURI. The semantics of the value depends on the type of annotation:
When used in a term annotation, the URI value is referring to an resource providing information about the term.
When used in a translation candidates annotation, the URI value is referring to an external resource providing information about the translation candidate.
When used in a comment annotation, the value is referring to a <note>
element within the same enclosing <unit>
.
When used in a custom annotation, the value is defined by each custom annotation.
Default value: undefined
Example:
<unit id="1"> <segment> <source>The <pc id="1">ref</pc> attribute of a term annotation holds a <mrk id="m1" type="term" ref="http://dbpedia.org/page/Uniform_Resource_Identifier">URI</mrk> pointing to more information about the given term.</source> </segment> </unit>
Source directionality - indicates the directionality of the source content.
Value description:
ltr
(Left-To-Right), rtl
(Right-To-Left), , or auto
(determined heuristically, based on the first strong directional character in scope, see [UAX #9]).
Default value: default values for this attribute depend on the element, in which it is used:
Source language - the code of the language, in which the text to be Translated is expressed.
Value description: A language code as described in [BCP 47].
Default value: undefined
Used in: <xliff>
.
Start code or marker reference - The id
of the <sc>
element or the <sm>
element a given <ec>
element
or <em>
element corresponds.
Value description: NMTOKEN.
Default value: undefined
Example:
<unit id="1"> <segment> <source><sc id="1"/>Bold, <sc id="2"/>both<ec startRef="1"/>, italics<ec startRef="2"/></source> </segment> </unit>
State - indicates the state of the translation of a segment.
Value description: The value MUST be set to one of the following values:
initial - indicates the segment is in its initial state. |
translated - indicates the segment has been translated. |
reviewed - indicates the segment has been reviewed. |
final - indicates the segment is finalized and ready to be used. |
One can further specify the state of the Translation using the subState
attribute.
Default value: initial
Used in: <segment>
Sub-flows list - holds a list of id
attributes corresponding to the <unit>
elements that contain the sub-flows for a given inline code.
Value description: A list of NMTOKEN values
separated by spaces. Each value corresponds to the id
attribute of a <unit>
element.
Default value: undefined
Example:
See the example in the Sub-Flows section.
Sub-flows list - holds a list of id
attributes corresponding to the <unit>
elements that contain the sub-flows for the end marker of a given inline code.
Value description: A list of NMTOKEN values
separated by spaces. Each value corresponds to the id
attribute of a <unit>
element.
Default value: undefined
Used in: <pc>
.
Example:
See the example in the Sub-Flows section.
Sub-flows list - holds a list of id
attributes corresponding to the <unit>
elements that contain the sub-flows for the start marker of a given inline code.
Value description: A list of NMTOKEN values
separated by spaces. Each value corresponds to the id
attribute of a <unit>
element.
Default value: undefined
Used in: <pc>
.
Example:
See the example in the Sub-Flows section.
subState - indicates a user-defined status for the <segment>
element.
Value description:
The value is composed of a prefix and a sub-value separated by a
character :
(U+003A).
The prefix is a string uniquely identifying a collection of values for a specific authority. The sub-value is any string value defined by an authority.
The prefix xlf
is reserved for this specification.
Other prefixes and sub-values MAY be defined by the users.
Default value: undefined
Used in: <segment>
subType - indicates the secondary level type of an inline code.
Value description:
The value is composed of a prefix and a sub-value separated by a
character :
(U+003A).
The prefix is a string uniquely identifying a collection of values for a specific authority. The sub-value is any string value defined by the authority.
The prefix xlf
is reserved for this specification, and
the following sub-values are defined:
xlf:lb - Line break |
xlf:pb - Page break |
xlf:b - Bold |
xlf:i - Italics |
xlf:u - Underlined |
xlf:var - Variable |
Other prefixes and sub-values MAY be defined by the users.
Default value: undefined
Used in: <pc>
, <sc>
, <ec>
and <ph>
Constraints
If the attribute subType
is used, the attribute type
MUST be specified as well.
The reserved xlf:
prefixed values map onto the type
attribute values as follows:
For xlf:b , xlf:i , xlf:u ,
xlf:lb , and xlf:pb , the REQUIRED value of
the type attribute is
fmt . |
For xlf:var , the REQUIRED value of the type attribute is
ui . |
Target language - the code of the language, in which the Translated text is expressed.
Value description: A language code as described in [BCP 47].
Default value: undefined
Used in: <xliff>
.
Translate - indicates whether or not the source text in the scope of the given translate
flag is intended
for Translation.
Value description: yes
or no
.
Default value: default values for this attribute depend on the element in which it is used:
When used in <file>
:
The value yes
.
When used in any other admissible structural element:
The value of the translate
attribute of its parent element.
When used in annotations markers
<mrk>
or
<sm>
:
The value of the translate
attribute of the innermost <mrk>
or <unit>
element, in which the marker in question is located.
Target directionality - indicates the directionality of the target content.
Value description:
ltr
(Left-To-Right), rtl
(Right-To-Left), or auto
(determined heuristically, based on the first strong directional character in scope, see [UAX #9]).
Default value: default values for this attribute depend on the element in which it is used:
Type - indicates the type of an element.
Value description: allowed values for this attribute depend on the element, in which it is used.
When used in <pc>
, <sc>
, <ec>
or <ph>
:
The value MUST be set to one of the following values:
fmt - Formatting (e.g. a <b> element in
HTML) |
ui - User interface element |
quote - Inline quotation (as opposed to a block citation) |
link - Link (e.g. an <a> element in
HTML) |
image - Image or graphic |
other - Type of element not covered by any of the
other top-level types. |
Example:
<segment> <source xml:lang="cs"><pc type="quote">Blázen, chce dobýt točnu v takovém počasí</pc>, dodal slovy svého oblíbeného imaginárního autora.</source> <target xml:lang="en"><pc type="quote">Madman, he wants to conquer the pole in this weather</pc>, offered he the words of his favourite imaginary playwright.</source> </segment>
One can further specify the type of a code using the subType
attribute.
Default value: Undefined
One of the following values: generic
, comment
,
term
, or a user-defined value that is composed of a prefix and a value
separated by a character :
(U+003A).
Default value: generic
Value - holds a value for the associated annotation.
Value description: Text.
When used in a term annotation, the value is a definition of the term.
When used in a comment annotation, the value is the text of the comment.
When used in a custom annotation, the value is defined by each custom annotation.
Default value: undefined
XLIFF Version - is used to specify the Version of the XLIFF Document. This corresponds to the Version number of the XLIFF specification that the XLIFF Document adheres to.
Value description: Text.
Default value: 2.0
Used in: <xliff>
.
The attributes from XML namespace used in XLIFF 2.0 are xml:lang and xml:space.
Language - the xml:lang attribute specifies the language variant of the text of a given
element. For example: xml:lang="fr-FR"
indicates the French language as spoken
in France.
Value description: A language code as described in [BCP 47].
Default value: default values for this attribute depend on the element in which it is used:
White spaces - the xml:space attribute specifies how white spaces (ASCII spaces, tabs and line-breaks) are to be treated.
Value description:
default
or preserve
. The value default
signals that
an application's default white-space processing modes are acceptable for this element; the
value preserve
indicates the intent that applications preserve all the white
space. This declared intent is considered to apply to all elements within the content of the
element where it is specified, unless overridden with another instance of the xml:space
attribute. For more information see the section on xml:space in the [XML] specification.
Default value: default values for this attribute depend on the element in which it is used:
CDATA sections (<![CDATA[...]]>
) are allowed in
XLIFF content, but on output they MAY be changed into normal escaped
content.
Note that avoiding CDATA sections is considered a best practice from the internationalization viewpoint [XML I18N BP].
Processing Requirements
Agents MUST process CDATA sections.
Writers MAY preserve the original CDATA sections.
XML comments (<!--...--!>
) are allowed in XLIFF
content, but they are ignored in the parsed content.
For example:
<source>Text content <!--IMPORTANT-->that is important</source>
and
<source>Text content that is important</source>
are identical after parsing and correspond to the same following parsed content:
Text content that is important
To annotate a section of the content with a comment that is
recognized and preserved by XLIFF user agents, use the <note>
element,
or the <mrk>
element.
Processing Requirements
Agents MUST ignore XML comments. That is the XLIFF parsed content is the same whether or not there is an XML comment in the document.
Writers MAY preserve XML comments on output.
XML Processing Instructions [XML] (see specifically http://www.w3.org/TR/REC-xml/#sec-pi) are an XML mechanism to "allow documents to contain instructions for applications." XML Processing Instructions are allowed in XLIFF content but they are ignored in the parsed content in the same sense as XML Comments.
Processing Requirements
Agents MUST NOT use Processing Instructions as a means to implement a feature already specified in XLIFF Core or Modules.
Writers SHOULD preserve XML Processing Instructions in an XLIFF Document.
Please note that Agents using Processing Instructions to implement XLIFF Core or Module features are not compliant XLIFF applications disregarding whether they are otherwise conformant.
Although this specification encourages XLIFF Agents to preserve XML Processing Instructions, it is not and cannot be, for valid processing reasons, an absolute protection and it is
for instance highly unlikely that Processing Instructions could survive an XLIFF roundtrip at the <segment>
level or lower. Hence implementers are discouraged from using XML Processing Instructions at the <segment>
and lower levels.
The XLIFF inline content defines how to encode the content Extracted from the original source. The content includes the following types of data:
Text -- Textual content.
Inline codes -- Sequences of content that are not linguistic text, such as formatting codes, variable placeholders, etc.
For example: the element <b>
in HTML, or the
placeholder {0}
in a Java string.
Annotations -- Markers that delimit a span of the content and carry or point to information about the specified content.
For example: a flag indicating that a given section of text is not intended for translation, or an element indicating that a given expression in the text is a term associated with a definition.
There are two elements that contain inline markup in XLIFF: <source>
and <target>
.
In some cases, data directly associated with inline elements MAY also
be stored at the <unit>
level in an <originalData>
element.
The XLIFF inline markup does not prescribe how to represent normal text, besides that it MUST be valid XML.
Because the content represented in XLIFF can be extracted from anywhere, including software resources and other material that can contain control characters, XLIFF needs to be able to represent all Unicode code points [Unicode].
However, XML does not have the capability to represent all Unicode code points [Unicode], and does not provide any official mechanism to escape the forbidden code points.
To remedy this, the inline markup provides the <cp>
element.
The syntax and semantic of <cp>
in XLIFF are similar to
the ones of <cp>
in the Unicode Locale Data Markup
Language [LDML].
The specification takes into account two types of codes:
Any code (original or added) belongs to one of the two following categories:
A standalone code is a code that
corresponds to a single position in the content. An example of such
code is the <br/>
element in HTML.
A spanning code is a code that encloses a section of the content using a start and an end marker. There are two kinds of spanning codes:
Codes that can overlap, that is: they can enclose a
non-closing or a non-opening spanning code. Such codes do not
have an XML-like behavior. For example the RTF code
\b1...\b0
is a spanning code that is allowed to
overlap.
Codes that cannot overlap, that is: they cannot enclose a partial spanning code
and have an XML-like behavior at the same time. An example of such code is the
<emphasis>...</emphasis>
element in DocBook.
When the opening or closing marker of a spanning code does not have its corresponding closing or opening marker in the same unit, it is an orphan code.
Spanning codes present a set of challenges in XLIFF:
First, because the code format of the original data extracted to XLIFF does not need to be XML, spanning codes can overlap.
For example, in the following RTF content, the format markers are in a sequence: start bold, start italics, end bold, end italics. This does not translate into a well-formed mapping.
Text in \b bold \i and\b0 italics\i0
Another challenge is the possible effect of segmentation: A spanning code can start in one segment and end in another.
For example, in the following HTML content, the segmentation
splits the text independently of the codes so the starting and ending
tags of the <B>...</B>
element end up in
different parts of the <unit>
element:
[Sentence <B>one. ][Sentence two.][ ][Sentence</B> three.]
Finally, a third potential cause of complication is that the start
or the end markers of a spanning code can become orphans if their
segment is used outside of its original <unit>
.
For example, an entry with bold text can be broken down into two segments:
Segment 1 = "<b>Warning found: " Segment 2 = "The file is read-only</b>"
And later, one of the segments can be re-used outside its original
<unit>
, for instance as a
translation candidate:
New segment = "<b>Warning found - see log</b>" Fuzzy match = "<b>Warning found: "
Because of these use cases, the representation of a spanning code cannot always be mapped to a similar spanning element in XLIFF.
When taking into account these issues, the possible use cases and their corresponding XLIFF representations are as follow:
Table 1. Inline code use cases
Use Case | Example of Representation |
---|---|
Standalone code | <ph id='1'/> |
Well-formed spanning code | <pc
id='1'>text</pc> |
Start marker of spanning code | <sc id='1'/> |
End marker of spanning code | <ec startRef='1'/> |
Orphan start marker of spanning code | <sc id='1'
isolated='yes'/> |
Orphan end marker of spanning code | <ec id='1'
isolated='yes'/> |
A spanning code MUST be represented using a <sc>
element and a <ec>
element if the code is
not well-formed or orphan.
For example, the following RTF content has two spans of formatting:
Text in \b bold \i and\b0 italics\i0
They can only be represented using two pairs of <sc>
and <ec>
elements:
Text in <sc id="1">\b </sc>bold <sc id="2">\i </sc>and<ec startRef="1">\b0 </ec> italics<ec startRef="2">\i0</ec>
If the spanning code is well-formed it MAY be represented using
either a single <pc>
element or using a pair
of <sc>
and a <ec>
elements.
For example, the following RTF content has a single span of formatting:
Text in \b bold\b0 .
It can be represented using either notations:
Text in <pc id="1" canOverlap="yes" dataRefStart="c1" dataRefEnd="c2">bold</pc>.
Text in <sc id="1" dataRef="c1"/>bold<ec startRef="1" dataRef="c2"/>.
Processing Requirements
When both the <pc>
and the <sc>
/<ec>
representations are
possible, Extractors and Modifiers MAY use either one as long as all the information
of the inline code (e.g. original data, sub-flow indicators, etc.)
are preserved.
When converting representation between a pair of <sc>
and <ec>
elements and a <pc>
element or
vice-versa, Modifiers MUST map their attributes as shown in
the following table:
Table 2. Mapping between attributes
<pc>
attributes | <sc>
attributes | <ec>
attributes |
id | id | startRef / id |
type | type | type |
dispStart | disp | |
dispEnd | disp | |
equivStart | equiv | |
equivEnd | equiv | |
subFlowsStart | subFlows | |
subFlowsEnd | subFlows | |
dataRefStart | dataRef | |
dataRefEnd | dataRef | |
isolated | isolated | |
canCopy | canCopy | canCopy |
canDelete | canDelete | canDelete |
canReorder | canReorder | canReorder |
copyOf | copyOf | copyOf |
canOverlap | canOverlap | canOverlap |
dir | dir |
Agents MUST be able to handle any of the above two types of inline code representation.
Most of the time, inline codes correspond to an original construct in the format from which the content was extracted. This is the original data.
XLIFF tries to abstract and normalize as much as possible the extracted content because this allows a better re-use of the material across projects. Some tools require access to the original data in order to create the translated document back into its original format. Others do not.
In this option, the original data of the inline code is not preserved inside the XLIFF document.
The tool that created the initial XLIFF document is responsible for providing a way to re-create the original format properly when merging back the content.
For example, for the following HTML content:
This <B>naked mole rat</B> is <B>pretty ugly</B>.
one possible XLIFF representation is the following:
<unit id="1"> <segment> <source>This <pc id="1">naked mole rat</pc> is <pc id="2">pretty ugly</pc>.</source> <target>Cet <pc id="1">hétérocéphale</pc> est <pc id="2">plutôt laid</pc>.</target> </segment> </unit>
In this option, the original data of the inline code is stored
in a structure that resides outside the content (i.e. outside <source>
or <target>
) but still
inside the <unit>
element.
The structure is an element <originalData>
that contains a list of <data>
entries uniquely
identified within the <unit>
by an id
attribute. In the content, each
inline code using this mechanism includes a dataRef
attribute that points to a
element
where its corresponding original data is stored.<data>
For example, for the following HTML content:
This <B>naked mole rat</B> is <B>pretty ugly</B>.
The following XLIFF representation stores the original data:
<unit id="1"> <originalData> <data id="d1"><B></data> <data id="d2"></B></data> </originalData> <segment> <source>This <pc id="1" dataRefStart="d1" dataRefEnd="d2">naked mole rat</pc> is <pc id="2" dataRefStart="d1" dataRefEnd="d2">pretty ugly</pc>.</source> <target>Cet <pc id="1" dataRefStart="d1" dataRefEnd="d2">hétérocéphale</pc> est <pc id="2" dataRefStart="d1" dataRefEnd="d2">plutôt laid</pc>.</target> </segment> </unit>
This mechanism allows to re-use identical original data by
pointing to the same <data>
element.
When processing content, there are possible cases when new inline codes need to be added.
For example, in the following HTML help content, the text has the name of a button in bold:
Press the <b>Emergency Stop</b> button to interrupt the count-down sequence.
In the translated version, the original label needs to remain in English because the user interface, unlike the help, is not translated. However, for convenience, a translation is also provided and emphasized using another style. That new formatting needs to be added:
Appuyez sur le bouton <b>Emergency Stop</b> (<i>Arrêt d'urgence</i>) pour interrompre le compte à rebours.
Having to split a single formatted span of text into several separate parts during translation, can serve as another example. For instance, the following sentence in Swedish uses bold on the names of two animals:
Äter <b>katter möss</b>?
But the English translation separates the two names and therefore needs to duplicate the bold codes.
Do <b>cats</b> eat <b>mice</b>?
Processing Requirements
There are several ways to add codes:
One way to create a new code is to duplicate an existing one (called the base code).
If the base code is associated with some original data: the new code simply use these data.
For example, the translation in the following unit, the second inline code is a duplicate of the first one:
<unit id="1"> <originalData> <data id="d1"><b></data> <data id="d2"></b></data> </originalData> <segment> <source>Äter <pc id="1" dataRefStart="d1" dataRefEnd="d2">katter möss</pc>?</source> <target>Do <pc id="1" dataRefStart="d1" dataRefEnd="d2">cats</pc> eat <pc id="2" dataRefStart="d1" dataRefEnd="d2">mice</pc>?</target> </segment> </unit>
If the base code has no associated data, the new code MUST use
the copyOf
attribute to indicate
the id
of the base code. This allows the merging tool to
know what original data to re-use.
For example, the translation in the following unit, the second inline code is a duplicate of the first one:
<unit id="1"> <segment> <source>Esznek <pc id="1">a magyarok svéd húsgombócot</pc>?</source> <target>Do <pc id="1">Hungarians</pc> eat <pc id="2" copyOf="1">Swedish meatballs</pc>?</target> </segment> </unit>
Another way to add a code is to create it from scratch. For example, this can happen when the translated text requires additional formatting.
For example, in the following unit, the UI text needs to stay in English, and is also translated into French as a hint for the French user. The French translation for the UI text is formatted in italics:
<unit id="1"> <originalData> <data id="d1"><b></data> <data id="d2"></b></data> <data id="n1"><i></data> <data id="n2"></i></data> </originalData> <segment> <source>Press the <pc id="1" dataRefStart="d1" dataRefEnd="d2">Emergency Stop</pc> button to interrupt the count-down sequence.</source> <target>Appuyez sur le bouton <pc id="1" dataRefStart="d1" dataRefEnd="d2">Emergency Stop</pc> (<pc id="2" dataRefStart="n2" dataRefEnd="n2">Arrêt d'urgence</pc>) pour interrompre le compte à rebours.</target> </segment> </unit>
Another way to add a code is to convert part of the extracted text into code. In some cases the inline code can be created after extraction, using part of the text content. This can be done, for instance, to get better matches from an existing TM, or better candidates from an MT system.
For example, it can happen that a tool extracting a Java properties file to XLIFF is not sophisticated enough to treat HTML or XML snippets inside the extracted text as inline code:
# text property for the widget 'next' nextText: Click <ui>Next</ui>
Resulting XLIFF content:
<unit id="1"> <segment> <source>Click <ui>Next</ui></source> </segment> </unit>
But another tool, later in the process, can be used to process
the initial XLIFF document and detect additional inline codes. For
instance here the XML elements such as <ui>
.
The original data of the new code is the part of the text content that is converted as inline code.
<unit id="1"> <originalData> <data id="d1"><ui></data> <data id="d2"></ui></data> </originalData> <segment> <source>Click <pc id="1" dataRefStart="d1" dataRefEnd="d2">Next</pc></source> </segment> </unit>
Converting XLIFF text content into original data for inline code might need a tool-specific process as the tool which did the initial extraction could have applied some conversion to the original content to create the XLIFF content (e.g. un-escape special characters).
When processing content, there are some possible cases when existing inline codes need to be removed.
For an example the translation of a sentence can result in grouping of several formatted parts into a single one. For instance, the following sentence in English uses bold on the names of two animals:
Do <b>cats</b> eat <b>mice</b>?
But the Swedish translation group the two names and therefore needs only a single bolded part.
Äter <b>katter möss</b>?
Processing Requirements
User agents MAY remove a given inline code only if its canDelete
attribute is
set to yes
.
When removing a given inline code, the user agents MUST remove its associated original data, except if the original data is shared with another inline code that remains in the unit.
Note that having to delete the original data is unlikely because such original data is likely to be associated to an inline code in the source content.
There are several ways to remove codes:
One way to remove a code is to delete it from the extracted content. For example, in the following unit, the translated text does not use the italics formatting. It is removed from the target content, but the original data are preserved because they are still used in the source content.
<unit id="1">
<originalData>
<data id="d1"><i></data>
<data id="d2"></i></data>
</originalData>
<segment>
<source>I read <pc id="1" dataRefStart="d1" dataRefEnd="d2">Little
House on the Prairie</pc> to my children.</source>
<target>子供に「大草原の小さな家」を読みました。</target>
</segment>
</unit>
Another way to remove an inline code is to convert it into text content. This is likely to be a rare use case. It is equivalent to deleting the code, with the addition to place the original data for the given code into the content, as text. This can be done, for example, to get better matches from an existing TM, or better candidates from an MT system.
For instance, the following unit has an inline code corresponding to a variable place-holder. A tool can temporarily treat this variable as text to get better matches from an existing TM.
<unit id="1"> <originalData> <data id="d1">%s</data> </originalData> <segment> <source>Cannot find '<ph id="1" dataRef="d1"/>'.</source> </segment> </unit>
The modified unit would end up like as shown below. Note that because the original data was not associated with other inline code it has been removed from the unit:
<unit id="1"> <segment> <source>Cannot find '%s'.</source> </segment> </unit>
Converting the original data of an inline code into text content might need a tool-specific process as the tool which did the initial extraction could have applied some conversion to the original content.
XLIFF provides some information about what editing operations are applicable to inline codes:
A code can be deleted: That is, the code element as well as
its original data (if any are attached) are removed from the
document. This hint is represented with the canDelete
attribute. The
default value is yes
: deletion is allowed.
For example, the following extracted C string has the code
<ph id='1'/>
set to be not
deletable because removing the original data (the variable
placeholder %s
) from the string would result in an
error when running the application:
A code can be copied: That is, the code is used as a
base code for adding another inline code. See
Section 4.7.2.4.1, “Duplicating an existing code” for more details. This
hint is represented with the canCopy
attribute. The
default value is yes
: copy is allowed.
A code can be re-ordered: That is, a given code can be moved
before or after another inline code. This hint is represented with
the canReorder
attribute.
The default value is yes
: re-ordering is
allowed.
Please note that often those properties are related and appear together. For example, the code in the first unit shown below is a variable placeholder that has to be preserved and cannot be duplicated, and when several of such variables are present, as in the second unit, they cannot be re-ordered:
<unit id="1"> <originalData> <data id="d1">%s</data> </originalData> <segment> <source>Can't open '<ph id="1" dataRef="d1" canCopy="no" canDelete="no"/>'.</source> </segment> </unit> <unit id="2"> <originalData> <data id="d1">%s</data> <data id="d2">%d</data> </originalData> <segment> <source>Number of <ph id="1" dataRef="d1" canCopy="no" canDelete="no" canReorder="firstNo"/>: <ph id="2" dataRef="d2" canCopy="no" canDelete="no" canReorder="no"/>.</source> </segment> </unit>
See the Target Content Modification section for additional details on editing.
Constraints
When the attribute canReorder
is set to no
or firstNo
,
the attributes canCopy
and canDelete
MUST also be set to no
.
Inline codes re-ordering within a source or target content MAY be
limited by defining non-reorderable sequences. Such sequence is made of a first inline
code with the attribute canReorder
set to firstNo
and
zero or more following codes with canReorder
set to no
.
A non-reorderable sequence made of a single code with canReorder
set to firstNo
are allowed just for
Extraction convenience and are equivalent to a code with the attribute canReorder
set to yes
.
Processing Requirements
Extractors SHOULD set the canDelete
, canCopy
and canReorder
attributes
for the codes that need to be treated differently than with the
default settings.
The number and order of the inline codes making up a non-reorderable sequence MUST NOT be changed.
A whole non-reorderable sequence MAY be moved before or after another non-reorderable sequence.
When a non-reorderable sequence is made of a single non-reorderable code,
Modifiers
MAY remove the canReorder
attribute of that code or
change its value to yes
.
Modifiers MUST NOT delete inline codes that have their
attribute canDelete
set to
no
.
Modifiers
MUST NOT replicate inline codes that have their attribute canCopy
set to no
.
An annotation is an element that associates a section of the content with some metadata information.
Annotations MAY be created by an Extractor that generated the initial XLIFF Document, or by any other Modifier or Enricher later in the process. For example, after an Extractor creates the document, an Enricher can annotate the source content with terminological information.
Annotations are represented using either the <mrk>
element, or the pair of
<sm>
and <em>
elements.
Processing Requirements
When a Modifier removes an <mrk>
element or a pair of <sm>
/ <em>
elements and the ref
attribute is
present, it MUST check whether or not the URI referenced by the
ref
attribute is within the same <unit>
as the removed element. If it is and
no other element has a reference to the referenced element, the
Modifier
MUST remove the referenced element.
There are several pre-defined types of annotation and definition of custom types is also allowed.
This annotation is used to indicate whether a span of content is translatable or not.
Usage:
For example:
He saw his <mrk id="m1" translate="no">doppelgänger</mrk>.
The translate
attribute can
also be used at the same time as another type of annotation. For
example:
He saw his <mrk id="m1" translate="no" type="term">doppelgänger</mrk>.
This annotation is used to mark up a term in the content, and possibly associate information to it.
Usage:
In this annotation type, the XLIFF Core
ref
attribute is primarily intended to allow for referencing of terminology resources that
are external to the XLIFF Document.
The
Glossary module uses its own
gls:ref
to reference its corresponding spans in source content
the other way round. The XLIFF Core
ref
attribute can be also used in case of multiple occurences of a term in the same unit for
pointing from these different ocurrences to the same glossary entry in the same
unit.
For example:
<unit id="1"> <gls:glossary> <gls:glossEntry id="g1" ref="#m1"> <gls:term>doppelgänger</gls:term> <gls:definition source="dictionary.com">A ghostly double or counterpart of a living person.</gls:definition> </gls:glossEntry> </gls:glossary> <segment> <source>He is my <mrk id="m1" type="term" ref="https://myCoolTBServer.me/en/doppelgänger">doppelgänger</mrk>.</source> <target>Il est mon <mrk id="m1" type="term" ref="https://myCoolTBServer.me/fr/alter%20ego">alter ego</mrk>.</target> </segment> </unit>
This annotation is used to associate a span of content with a comment.
Usage:
The id
attribute is
REQUIRED
The type
attribute is REQUIRED
and set to comment
If the value
attribute is present
it contains the text of the comment, otherwise the ref
attribute MUST be present
and contains the id value (in URI format) of a <note>
element that
holds the comment.
The translate
attribute is
OPTIONAL and set to yes
or no
For example, here with the
attribute:value
The <mrk id="m1" type="comment" value="Possible values: Printer or Stacker"><ph id="1" dataRef="d1"/></mrk> has been enabled.
And here using the ref
attribute:
<unit id="1"> <notes> <note id="n1" appliesTo="target">Please check the translation for 'namespace'. On also can use 'espace de nom', but I think most technical manuals use the English term.</note> </notes> <segment> <source>You use your own namespace.</source> <target>Vous pouvez utiliser votre propre <mrk id="m1" type="comment" ref="#n1">namespace</mrk>.</target> </segment> </unit>
The <mrk>
element can be used
to implement custom annotations.
A custom annotation MUST NOT provide the same functionality as a pre-defined annotation.
Usage:
For example:
One of the earliest surviving works of literature is <mrk id="m1" type="myCorp:isbn" value="978-0-14-44919-8">The Epic of Gilgamesh</mrk>.
Annotations can overlap spanning inline codes or other
annotations. They also can be split by segmentation. Because of this, a
single annotation span can be represented using a pair of <sm>
and <em>
elements instead of a
single <mrk>
element.
For example, one can have the following content:
<unit id="1"> <segment> <source>Sentence A. <mrk id="m1" type="comment" value="Comment for B and C">Sentence B. Sentence C.</mrk></source> </segment> </unit>
After a user agent performs segmentation, the annotation element
<mrk>
is changed to a pair of
<sm>
and <em>
elements:
<unit id="1"> <segment> <source>Sentence A. </source> </segment> <segment> <source><sm id="m1" type="comment" value="Comment for B and C"/>Sentence B. </source> </segment> <segment> <source>Sentence C.<em startRef="m1"/></source> </segment> </unit>
A sub-flow is a section of text embedded inside an inline code, or inside another section of text.
For example, the following HTML content includes two sub-flows: The
first one is the value of the title
attribute ("Start
button
"), and the second one is the value of the alt
attribute ("Click here to start!
"):
Click to start: <img title="Start button" src="btnStart.png" alt="Click here to start!"/>
Another example is the following DITA content where the footnote
"A Palouse horse is the same as an Appaloosa.
" is defined at
the middle of a sentence:
Palouse horses<fn>A Palouse horse is the same as an Appaloosa.</fn> have spotted coats.
In XLIFF, each sub-flow is stored in its own <unit>
element, and the
attribute is
used to indicate the location of the embedded content.subFlows
Therefore the HTML content of the example above can be represented like below:
<unit id="1"> <segment> <source>Start button</source> </segment> </unit> <unit id="2"> <segment> <source>Click here to start!</source> </segment> </unit> <unit id="3"> <segment> <source>Click to start: <ph id="1" subFlows="1 2"/></source> </segment> </unit>
Constraints
Processing Requirements
While white spaces can be significant or insignificant in the original format, they are
always treated as significant when stored as original data in XLIFF. See the definition of the <data>
element.
Processing Requirements
For the inline content and all non empty inline elements: The white spaces
MUST be preserved if the value for xml:space
set or
inherited at the enclosing <unit>
level is preserve
, and
they MAY be preserved if the value is default
.
Text directionality in XLIFF content is defined by inheritance. Source and target content can have different directionality.
The initial directionality for both the source and the target content is defined in the
<file>
element, using the OPTIONAL
attributes srcDir
for the source and trgDir
for
the target. The default value for both attributes is auto
.
The <group>
and <unit>
elements also have the two
OPTIONAL attributes srcDir
and trgDir
. The
default value of the srcDir
is inherited from the value of the srcDir
attribute of the respective parent element. The default value of the trgDir
attribute is inherited from the value of the trgDir
attribute of the respective parent
element.
The <pc>
, <sc>
, and isolated <ec>
elements have an OPTIONAL
attribute dir
with a value ltr
, rtl
, or auto
. The default value is
inherited from the parent <pc>
element. In case the inline element is a child of a
<source>
element, the default value is inherited from the srcDir
value
of the enclosing <unit>
element. In case the inline element is a child of a
<target>
element, the default value is inherited from the
trgDir
value of the enclosing <unit>
element.
While processing isolated <ec>
elements with explicitly set directionality, please beware
that unlike directionality set on the <pc>
and <sc>
, this
method decreases the stack level as per [UAX #9].
In addition, the <data>
element has an OPTIONAL
attribute dir
with a value ltr
, rtl
, or auto
that is not inherited.
The default value is auto
.
Directionality of source and target text contained in the <source>
and <target>
elements is fully governed by [UAX #9], whereas explicit
XLIFF-defined structural and directionality markup is a higher-level
protocol in the sense of [UAX #9].
The XLIFF-defined value auto
determines the directionality
based on the first strong directional character in its scope and
XLIFF-defined inline directionality markup behaves exactly as
Explicit Directional Isolate Characters, see [UAX #9], http://www.unicode.org/reports/tr9/#Directional_Formatting_Characters.
Please note that this specification does not define explicit markup for inline directional Overrides or Embeddings; in case those are needed. Extractors and Modifiers will need to use [UAX #9] defined Directional Formatting Characters.
This section defines the rules Writers need to follow when working with the target content of a given segment in order to provide interoperability throughout the whole process.
The Extractor MAY create the initial target content as it sees fit.
The Merger is assumed to have the same level of processing and native format knowledge as the Extractor. Providing an interoperable way to convert native documents into XLIFF with one tool and back to the native format with another tool without the same level of knowledge is outside the scope of this specification.
The Writers Modifying the target content of an XLIFF Document between the Extractor and the Merger ensure interoperability by applying specific rules. These rules are separated into two cases: When there is an existing target and when there is no existing target.
When there is no existing target, the processing requirements for a given segment are the following:
Processing Requirements
Writers MAY leave the segment without a target.
Modifiers MAY create a new target as follows:
Modifiers MAY add translatable text.
Modifiers MUST put all non-removable inline codes in the target.
Modifiers MUST preserve the order of all the non-reorderable inline codes.
Modifiers MAY put any removable inline code in the target.
Modifiers MAY add inline codes.
Modifiers MAY add or remove annotations.
Modifiers MAY convert any <pc>
element into a
pair of <sc>
and <ec>
elements.
Modifiers MAY convert, if it is possible, any pair of
<sc>
and <ec>
elements into a
<pc>
element.
When working with a segment with content already in the target, Writers MUST choose one of the three behaviors described below:
Processing Requirements
Writers MAY leave the existing target unchanged.
Modifiers MAY modify the existing target as follow:
Modifiers MAY add or Modify translatable text.
Writers MUST preserve all non-removable inline codes, regardless whether or not they exist in the source.
Writers MUST preserve any non-reorderable inline codes in the existing target.
Writers MUST NOT add any non-reorderable inline codes to the target.
Modifiers MAY remove any removable inline codes in the target.
Modifiers MAY add inline codes (including copying any cloneable inline codes of the existing target).
Modifiers MAY add or remove annotations.
Modifiers MAY convert any <pc>
element into a
pair of <sc>
and <ec>
elements.
Modifiers MAY convert, if it is possible, any pair of
<sc>
and <ec>
elements into a
<pc>
element.
Modifiers MAY delete the existing target and start over as if working without an existing target.
This specification defines two types of content equality:
Equality type A: Two contents are equal if their normalized forms are equal.
Equality type B: Two contents are equal if, in their normalized forms and with all
inline code markers replaced by the value of their equiv
attributes, the resulting strings are equal.
A content is normalized when:
The text nodes are in Unicode Normalized Form C defined in the Unicode Annex #15: Unicode Normalization Forms [UAX #15].
All annotation markers are removed.
All pairs of <sc>
and <ec>
elements that can be
converted into a <pc>
element, are
converted.
All adjacent text nodes are merged into a single text node.
For all the text nodes with the white space property set to
default
, all adjacent white spaces are collapsed into a
single space.
In the context of XLIFF, a segment is content which is either a unit of extracted text, or has been created from a unit of extracted text by means of a segmentation mechanism such as sentence boundary detection. For example, a segment can be a title, the text of a menu item, a paragraph or a sentence in a paragraph.
In the context of XLIFF, other types representations sometimes called "segmentation" can be represented using annotations. For example: the terms in a segment can be identified and marked up using the term annotation.
XLIFF does not specify how segmentation is carried out, only how to represent its result. Material provisions regarding segmentation can be found for instance in the Segmentation Rules eXchange standard [SRX] or [UAX #29].
In XLIFF each segment of processed content is represented by a <segment>
element.
A <unit>
can comprise a single <segment>
.
Each <segment>
element has one
<source>
element that
contains the source content and one OPTIONAL <target>
element that can be
empty or contain the translation of the source content at a given
state.
Content parts between segments are represented with the <ignorable>
element,
which has the same content model as <segment>
.
For example:
<unit id="1"> <segment> <source>First sentence.</source> <target>Première phrase.</target> </segment> <ignorable> <source> </source> </ignorable> <segment> <source>Second sentence.</source> </segment> </unit>
Some Agents (e.g. aligner tools) can segment content, so that the target segments are not in the same order as the source segments.
To be able to map order differences, the <target>
element has an OPTIONAL order
attribute
that indicates its position in the sequence of segments (and inter-segments). Its value is an
integer from 1 to N, where N is the sum of the numbers of the <segment>
and <ignorable>
elements within the given enclosing <unit>
element.
For example, the following HTML documents have the same paragraph with three sentences in different order:
<p lang='en'>Sentence A. Sentence B. Sentence C.</p>
<p lang='fr'>Phrase B. Phrase C. Phrase A.</p>
The XLIFF representation of the content, after segmentation and alignment, would be:
<unit id="1"> <segment id="1"> <source>Sentence A.</source> <target order="5">Phrase A.</target> </segment> <ignorable> <source> </source> </ignorable> <segment id="2"> <source>Sentence B.</source> <target order="1">Phrase B.</target> </segment> <ignorable> <source> </source> </ignorable> <segment id="3"> <source>Sentence C.</source> <target order="3">Phrase C.</target> </segment> </unit>
When Modifying segmentation of a <unit>
,
Modifiers MUST meet the Constraints and follow the Processing Requirements defined below:
Constraints
Integrity of the inline codes MUST be preserved. See the section on Inline Codes and on Annotations for details.
The entire source content of any one <unit>
element
MUST remain logically unchanged: <segment>
elements or their data MUST NOT be moved or joined across units.
Note that when splitting or joining segments that have both source and target content it is advisable to keep the resulting segments linguistically aligned, which is likely to require human linguistic expertise and hence manual re-segmentation. If the linguistically correct alignment cannot be guaranteed, discarding the target content and retranslating the resulting source segments is worth considering.
Processing Requirements
When the Modifiers perform a split operation:
Only <segment>
or
<ignorable>
elements
that have their canResegment
value resolved to yes
MAY be split.
All new <segment>
or
<ignorable>
elements
created and their <source>
and
<target>
children MUST have
the same attribute values as the original elements they were
created from, as applicable, except for the id
attributes and, possibly, for the
order
,
state
and
subState
attributes.
Any new id
attributes MUST follow the
<segment>
or
<ignorable>
id
constraints.
If there was a target content in the original segment and if the state
attribute
of the original segment was not initial
, the state
attributes of the
segments resulting from the split (and possibly their corresponding subState
attributes) MAY be
changed to reflect the fact that the target content MAY need to be verified as the new segmentation MAY have desynchronized the alignment between
the source and target contents.
When the Modifiers perform a join operation:
Only <segment>
or
<ignorable>
elements
that have their canResegment
value resolved to
yes
MAY be join with other elements.
When the Modifiers or Mergers perform a join operation:
Two elements (<segment>
or
<ignorable>
)
MUST NOT be joined if their <target>
have
resolved order
values that are not consecutive.
The attributes of the elements to be joined (<segment>
or
<ignorable>
) and the attributes of their
<source>
and
<target>
MUST be carried over in the resulting joined elements.
If attributes of elements to be joined (<segment>
or
<ignorable>
) differ, or if the attributes of their
<source>
or
<target>
differ,
the resulting joined elements MUST comply with following rules:
If the state
attributes of the
<segment>
elements
differ: the state
attribute of the joined
<segment>
MUST be set
to the "earliest" of the values specified in the original <segment>
elements. The sequence of
state
values are defined in the following order:
1: initial
, 2: translated
, 3: reviewed
, and 4: final
.
The subState
attribute MUST be the one
associated with the
state
attribute selected to be used in the joined <segment>
.
If no subState
attribute is associated with that
state
, the joined
<segment>
MUST NOT
have a subState
.
If the xml:space
attributes differ:
The <source>
and
<target>
of the joined element MUST be
set to xml:space="preserve"
.
When the Modifiers or Mergers perform a join or a split operation:
If any <segment>
or <ignorable>
element of the <unit>
had a <target>
child with an order
attribute prior to the segmentation modification, the <target>
child of all <segment>
and <ignorable>
elements in the <unit>
MUST be examined and if necessary their order
attributes updated to preserve the ordering of the target content prior the
segmentation modification.
XLIFF 2.0 offers two mechanisms for storing custom data in an XLIFF document:
Using the Metadata module for storing custom data in elements defined by the official XLIFF specification.
Using the standard XML namespace mechanism for storing data in elements or attributes defined in a custom XML Schema.
Both mechanisms can be used simultaneously.
The following XLIFF Core elements allow storing custom data in <mda:metadata>
elements or in elements from a custom
XML namespace:
- <file> |
- <group> |
- <unit> |
The following XLIFF Core elements accept custom attributes:
- <xliff> |
- <file> |
- <group> |
- <unit> |
- <note> |
- <mrk> |
- <sm> |
When using identifiers, an extension MUST use either an attribute named id
or the attribute
xml:id
to specify them.
Extensions identifiers MUST be unique within their immediate <file>
, <group>
or <unit>
enclosing element.
Identifier values used in extensions MUST be of type xs:NMTOKEN
or compatible with xs:NMTOKEN
(e.g. xs:NAME
and xs:ID
are compatible).
These constraints are needed for the fragment identification mechanism.
A user extension, whether implemented using <mda:metadata>
or using a custom namespace,
MUST NOT provide the same functionality as an
existing XLIFF core or module feature, however it MAY
complement an extensible XLIFF core feature or module feature or provide a new
functionality at the provided extension points.
Mergers MUST NOT rely on custom namespace extensions, other than the ones possibly defined in <skeleton>
, to create the Translated version of
the original document.
Writers that do not support a given custom namespace based user extension SHOULD preserve that extension without Modification.
This section specifies the OPTIONAL Modules that MAY be used along with Core for advanced functionality.
The source text of a document can be pre-processed against various translation resources (TM, MT, etc.) to provide translation candidates. This module provides an XLIFF capability to store lists of possible translations along with information about the similarity of the match, the quality of the translation, its provenance, etc.
The namespace for the Translation Candidates module is: urn:oasis:names:tc:xliff:matches:2.0
The fragment identification prefix for the Translation Candidates module is:
mtc
This annotation can be used to mark up the scope of a translation candidate within the content of a unit. This module can reference any source or even target spans of content that are referencable via the XLIFF Fragment Identification mechanism, however in case the corresponding fragment is not suitably delimited, the best way how to mark the relevant span is to use the following annotation.
Usage:
In this annotation type, the XLIFF Core
ref
attribute is primarily intended to allow for referencing of translation candidate
resources or other relevant metadata that are external to the XLIFF
Document.
The Translation Candidates module uses its own mtc:ref
to reference its match spans in source content
the other way round. Implementers who are not using the Transklation Candidates
Module and want to reference translation candidates
provided by external systems such as TM or MT services, will be better off with
defining their own Custom Annotation than using the
mtc:match
type.
For example:
<unit id="1"> <segment> <source><mrk id="m1" type="mtc:match" ref="https://myCoolTMServer.me/en-fr/He%20is%20my%20friend."> He is my friend.</mrk> </source> </segment> <segment> <source>Yet, I barely see him.</source> </segment> <mtc:matches> <mtc:match ref="m1"> <source>He is my friend.</source> <target>Il est mon ami.</target> </mtc:match> <mtc:match ref="m1"> <source>He is my best friend.</source> <target>Il est mon meilleur ami.</target> </mtc:match> </mtc:matches> </unit>
The elements defined in the Translation Candidates module are:
<matches>
and
<match>
.
Legend:
1 = one |
+ = one or more |
? = zero or one |
* = zero, one or more |
<matches>
| +---<match>
+ | +---<mda:metadata>
? | +---<xlf:originalData>
? | +---<xlf:source>
1 | +---<xlf:target>
1 | +---<other> *
Collection of matches retrieved from any leveraging system (MT, TM, etc.)
Contains:
- One or more <match> elements |
A potential translation suggested for a part of the source content of the enclosing <unit>
element.
Contains:
- Zero or one <mda:metadata> element followed by. |
- Zero or one <originalData> element followed by |
- One <source> element followed by |
- One <target> element followed by |
- Zero, one or more elements from other namespaces. |
Attributes:
- id , OPTIONAL |
- matchQuality , OPTIONAL |
- matchSuitability , OPTIONAL |
- origin , OPTIONAL |
- ref , REQUIRED |
- reference , OPTIONAL |
- similarity , OPTIONAL |
- subType , OPTIONAL |
- type , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The attributes defined in the Translation Candidates module are:
id
,
matchQuality
,
matchSuitability
,
origin
,
ref
,
reference
,
similarity
,
subType
, and
type
.
Identifier - a character string used to identify a <match>
element.
Value description: NMTOKEN.
Default value: undefined
Used in: <match>
.
Match quality - indicates the quality of the <target>
child of a <match>
element based on an external benchmark or metric.
Value description: a decimal number between 0.0 and 100.0.
Default value: undefined
Used in: <match>
.
This attribute can carry a human review based metrics score, a Machine Translation self-reported confidence score etc.
Match suitability - indicates the general suitability and relevance of its <match>
element based on various external benchmarks or metrics
pertaining to both the <source>
and the <target>
children of the <match>
.
This attribute is intended to carry a value that can be combined from values provided in
similarity
and matchQuality
attributes based on an externally provided
algorithm.
Value description: a decimal number between 0.0 and 100.0.
Default value: undefined
Used in: <match>
.
This attribute is also useful for mapping match-quality as specified in XLIFF 1.2 because 1.2 is not capable of discerning between the source similarity and the target quality.
Processing Requirements
Agents processing this module MUST make use of matchSuitability
for match ordering purposes if the attribute is specified.
Match origin - indicates the tool, system or repository that generated a <match>
element. This is a free text short informative
description. For example, 'Microsoft Translator Hub' or 'tm-client123-v456', or 'MSTH
(52217d25-d9e7-54a2-af44-3d4e4341d112_healthc).'
Value description: Text.
Default value: undefined
Used in: <match>
.
Reference - points to a span of source text within the same unit, to which the translation candidate is relevant.
Value description: IRI
Default value: undefined
Used in:
<match>
.
Reference - indicates that the <target>
child of the <match>
element contains a Translation into
a reference language rather than into the target language. For example, a German translation can
be used as reference by a Luxembourgish translator.
Value description: yes
or no
.
Default value: no
.
Used in: <match>
Similarity - indicates the similarity level between the content of the
<source>
child of a
<match>
element and the translatable text being matched.
Value description: a decimal number between 0.0 and 100.0.
Default value: undefined
Used in: <match>
.
Sub-type - indicates the sub-type, i.e. a secondary level type, of a <match>
element.
Value description:
The value is composed of a prefix and a sub-value separated by a character : (U+003A). The prefix is a string uniquely identifying a collection of values for a specific authority. The sub-value is any string value defined by an authority.
The prefix xlf
is reserved for this specification, but no sub-values are defined for it at
this time. Other prefixes and sub-values MAY be defined by the users.
Default value: undefined
Used in: <match>
Type - indicates the type of a <match>
element, it gives the value providing
additional information on how the match was generated or qualifying further the relevance of the
match. The list of pre-defined values is general and user-specific information can be added
using the subType
attribute.
Value description:
Table 3. Standard Values
Value | Description |
---|---|
am | Assembled Match: candidate generated by assembling parts of different translations. For example: constructing a candidate by using the known translations of various spans of content of the source. |
mt | Machine Translation: candidate generated by a machine translation system. |
icm | In Context Match: candidate for which the content context of the translation was the same as the one of the current source. For example: the source text for both contents is also preceded and/or followed by an identical source segment, or both appear as e.g. level 2 headings. |
idm | Identifier-based Match: candidate that has an identifier identical to the one of the source content. For example: the previous translation of a given UI component with the same ID. match that has an identifier identical to the source content. |
tb | Term Base: candidate obtained from a terminological database, i.e. the whole source segment matches with a source term base entry. |
tm | Translation Memory: candidate based on a simple match of the source content. |
other | Candidate of a top level type not covered by any of the above definitions. |
Default value: tm
Used in: <match>
<mtc:matches> <mtc:match id="[NMTOKEN]"> <xlf:source> <!-- text data --> </xlf:source> <xlf:target> <!-- text data --> </xlf:target> <xlf:originalData> <xlf:data id="[NMTOKEN]"> <xlf:cp hex="[required]"> <!-- text data --> </xlf:cp> </xlf:data> </xlf:originalData> <mda:metadata> <mda:metagroup> <!-- One or more of mda:metagroup or mda:meta --> </mda:metagroup> </mda:metadata> <!-- Zero, one or more elements from any namespace --> </mtc:match> </mtc:matches>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/matches.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:mtc="urn:oasis:names:tc:xliff:matches:2.0" xmlns:mda="urn:oasis:names:tc:xliff:metadata:2.0" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" targetNamespace="urn:oasis:names:tc:xliff:matches:2.0"> <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <xs:import namespace="urn:oasis:names:tc:xliff:metadata:2.0" schemaLocation="metadata.xsd"/> <xs:simpleType name="similarity"> <xs:restriction base="xs:decimal"> <xs:minInclusive value="0.0"/> <xs:maxInclusive value="100.0"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="typeValues"> <xs:restriction base="xs:string"> <xs:enumeration value="am"/> <xs:enumeration value="mt"/> <xs:enumeration value="icm"/> <xs:enumeration value="idm"/> <xs:enumeration value="tb"/> <xs:enumeration value="tm"/> <xs:enumeration value="other"/> </xs:restriction> </xs:simpleType> <!-- Elements for holding translaton candidates --> <xs:element name="matches"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="mtc:match"/> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="match"> <xs:complexType> <xs:sequence> <xs:element minOccurs="0" maxOccurs="1" ref="mda:metadata"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:originalData"/> <xs:element minOccurs="1" maxOccurs="1" ref="xlf:source"/> <xs:element minOccurs="1" maxOccurs="1" ref="xlf:target"/> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="matchQuality" use="optional" type="mtc:similarity"/> <xs:attribute name="matchSuitability" use="optional" type="mtc:similarity"/> <xs:attribute name="origin" use="optional"/> <xs:attribute name="ref" use="required" type="xs:anyURI"/> <xs:attribute name="reference" use="optional"/> <xs:attribute name="similarity" use="optional" type="mtc:similarity"/> <xs:attribute name="subType" use="optional" type="xlf:userDefinedValue"/> <xs:attribute name="type" use="optional" type="mtc:typeValues"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
Simple glossaries, consisting of a list of terms with a definition or translation, can be optionally embedded in an XLIFF document using the namespace mechanism to include elements from the Glossary module.
The namespace for the Glossary module is: urn:oasis:names:tc:xliff:glossary:2.0
The fragment identification prefix for the Glossary module is: gls
The elements defined in the Glossary module are:
<glossary>
,
<glossEntry>
,
<term>
,
<translation>
and
<definition>
.
Legend:
1 = one |
+ = one or more |
? = zero or one |
* = zero, one or more |
<glossary>
| +---<glossEntry>
+ | +---<term>
1 | +---<translation>
* | +---<definition>
? | +---<other> *
Glossary entry.
Contains:
One <term> element followed by |
Zero, one, or more <translation>
elements followed by |
Zero or one <definition>
element followed by |
Zero, one, or more elements from any namespace. |
Attributes:
-
id
, OPTIONAL
|
-
ref
, OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
A <glossEntry>
element MUST contain a
<translation>
or a
<definition>
element
to be valid.
A term in the glossary, expressed in the source language of the enclosing
<xliff>
element.
Contains:
Plain text. |
Attributes:
-
source
, OPTIONAL
|
- attributes from other namespaces, OPTIONAL |
The attributes defined in the Glossary module are:
id
,
ref
,
and
source
Identifier - a character string used to identify a <glossEntry>
or <translation>
element.
Value description: NMTOKEN
Default value: undefined
Used in:<glossEntry>
and <translation>
Constraints
The values of id
attributes MUST be unique among all <glossEntry>
and <translation>
elements within the given enclosing
<glossary>
element.
Reference - points to a span of source or target text within the same unit, to which the glossary entry is relevant.
Value description: IRI
Default value: undefined
Used in:
<glossEntry>
and <translation>
.
Constraints
The value of the ref
attribute MUST point to a span of text
within the same <unit>
element, where the enclosing <glossary>
element is located.
Source - indicates the source of the content for the enclosing element.
Value description: Text.
Default value: undefined
Used in:<term>
,
<translation>
, and
<definition>
.
<unit id="1"> <segment> <source>Press the <mrk id="m1" type="term">TAB key</mrk>.</source> <target>Drücken Sie die <mrk id="m2" type="term">TAB-TASTE</mrk>.</target> </segment> <gls:glossary> <gls:glossentry ref="#m1"> <gls:term source="publicTermbase">TAB key</gls:term> <gls:translation id="1" source="myTermbase">Tabstopptaste</gls:translation> <gls:translation ref="#m2" source="myTermbase">TAB-TASTE</gls:translation> <gls:definition source="publicTermbase">A keyboard key that is traditionally used to insert tab characters into a document.</gls:definition> </gls:glossentry> </gls:glossary> </unit>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/glossary.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:gls="urn:oasis:names:tc:xliff:glossary:2.0" targetNamespace="urn:oasis:names:tc:xliff:glossary:2.0"> <!-- Not needed <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/> --> <!-- Elements for holding simple glossary data --> <xs:element name="glossary"> <xs:complexType mixed="false"> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="gls:glossEntry" /> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="glossEntry"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="1" ref="gls:term"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="gls:translation" /> <xs:element minOccurs="0" maxOccurs="1" ref="gls:definition" /> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="ref" use="optional" type="xs:anyURI"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="term"> <xs:complexType mixed="true"> <xs:attribute name="source" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="translation"> <xs:complexType mixed="true"> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="ref" use="optional" type="xs:anyURI"/> <xs:attribute name="source" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="definition"> <xs:complexType mixed="true"> <xs:attribute name="source" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
This is intended as a namespace mechanism to carry inside an XLIFF document information needed for generating a quick at a glance HTML preview of XLIFF content using a predefined set of simple HTML formatting elements.
Format Style module does not have a fragment identification prefix. Prefix fs
is reserved
in case it became needed in the future developments of this module.
Format Style module consists of just two attributes: fs
and subFs
. It does not specify any elements.
Format Style allows most structural and inline XLIFF core elements to convey basic formatting information using a predefined subset of HTML formatting elements. It primarily enables the generation of HTML pages or snippets for preview and review purposes. It MUST NOT be used to prescribe a roundtrip to a source document format.
The fs
attribute holds the name of an HTML formatting element. If additional style
information is needed, the OPTIONAL subFs
attribute is provided.
Constraints
Processing Requirements
Extractors and Enrichers SHOULD use the following method to validate their HTML snippets:
Parse the snippet with the [HTML5] fragment parsing algorithm, see http://www.w3.org/TR/html5/syntax.html#parsing-html-fragments.
the result MUST be a valid DOM tree as per [HTML5], see http://www.w3.org/TR/html5/infrastructure.html#tree-order.
The above constraint and validation method will make sure that the snippets are renderable by standard HTML browsers.
The attributes defined in the Format Style module are:
fs
,
subFs
.
Format style attribute, fs - allows most structural and inline XLIFF core elements to convey
basic formatting information using a predefined subset of HTML formatting elements (for example,
HTML elements names like <script> are not included). It enables the generation of HTML pages
or snippets for preview and review purposes. If additional style information is needed, the OPTIONAL
subFs
attribute is
provided.
Value description:
Table 4. fs attribute values
a | anchor |
b | bold text style |
bdo | I18N BiDi over-ride |
big | large text style |
blockquote | long quotation |
body | document body |
br | forced line break |
button | push button |
caption | table caption |
center | shorthand for DIV align=center |
cite | citation |
code | computer code fragment |
col | table column |
colgroup | table column group |
dd | definition description |
del | deleted text |
div | generic language/style container |
dl | definition list |
dt | definition term |
em | emphasis |
h1 | heading |
h2 | heading |
h3 | heading |
h4 | heading |
h5 | heading |
h6 | heading |
head | document head |
hr | horizontal rule |
html | document root element |
i | italic text style |
img | image |
label | form field label text |
legend | fieldset legend |
li | list item |
ol | ordered list |
p | paragraph |
pre | preformatted text |
q | short inline quotation |
s | strike-through text style |
samp | sample program output, scripts, etc. |
select | option selector |
small | small text style |
span | generic language/style container |
strike | strike-through text |
strong | strong emphasis |
sub | subscript |
sup | superscript |
table | |
tbody | table body |
td | table data cell |
tfoot | table footer |
th | table header cell |
thead | table header |
title | document title |
tr | table row |
tt | teletype or monospaced text style |
u | underlined text style |
ul | unordered list |
Default value: undefined.
Used in:
<file>
,
<unit>
,
<note>
,
<sc>
, <ec>
, <ph>
, <pc>
, <mrk>
, and <sm>
.
The fs
attribute is not intended to facilitate Merging back into the original format.
Constraints
Example: To facilitate HTML preview, fs can be applied to XLIFF like this like:
<xliff xmlns:fs="urn:oasis:names:tc:xliff:fs:2.0"> <file fs:fs="html"> <unit id="1" fs:fs="p"> <segment> <source>Mick Jones renewed his interest in the Vintage <pc id="1" fs:fs="strong">'72 Telecaster Thinline </pc> guitar. <ph id="ph2" fs:fs="br" />He says <pc fs:fs="q">I love 'em</pc> <ph id="ph1" fs:fs="img" fs:subFs="src,smileface.png" /></source> </segment> </unit> </file> </xliff>
With an XSL stylesheet like this:
<xsl:template match="*" priority="2" xmlns:fs="urn:oasis:names:tc:xliff:fs:2.0"> <xsl:choose> <xsl:when test="@fs:fs"> <xsl:element name="{@fs:fs}"> <xsl:if test="@fs:subFs"> <xsl:variable name="att_name" select="substring-before(@fs:subFs,',')" /> <xsl:variable name="att_val" select="substring-after(@fs:subFs,',')" /> <xsl:attribute name="{$att_name}"> <xsl:value-of select="$att_val" /> </xsl:attribute> </xsl:if> <xsl:apply-templates /> </xsl:element> </xsl:when> <xsl:otherwise> <xsl:apply-templates /> </xsl:otherwise> </xsl:choose> </xsl:template>
You can generate a an HTML page like this:
<html> <p>Mick Jones renewed his interest in the Vintage <strong>'72 Telecaster Thinline </strong> guitar. <br/>He says <q>I love 'em</q> <img src="smileface.png"/> </p> </html>
Sub-format style, subFs - allows extra metadata, like URL for example, to be added in concert
with the fs
attribute.
Value description: The subFs attribute is used to specify the HTML attributes to use along with the HTML element declared in the fs
attribute. It is a list of name/value pairs. Each pair is separated from the next with a backslash (/). The name and the value of a pair are separated with a comma (,). Both literal backslash and comma characters are escaped with a backslash prefix.
Default value: undefined.
Used in:
<file>
,
<unit>
,
<note>
,
<source>
, <target>
,
<sc>
, <ec>
, <ph>
, <pc>
, <mrk>
, and <sm>
.
The subFs
attribute is not intended to facilitate Merging back into the original format.
Constraints
Example: For complex HTML previews that require more than one attribute on an HTML preview element, attribute pairs are separated by backslashes (\). Any literal comma or backslash in an attribute value MUST be escaped with a backslash.
For example, we would use this convention:
<ph id=”p1” fs=”img” subFs=”src,c:\\docs\\images\\smile.png\alt,My Happy Smile\title,Smiling faces\, are nice” />
To produce this HTML preview:
<img src=”c:\docs\images\smile.png” alt=”My Happy Smile” title=”Smiling faces, are nice” />
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/fs.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:fs="urn:oasis:names:tc:xliff:fs:2.0" targetNamespace="urn:oasis:names:tc:xliff:fs:2.0"> <!-- Attribute Types --> <xs:simpleType name="fs_type"> <xs:restriction base="xs:string"> <xs:enumeration value="a"/> <xs:enumeration value="b"/> <xs:enumeration value="bdo"/> <xs:enumeration value="big"/> <xs:enumeration value="blockquote"/> <xs:enumeration value="body"/> <xs:enumeration value="br"/> <xs:enumeration value="button"/> <xs:enumeration value="caption"/> <xs:enumeration value="center"/> <xs:enumeration value="cite"/> <xs:enumeration value="code"/> <xs:enumeration value="col"/> <xs:enumeration value="colgroup"/> <xs:enumeration value="dd"/> <xs:enumeration value="del"/> <xs:enumeration value="div"/> <xs:enumeration value="dl"/> <xs:enumeration value="dt"/> <xs:enumeration value="em"/> <xs:enumeration value="h1"/> <xs:enumeration value="h2"/> <xs:enumeration value="h3"/> <xs:enumeration value="h4"/> <xs:enumeration value="h5"/> <xs:enumeration value="h6"/> <xs:enumeration value="head"/> <xs:enumeration value="hr"/> <xs:enumeration value="html"/> <xs:enumeration value="i"/> <xs:enumeration value="img"/> <xs:enumeration value="label"/> <xs:enumeration value="legend"/> <xs:enumeration value="li"/> <xs:enumeration value="ol"/> <xs:enumeration value="p"/> <xs:enumeration value="pre"/> <xs:enumeration value="q"/> <xs:enumeration value="s"/> <xs:enumeration value="samp"/> <xs:enumeration value="select"/> <xs:enumeration value="small"/> <xs:enumeration value="span"/> <xs:enumeration value="strike"/> <xs:enumeration value="strong"/> <xs:enumeration value="sub"/> <xs:enumeration value="sup"/> <xs:enumeration value="table"/> <xs:enumeration value="tbody"/> <xs:enumeration value="td"/> <xs:enumeration value="tfoot"/> <xs:enumeration value="th"/> <xs:enumeration value="thead"/> <xs:enumeration value="title"/> <xs:enumeration value="tr"/> <xs:enumeration value="tt"/> <xs:enumeration value="u"/> <xs:enumeration value="ul"/> </xs:restriction> </xs:simpleType> <!-- Attributes --> <xs:attribute name="fs" type="fs:fs_type"/> <xs:attribute name="subFs" type="xs:string"/> </xs:schema>
The Metadata module provides a mechanism for storing custom metadata using elements that are part of the official XLIFF specification.
The namespace for the Metadata module is: urn:oasis:names:tc:xliff:metadata:2.0
The fragment identification prefix for the Metadata module is: mda
The elements defined in the Metadata module are: <metadata>
, <metaGroup>
, and <meta>
.
Container for metadata associated with the enclosing element.
Contains:
- One or more <metaGroup> elements |
Attributes
- id ,
OPTIONAL |
Example: Metadata can be used to store XML attribute names and values
for XLIFF Documents that do not use a skeleton. The following XML
sample contains attributes on the <document>
and <row>
elements.
<document version="3" phase="draft"> <table> <row style="head"><cell>Name</cell><cell>Position</cell></row> <row><cell>Patrick K.</cell><cell>Right Wing</cell></row> <row><cell>Bryan B.</cell><cell>Left Wing</cell></row> </table> </document>
The Metadata module can be used to preserve these attributes for a round trip without using a skeleton:
<?xml version="1.0" encoding="utf-8"?> <xliff xmlns="urn:oasis:names:tc:xliff:document:2.0" xmlns:fs="urn:oasis:names:tc:xliff:fs:2.0" xmlns:mda="urn:oasis:names:tc:xliff:metadata:2.0" version="2.0" srcLang="en"> <file id="f1"> <group id="g1" name="document"> <mda:metadata> <mda:metaGroup category="document_xml_attribute"> <mda:meta type="version">3</mda:meta> <mda:meta type="phase">draft</mda:meta> </mda:metaGroup> </mda:metadata> <group id="g2" name="table"> <group id="g3" name="row"> <mda:metadata> <mda:metaGroup category="row_xml_attribute"> <mda:meta type="style">head</mda:meta> </mda:metaGroup> </mda:metadata> <unit id="u1" name="cell"> <segment> <source>Name</source> </segment> </unit> <unit id="u2" name="cell"> <segment> <source>Position</source> </segment> </unit> </group> <group id="g4" name="row"> <unit id="u3" name="cell"> <segment> <source>Patrick K.</source> </segment> </unit> <unit id="u4" name="cell"> <segment> <source>Right Wing</source> </segment> </unit> </group> <group id="g5" name="row"> <unit id="u5" name="cell"> <segment> <source>Bryan B.</source> </segment> </unit> <unit id="u6" name="cell"> <segment> <source>Left Wing</source> </segment> </unit> </group> </group> </group> </file> </xliff>
Provides a way to organize metadata into a structured hierarchy.
Contains:
- One or more <metaGroup> or <meta> elements in any order. |
Attributes
- id ,
OPTIONAL |
- category , OPTIONAL
|
- appliesTo , OPTIONAL
|
The attributes defined in the Metadata module are:
category
, type
, and appliesTo
.
category - indicates a category for metadata contained in the enclosing <metaGroup>
element.
Value description: Text.
Default value: undefined.
Used in:
<metaGroup>
.
type - indicates the type of metadata contained by the enclosing element.
Value description: Text.
Default value: undefined.
Used in: <meta>
.
Indicates the element to which the content of the metagroup applies.
Value description: source
, target
, or ignorable
.
Default value: undefined.
Used in:
<metaGroup>
.
<mda:metadata> <mda:metaGroup> <!-- One or more of mda:metaGroup or mda:meta --> </mda:metaGroup> </mda:metadata>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/metadata.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" xmlns:mda="urn:oasis:names:tc:xliff:metadata:2.0" targetNamespace="urn:oasis:names:tc:xliff:metadata:2.0"> <!-- Not needed <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/> --> <xs:simpleType name="appliesTo"> <xs:restriction base="xs:string"> <xs:enumeration value="source"/> <xs:enumeration value="target"/> <xs:enumeration value="ignorable"/> </xs:restriction> </xs:simpleType> <!-- Elements for holding custom metadata --> <xs:element name="metadata"> <xs:complexType mixed="false"> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="mda:metaGroup" /> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> </xs:complexType> </xs:element> <xs:element name="metaGroup"> <xs:complexType> <xs:sequence> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:element ref="mda:metaGroup"/> <xs:element ref="mda:meta"/> </xs:choice> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="category" use="optional"/> <xs:attribute name="appliesTo" use="optional" type="mda:appliesTo"/> </xs:complexType> </xs:element> <xs:element name="meta"> <xs:complexType mixed="true"> <xs:attribute name="type" use="required" type="xs:string"/> </xs:complexType> </xs:element> </xs:schema>
The Resource Data module provides a mechanism for referencing external resource data that MAY need to be modified or used as contextual reference during translation.
The namespace for the Resource Data module is: urn:oasis:names:tc:xliff:resourcedata:2.0
The fragment identification prefix for the Resource Data module is: res
The elements defined in the Resource Data module are: <resourceData>
, <resourceItemRef>
, <resourceItem>
, <source>
, <target>
, and <reference>
.
Legend:
? = zero or one |
* = zero, one or more |
<resourceData>
| +---<resourceItemRef>
* | +---<resourceItem>
* | +---<source>
? | | | +---<other> * | +---<target>
? | | | +---<other> * | +---<reference>
*
Parent container for resource data associated with the enclosing element.
Contains:
At least one of the following
- Zero, one or more <resourceItemRef> elements. |
- Zero, one or more <resourceItem> elements. |
Specifies a reference to an associated <resourceItem>
element located at the <file>
level.
Contains:
This element is always empty. |
Attributes:
- id , OPTIONAL |
- ref , REQUIRED |
- attributes from other namespaces, OPTIONAL |
Constraints
The value of the OPTIONAL id attribute
MUST be unique among all <resourceItem>
and <resourceItemRef>
elements of the immediate enclosing <file>
or
<unit>
element.
Processing Requirements
Modifiers
MUST remove <resourceItemRef>
when removing
the referenced <resourceItem>
.
Container for specific resource data that is either intended for Modification, or to be used as contextual reference during Translation.
Contains:
At least one of the following
- Zero or One <source> element followed by |
- Zero or One <target> element followed by |
- Zero, one, or more <reference> elements |
Attributes:
- mimeType , OPTIONAL |
- id , OPTIONAL |
- context , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
The mimeType
attribute is REQUIRED if <target>
and <source>
child elements are empty, otherwise it is
OPTIONAL.
The value of the OPTIONAL id attribute
MUST be unique among all <resourceItem>
and <resourceItemRef>
elements of the immediate enclosing <file>
or
<unit>
element.
Processing Requirements
If a Modifier does not understand how to process the mimeType
attribute, or the file it references, the <resourceItem>
element MAY
be ignored, but still MUST be preserved.
The mimeType
attribute SHOULD only be modified or removed if the referenced files are modified or removed.
For each instance of <resourceItem>
containing only <source>
:
Modifiers
MAY leave <resourceItem>
unchanged, i.e. they are not REQUIRED to
create <target>
or <reference>
.
Modifiers
MAY create <target>
or <reference>
as a siblings of <source>
.
References the actual resource data that is either intended for Modification, or to be used as contextual reference during Translation.
Contains:
Either
- XML elements from any namespace |
or
- is empty. |
Attributes:
- href , OPTIONAL |
- xml:lang , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
Processing Requirements
When the context
attribute of <resourceItem>
is set to yes
:
When the context
attribute of <resourceItem>
is set to no
:
References the localized counterpart of the sibling <source>
element.
Contains:
Either
- XML elements from any namespace |
or
- is empty. |
Attributes:
- href , OPTIONAL |
- xml:lang , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
Processing Requirements
When the context
attribute of <resourceItem>
is set to yes
:
When the context
attribute of <resourceItem>
is set to no
:
References contextual data relating to the sibling <source>
and <target>
elements, such as a German screenshot for a Luxembourgish translator.
Contains:
- This element is always empty. |
Attributes:
- href , REQUIRED |
- xml:lang , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
Processing Requirements
Writers MAY create <reference>
if not already present.
Modifiers SHOULD NOT change <reference>
.
Modifiers MAY remove <reference>
.
The attributes defined in the Resource Data module are: id
, xml:lang
, mimeType
, context
, href
, and ref
.
Identifier - A character string used to identify a <resourceData>
element.
Value description: NMTOKEN
Default value: undefined
Used in:<resourceItem>
and <resourceItemRef>
Language - The xml:lang attribute specifies the language variant of the text of a given element.
For example: xml:lang="fr-FR"
indicates the French language as spoken in France.
Value description: A language code as described in [BCP 47].
Default value: undefined
Used in: <source>
,
<target>
, and
<reference>
.
MIME type, mimeType - indicates the type of a resource object. This generally corresponds to the content type of [RFC 2045], the MIME specification; e.g. mimeType="text/xml" indicates the resource data is a text file of XML format.
Value description: A MIME type. An existing MIME type MUST be used from a list of standard values.
Default value: undefined
Used in:<resourceItem>
If you cannot use any of the standard MIME type values as specified above, a new MIME type can be registered according to [RFC 2048].
Contextual Information - Indicates whether an external resource is to be used for context only and not modified.
Value description: yes or no
Default value: yes
Used in:<resourceItem>
Hypertext Reference, href - IRI referencing an external resource.
Value description: IRI.
Default value: undefined
Used in:<source>
, <target>
, and <reference>
Resource Item Reference - holds a reference to an associated <resourceItem>
element located at the <file>
level.
Value description: An [XML Schema Datatypes] NMTOKEN
Default value: undefined
Used in:<resourceItemRef>
Constraints
The ref
attribute value MUST be the value of the id
attribute of the <resourceItem>
element being referenced.
In this example, the <resourceData>
module at <file>
level references external XML that contains resource data
for a user interface control. The control is the container for the text “Load Registry Config” and needs to be resized to accommodate the increased length of
the string due to translation. The <resourceItemRef>
element contained in the <resourceData>
module at <unit>
level provides the reference between them.
The name attribute of the <unit>
element could serve as the key for
an editor to associate <source>
and
<target>
text with the resource data contained in the referenced
XML and display it for modification.
<file> <res:resourceData> <res:resourceItem id="r1" mimeType="text/xml" context="no"> <res:source href="resources\en\registryconfig.resources.xml" /> <res:target href="resources\de\registryconfig.resources.xml" /> </res:resourceItem> </res:resourceData> <unit id="1" name="130;WIN_DLG_CTRL_"> <segment id="1" state="translated"> <source>Load Registry Config</source> <target>Registrierungskonfiguration laden</target> </segment> <res:resourceData> <res:resourceItemRef ref="r1" /> </res:resourceData> </unit> </file>
In this example, the <resourceData>
module at the <unit>
level contains elements from another
namespace (abc), which could be displayed for modification in an editor that understands how to process the namespace.
<file> <unit id="1"> <segment id="1" state="translated"> <source>Load Registry Config</source> <target>Registrierungskonfiguration laden</target> </segment> <res:resourceData> <res:resourceItem id="r1" context="no"> <res:source> <abc:resourceType>button</abc:resourceType> <abc:resourceHeight>40</abc:resourceHeight> <abc:resourceWidth>75</abc:resourceWidth> </res:source> <res:target> <abc:resourceType>button</abc:resourceType> <abc:resourceHeight>40</abc:resourceHeight> <abc:resourceWidth>150</abc:resourceWidth> </res:target> </res:resourceItem> </res:resourceData> </unit> </file>
In this example, the <resourceData>
module references multiple static images that an editor can make use of as context while translating or reviewing.
<file> <res:resourceData> <res:resourceItem id="r1" mimeType="image/jpeg" context="yes"> <res:source xml:lang="en-us" href="resources\en\registryconfig1.resources.jpg" /> <res:target xml:lang="lb-lu" href="resources\lb\registryconfig1.resources.jpg" /> <res:reference xml:lang="de-de" href="resources\de\registryconfig1.resources.jpg" /> </res:resourceItem> <res:resourceItem id="r2" mimeType="image/jpeg" context="yes"> <res:source xml:lang="en-us" href="resources\en\registryconfig2.resources.jpg" /> <res:target xml:lang="lb-lu" href="resources\lb\registryconfig2.resources.jpg" /> </res:resourceItem> </res:resourceData> <unit id="1"> <segment id="1" state="translated"> <source>Remove Registry Config</source> <target>Registrierungskonfiguration entfernen</target> </segment> <res:resourceData> <res:resourceItemRef ref="r1" /> <res:resourceItemRef ref="r2" /> </res:resourceData> </unit> </file>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/resource_data.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" xmlns:res="urn:oasis:names:tc:xliff:resourcedata:2.0" targetNamespace="urn:oasis:names:tc:xliff:resourcedata:2.0"> <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="informativeCopiesOf3rdPartySchemas/w3c/xml.xsd"/> <xs:element name="resourceItemRef"> <xs:complexType mixed="false"> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="ref" use="required" type="xs:NMTOKEN"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="resourceItem"> <xs:complexType> <xs:sequence> <xs:element minOccurs="0" maxOccurs="1" ref="res:source"/> <xs:element minOccurs="0" maxOccurs="1" ref="res:target"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="res:reference"/> </xs:sequence> <xs:attribute name="mimeType" use="optional"/> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="context" use="optional" type="xlf:yesNo" default="yes"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="resourceData"> <xs:complexType> <xs:sequence> <xs:element minOccurs="0" maxOccurs="unbounded" ref="res:resourceItemRef"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="res:resourceItem"/> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="source"> <xs:complexType mixed="false"> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="href" use="optional"/> <xs:attribute ref="xml:lang" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="target"> <xs:complexType mixed="false"> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="href" use="optional"/> <xs:attribute ref="xml:lang" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="reference"> <xs:complexType mixed="false"> <xs:attribute name="href" use="required"/> <xs:attribute ref="xml:lang" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
The Change Tracking module is used to store revision information for XLIFF elements and attributes.
The namespace for the Change Tracking module is: urn:oasis:names:tc:xliff:changeTracking:2.0
The fragment identification prefix for the Change Tracking module is: ctr
The elements defined in the Change Tracking module are: <changeTrack>
, <revisions>
, <revision>
, and <item>
.
Parent container for change tracking information associated with a sibling element, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Contains:
- One or more <revisions> elements. |
Container for logical groups of revisions associated with a sibling element, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Contains:
- One or more <revision> elements. |
Attributes:
- appliesTo , REQUIRED |
- ref , OPTIONAL |
- currentVersion , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Processing Requirements
Modifying agents MAY create <revisions>
elements with attributes.
Modifying agents SHOULD NOT modify <revisions>
and its attributes defined in this module,
except in the case where the currentVersion
attribute is used.
This attribute SHOULD be updated when a new revision becomes the most current.
Modifying agents SHOULD NOT remove <revisions>
and its attributes defined in this module.
When the appliesTo
attribute refers to an element that is a multiple instance within
the enclosing element, the ref
attribute MUST be used to reference an individual
instance if and only if the referenced instance has an id. Using <notes>
as an example:
<notes> <note id="n1">new note</note> <note id="n2">another note</note> </notes> <ctr:changeTrack> <ctr:revisions appliesTo="note" ref="n1"> <ctr:revision> <ctr:item property="content">old note</item> </ctr:revision> </ctr:revisions> </ctr:changeTrack>
Container for specific revisions associated with a sibling element, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Contains:
- One or more <item> elements. |
Attributes:
- author , OPTIONAL |
- datetime , OPTIONAL |
- version , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Processing Requirements
Modifying agents MAY create <revision>
elements with attributes.
Modifying agents SHOULD NOT modify <revision>
and its attributes defined in this module.
Modifying agents MAY remove <revision>
and its attributes defined in this module
if and only if there is more than one instance of <revision>
present. For example, a user agent can decide
to preserve only the most current revision.
Container for a specific revision associated with a sibling element, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Contains:
- Text. |
Attributes:
- property , REQUIRED |
- attributes from other namespaces, OPTIONAL |
Processing Requirements
Modifying agents MAY create <item>
elements with attributes.
Modifying agents SHOULD NOT modify <item>
and its attribute defined in this module.
Modifying agents SHOULD NOT remove <item>
and its attribute defined in this module,
unless they are removed as part of a <revision>
element removed according to its own processing requirements.
The attributes defined in the Change Tracking module are: appliesTo
, author
, currentVersion
, datetime
, ref
, property
, and version
.
appliesTo – Indicates a specific XLIFF element which is a sibling, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Value description: Any valid XLIFF element which is a sibling, or a child of a sibling element, to the change track module within the scope of the enclosing element.
Default value: undefined
Used in:<revisions>
author - Indicates the user or agent that created or modified the referenced element or its attributes.
Value description: Text.
Default value: undefined
Used in:<revision>
.
currentVersion - holds a reference to the most current version of a revision.
Value description: An [XML Schema Datatypes] NMTOKEN
Default value: none
Used in:<revisions>
.
Constraints
The value of the currentVersion
attribute MUST be
the value of the version
attribute of one
of the <revision>
elements
listed in the same <revisions>
element.
Date and Time, datetime - Indicates the date and time the referenced element or its attributes were created or modified.
Value description: Date in one of the formats defined in [NOTE-datetime].
Default value: undefined
Used in:<revision>
.
Reference - Holds a reference to a single instance of an element that has multiple instances within the enclosing element.
Value description: An [XML Schema Datatypes] NMTOKEN
Default value: undefined
Used in:<revisions>
property – Indicates the type of revision data.
Value description: The value MUST be either content
to signify the content of an element, or the name of the attribute relating to the revision data.
Default value: none
Used in:<item>
.
version - Indicates the version of the referenced element or its attributes that were created or modified.
Value description: NMTOKEN.
Default value: undefined
Used in:<revision>
.
The following example shows change tracking for <source>
,
<target>
, and
<notes>
. Current and previous versions are both stored in the Change Tracking module.
<unit id="1"> <segment> <source>Hello World</source> <target>Guten Tag Welt</target> </segment> <notes> <note category="instruction" id="n1">The translation should be formal</note> <note category="comment" id="n2">Please Review my translation</note> </notes> <changeTrack> <revisions appliesTo="source" currentVersion="r1"> <revision author="system" datetime="2013-07-15T10:00:00+8:00" version="r1"> <item property="content">Hello World</item>> </revision> <revision author="system" datetime="2013-06-15T10:00:00+8:00" version="r2"> <item property="content">Hello</item>> </revision> <revision author="system" datetime="2013-05-15T10:00:00+8:00" version="r3"> <item property="content">Hi</item> </revision> </revisions> <revisions appliesTo="target" currentVersion="r1"> <revision author="Frank" datetime="2013-07-17T11:00:00+8:00" version="r1"> <item property="content">Guten Tag Welt</item> </revision> <revision author="Frank" datetime="2013-06-17T11:00:00+8:00" version="r2"> <item property="content">Hallo</item> </revision> <revision author="Frank" datetime="2013-05-17T11:00:00+8:00" version="r3"> <item property="content">Grüsse</item> </revision> </revisions> <revisions appliesTo="note" nid="n1" currentVersion="r1"> <revision author="Bob" datetime="2013-07-16T10:30:00+8:00" version="r1"> <item property="content">The translation should be formal</item> <item property="category">instruction</item> </revision> <revision author="Bob" datetime="2013-05-16T10:30:00+8:00" version="r2"> <item property="content">The translation should be informal</item> <item property="category">comment</item> </revision> </revisions> <revisions appliesTo="note" nid="n2" currentVersion="r1"> <revision author="Bob" datetime="2013-07-18T10:30:00+8:00" version="r1"> <item property="content">Please Review my translation</item> </revision> </revisions> </changeTrack> </unit>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/change_tracking.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" xmlns:ctr="urn:oasis:names:tc:xliff:changetracking:2.0" targetNamespace="urn:oasis:names:tc:xliff:changetracking:2.0"> <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <!-- Not needed <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/>--> <xs:element name="changeTrack"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="ctr:revisions"/> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="revisions"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="ctr:revision"/> </xs:sequence> <xs:attribute name="appliesTo" use="required" type="xlf:appliesTo"/> <xs:attribute name="ref" use="optional" type="xs:anyURI"/> <xs:attribute name="currentVersion" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="revision"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="ctr:item"/> </xs:sequence> <xs:attribute name="author" use="optional"/> <xs:attribute name="datetime" use="optional"/> <xs:attribute name="version" use="optional" type="xs:NMTOKEN"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="item"> <xs:complexType mixed="true"> <xs:attribute name="property" use="required"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
The Size and Length Restriction module provides a mechanism to annotate the XLIFF content with information on storage and general size restrictions.
The restriction framework has support for two distinct types of restrictions; storage
size restrictions and general size restriction. The reason for this is that it is often
common to have separate restrictions between storage and display / physical
representation of data. Since it would be impossible to define all restrictions here a
concept of restriction profile is introduced. The profiles for storage size and general
size are independent. The information related to restriction profiles are stored in the
processing invariant part of the XLIFF file like the <xlf:file>
, <xlf:group>
and <xlf:unit>
elements and contained within elements
defined in this module. The information regarding the specific restrictions are stored
on the processing invariant parts and on the inline elements as attributes or attributes
referencing data in the elements defined in this module. To avoid issues with
segmentation no information regarding size restrictions is present on <xlf:segment>
, <xlf:source>
and <xlf:target>
elements. The module defines a namespace
for all the elements and attributes it introduces, in the rest of the module
specification elements and attributes are in this namespace unless stated otherwise. In
other parts of the XLIFF specification the prefix "slr" is used to refer to this module's
namespace. For clarity the prefix "xlf" will be used for XLIFF Core elements and
attributes. Profile names use the same namespace-like naming convention as user defined values in the
XLIFF Core specification. The names SHOULD be composed of two components separated by a
colon. <authority>:<name>. The authority "xliff" is reserved for profiles defined
by the OASIS XLIFF Technical Committee.
The namespace for the Size and Length restriction module is:
urn:oasis:names:tc:xliff:sizerestriction:2.0
The fragment identification prefix for the Size and Length restriction module is: slr
The elements defined in the Size and Length restriction module are: <profiles>
, <normalization>
and <data>
.
This element selects the restriction profiles to use in the document. If no storage or general profile is specified the default values (empty) of those elements will disable restriction checking in the file.
Contains:
- Zero or one <normalization> element
followed by |
- elements from any namespace, OPTIONAL |
Attributes:
- generalProfile , OPTIONAL |
- storageProfile , OPTIONAL |
Processing Requirements
Any overall configuration or settings related to the selected profile MUST be placed in child elements of this element.
Data not related to the configuration of the selected profiles MUST NOT be placed in this element.
This element is used to hold the attributes specifying the normalization form to apply to storage and size restrictions defined in the standard profiles.
Contains:
- empty element |
Attributes:
- general , OPTIONAL |
- storage , OPTIONAL |
Processing Requirements
If this element is not present no normalization SHOULD be performed for the standard profiles.
Other profiles MAY use this element in its specified form but MUST NOT add new extensions to it.
This elements act as a container for data needed by the specified profile to check the part of the XLIFF document that is a sibling or descendant of a sibling of this element. It is not used by the default profiles.
Contains:
- elements from any namespace, OPTIONAL |
Attributes:
- profile , REQUIRED |
- attributes from other namespaces, OPTIONAL |
Processing Requirements
Third party profiles MUST place all data in this element instead of using other extension points if the data serves no other purpose in the processing of the document.
Data not used by the specified profile MUST NOT be placed in this element.
The attributes defined in the Size and Length restriction module are: storageProfile
, generalProfile
, storage
, general
, profile
, storageRestriction
, sizeRestriction
, equivStorage
, sizeInfo
and sizeInfoRef
.
This attribute specifies, which profile to use while checking storage size restrictions. Empty string means that no restrictions are applied.
Value description: Name of restriction profile to use for storage size restrictions.
Default value: empty string
Used in:<profiles>
.
This attribute specifies, which profile to use while checking the general size restrictions. Empty string means that no restrictions apply.
Value description: Name of restriction profile to use for general size restrictions.
Default value: empty string
Used in:<profiles>
.
This attribute specifies the normalization form to apply for storage size restrictions. Only the normalization forms C and D as specified by the Unicode Consortium are supported, see Unicode Standard Annex #15.
Value description: normalization to apply.
Table 5. Values
Value | Description |
---|---|
none | No additional normalization SHOULD be done, content SHOULD be used as represented in the document. It is possible that other Agents have already done some type of normalization when Modifying content. This means that this setting could give different results depending on what Agents are used to perform a specific action on the XLIFF Document. |
nfc | Normalization Form C MUST be used |
nfd | Normalization Form D MUST be used |
Default value: "none"
Used in: <normalization>
.
This attribute specifies the normalization to apply for general size restrictions. Only the normalization forms C and D as specified by the Unicode Consortium are supported, see Unicode Standard Annex #15.
Value description: normalization to apply.
Table 6. Values
Value | Description |
---|---|
none | No additional normalization SHOULD be done, content SHOULD be used as represented in the document. It is possible that other Agents have already done some type of normalization when Modifying content. This means that this setting could give different results depending on what Agents are used to perform a specific action on the XLIFF Document. |
nfc | Normalization Form C MUST be used |
nfd | Normalization Form D MUST be used |
Default value: "none"
Used in:<normalization>
.
This attribute is used on the <data>
element to indicate what profile the contents of that element apply to.
Value description: Name of a restriction profile
Default value: undefined
Used in:<data>
.
This attribute specifies the storage restriction to apply to the collection descendants of the element it is defined on.
Value description: Interpretation of the value is dependent on selected storageProfile
. It MUST represent the restriction to apply to the indicated sub part of the document.
Default value: undefined
Used in:
<file>
,
<group>
,
<unit>
,
<mrk>
,
<sm>
,
<pc>
and
<sc>
.
This attribute specifies the size restriction to apply to the collection descendants of the element it is defined on.
Value description: Interpretation of the value is dependent on selected generalProfile
. It MUST represent the restriction to apply to the indicated sub part of the document.
Default value: undefined
Used in:
<file>
,
<group>
,
<unit>
,
<mrk>
,
<sm>
,
<pc>
and
<sc>
.
This attribute provides a means to specify how much storage space an inline element will use in the native format. This size contribution is then added to the size contributed by the textual parts.
This attribute is only allowed on the <ec>
element if that element has the isolated
attribute set to yes
. Otherwise the attribute on the paired <sc>
element also cover its partner <ec>
element.
Value description: Interpretation of the value is dependent on selected storageProfile
. It MUST represent the equivalent storage size represented by the inline element.
Default value: undefined
This attribute is used to associate profile specific information to inline elements so that size information can be decoupled from the native format or represented when the native data is not available in the XLIFF document.
It can be used on both inline elements and structural elements to provide information on things like GUI dialog or control sizes, expected padding or margins to consider for size, what font is used for contained text and so on.
This attribute is only allowed on the <ec>
element if that element has the isolated
attribute set to yes
. Otherwise the attribute on the paired <sc>
element also cover its partner <ec>
element.
Value description: Interpretation of the value is dependent on selected
generalProfile
. It
MUST represent information related to how the element it is attached to
contributes to the size of the text or entity in which it occurs or represents.
Default value: undefined
Used in:
<file>
,
<group>
,
<unit>
,
<pc>
,
<sc>
,
<ec>
, and
<ph>
.
Constraints
This attribute MUST NOT be specified
if and only if sizeInfoRef
is used. They MUST NOT be specified at the same time.
This attribute is used to point to data that provide the same function as the sizeInfo
attribute does, but with the data stored outside the inline content of the XLIFF segment.
This attribute is only allowed on the <ec>
element if that element has the
isolated
attribute set to yes
.
Otherwise the attribute on the paired <sc>
element also cover its partner <ec>
element.
Value description: a reference to data that provide the same information that could be otherwise put in a
sizeInfo
attribute.
The reference MUST point to an element in a
<data>
element
that is a sibling to the element this attribute is attached to or a sibling to one of its ancestors.
Default value: undefined
Used in:
<file>
,
<group>
,
<unit>
,
<pc>
,
<sc>
,
<ec>
, and
<ph>
,
Constraints
This attribute MUST NOT be specified
if and only if sizeInfo
is used. They MUST NOT be specified at the same time.
This profile implements a simple string length restriction based on the number of
Unicode code points. It is OPTIONAL to specify if normalization is to be applied
using the <normalization>
element
and the general
attribute. This profile
makes use of the following attributes from this module:
The value of this attribute holds the ”maximum” or ”minimum and maximum” size of the string. Either size MUST be an integer. The maximum size MAY also be ’*’ to denote that there is no maximum restriction. If only a maximum is specified it is implied that the minimum is 0 (empty string). The format of the value is the OPTIONAL minimum size and a coma followed by a maximum size (”[minsize,]maxsize”). The default value is ’*’ which evaluates to a string with unbounded size.
These three profiles define the standard size restriction profiles for the common
Unicode character encoding schemes. It is OPTIONAL to specify if normalization is to be
applied using the <normalization>
element and
the storage
. All sizes are represented
in 8bit bytes. The size of text for these profiles is the size of the text converted
to the selected encoding without any byte order marks attached. The encodings are
specified by the Unicode Consortium in chapter 2.5 of the
Unicode Standard [Unicode].
Table 7. Profiles
Name | Description |
---|---|
xliff:utf8 | The number of 8bit bytes needed to represent the string encoded as UTF-8 as specified by the Unicode consortium. |
xliff:utf16 | The number of 8bit bytes needed to represent the string encoded as UTF-16 as specified by the Unicode consortium. |
xliff:utf32 | The number of 8bit bytes needed to represent the string encoded as UTF-32 as specified by the Unicode consortium. |
These profiles make use of the following attributes from this module:
The value of this attribute holds the ”maximum” or ”minimum and maximum” size of the string. Either size MUST be an integer. The maximum size MAY also be ’*’ to denote that there is no maximum restriction. If only a maximum is specified it is implied that the minimum is 0 (empty string). The format of the value is the OPTIONAL minimum size and a coma followed by a maximum size (”[minsize,]maxsize”). The default value is ’*’ which evaluates to a string with unbounded size.
The value of this attribute is an integer representing how many bytes the
element it is set on is considered to contribute to the total size. If
empty the default is 0. The <cp>
is always converted to its representation in
the profiles encoding and the size of that representation is used as the size
contributed by the <cp>
.
The general structure of this module together with the extensibility mechanisms
provided has been designed with the goal to cater for all practically thinkable size
restriction schemes. For example, to represent two dimensional data, a profile can adopt
a coordinate style for the values of the general restriction attributes. For instance
{x,y}
to represent width and height, or {{x1,y1},{x2,y2}}
to represent a bounding box. It is also possible to embed information necessary to drive
for instance a display simulator and attach that data to text in order to be able to
perform device specific checking. Providing font information and checking glyph based
general size are other feasible options.
To claim conformance to the XLIFF size and length restriction module an Agent MUST meet the following criteria:
MUST be compliant with the schema of the XLIFF Core specification and its extensions provided in this module.
MUST follow all processing requirements set forth in this module specification regarding the general use of elements and attributes.
MUST support all standard profiles with normalization
set to none
.
SHOULD support all standard profiles with all modes of normalization.
MAY support additional third party profiles for storage or general restrictions.
MUST provide at least one of the following:
add size and length restriction information to an XLIFF Document
if it supports the profile(s) specified in the XLIFF Document it MUST provide a way to check if the size and length restrictions in the document are met according to the profile(s) requirements.
A short example on how this module can be used is provided here with inline XML comments explaining the usage of the module features.
<xliff version="2.0" srcLang="en-us" xmlns="urn:oasis:names:tc:xliff:document:2.0" xmlns:slr="urn:oasis:names:tc:xliff:sizerestriction:2.0"> <file id="f1"> <slr:profiles generalProfile="xliff:codepoints" storageProfile="xliff:utf8"> <!-- Select standard UTF-8 storage encoding and standard codepoint size restriction both with NFC normalization--> <slr:normalization general="nfc" storage="nfc" /> </slr:profiles> <!-- The group should not require more than 255 bytes of storage And have at most 90 codepoints. Note that the sum of the unit sizes are larger than this the total content of the group must still be at most 90 codepoints. --> <group id="g1" slr:storageRestriction="255" slr:sizeRestriction="90"> <!-- This unit must not contain more than 60 code points --> <unit id="u1" slr:sizeRestriction="60"> <segment> <!-- The spanning <pc> element require 7 bytes of storage in the native format. It's content must not have more than 25 codepoints --> <source>This is a small <pc equivStorage="7" slr:sizeRestriction="25">size restriction</pc> example.</source> </segment> </unit> <!-- This unit must not have more than 35 codepoints --> <unit id="u2" slr:sizeRestriction="35"> <segment> <source>With a group structure.</source> </segment> </unit> </group> </file> </xliff>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/size_restriction.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" xmlns:slr="urn:oasis:names:tc:xliff:sizerestriction:2.0" targetNamespace="urn:oasis:names:tc:xliff:sizerestriction:2.0"> <!-- Not needed <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/> --> <xs:simpleType name="normalization_type"> <xs:restriction base="xs:string"> <xs:enumeration value="none"/> <xs:enumeration value="nfc"/> <xs:enumeration value="nfd"/> </xs:restriction> </xs:simpleType> <!-- Attributes for size and length restriction used on core elements--> <xs:attribute name="equivStorage" type="xs:string"/> <xs:attribute name="sizeInfo" type="xs:string"/> <xs:attribute name="sizeInfoRef" type="xs:NMTOKEN"/> <xs:attribute name="sizeRestriction" type="xs:string"/> <xs:attribute name="storageRestriction" type="xs:string"/> <!-- Elements for size and length restriction --> <xs:element name="profiles"> <xs:complexType mixed="false"> <xs:sequence> <xs:element minOccurs="0" maxOccurs="1" ref="slr:normalization" /> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="generalProfile" use="optional"/> <xs:attribute name="storageProfile" use="optional"/> </xs:complexType> </xs:element> <xs:element name="normalization"> <xs:complexType mixed="false"> <xs:attribute name="general" use="optional" type="slr:normalization_type" default="none"/> <xs:attribute name="storage" use="optional" type="slr:normalization_type" default="none"/> </xs:complexType> </xs:element> <xs:element name="data"> <xs:complexType mixed="false"> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="profile" use="required"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
This module defines a specific set of validation rules that can be applied to target text both globally and locally. Further constraints can be defined that allow rules to be applied to target text based on conditions in the source text or disabled to override a global scope.
The namespace for the Validation module is:
urn:oasis:names:tc:xliff:validation:2.0
The fragment identification prefix for the Validation module is: val
The elements defined in the Validation module are:
<validation>
and
<rule>
.
Parent container for a list of rules and constraints to apply to the target text of the enclosing element.
Contains:
- One or more <rule> elements. |
Attributes:
- attributes from other namespaces, OPTIONAL |
Processing Requirements
When the <validation>
element occurs at the
<file>
level, rules MUST be applied to all
<target>
elements within the scope of that
<file>
element, except where overrides are specified at the
<group>
or
<unit>
level.
When <validation>
occurs at the
<group>
level, rules MUST be applied to all
<target>
elements within the scope of that
<group>
, except where overrides are specified in a nested
<group>
element, or at the
<unit>
level.
When <validation>
occurs at the
<unit>
level, rules MUST be applied to all
<target>
elements within the scope of that
<unit>
.
A specific rule and constraint to apply to the target text of the enclosing element.
Contains:
- This element is always empty. |
Attributes:
- isPresent , OPTIONAL |
- occurs , OPTIONAL |
- isNotPresent , OPTIONAL |
- startsWith , OPTIONAL |
- endsWith , OPTIONAL |
- existsInSource , OPTIONAL |
- caseSensitive , OPTIONAL |
- normalization , OPTIONAL |
- disabled , OPTIONAL |
- attributes from other namespaces, OPTIONAL |
Constraints
Exactly one of the following attributes:
a custom rule defined by attributes from any namespace
is REQUIRED in any one <rule>
element.
Processing Requirements
Writers
MAY create and add new <rule>
elements, provided that the new rules do not
contradict rules already present.
Modifiers
MUST NOT change attributes defined in this module that are
already present in any <rule>
element.
Modifiers MUST NOT remove either <rule>
elements or their attributes defined in this
module.
The attributes defined in the Validation module are:
isPresent
,
occurs
,
isNotPresent
,
startsWith
,
endsWith
,
existsInSource
,
mustLoc
,
noLoc
,
caseSensitive
,
normalization
, and
disabled
.
This rule attribute specifies that a string MUST be present in the target text at least once.
For example, the following is valid:
<unit id="1"> <val:validation> <val:rule isPresent="online" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na loja online.</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule isPresent="loja" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na online store.</target> </segment> </unit>
Other rule attributes can be combined with isPresent
to produce the following results:
isPresent=”loja” - loja is found in the target text at least once. |
isPresent=”loja” occurs=”1” - loja is found in the target text exactly once. |
isPresent=”loja” existsInSource=”yes” - loja is found in both source and target text the same number of times. |
isPresent=”loja” existsInSource=”yes” occurs=”1” - loja is found in both source and target text and occurs in target text exactly once. |
Value description: Text
Default value: none
Used in: <val:rule>
This rule attribute is used with the isPresent
rule attribute to specify the exact
number of times a string MUST be present in the target text. When this
rule attribute is not used, then the string MUST be present in the target
text at least once.
For example, the following is valid:
<unit id="1"> <val:validation> <val:rule isPresent="loja" occurs="2" /> </val:validation> <segment id="1"> <source>Choose a store option in the online store.</source> <target>Escolha uma opção de loja na loja online.</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule isPresent="loja" occurs="2" /> </val:validation> <segment id="1"> <source>Choose a store option in the online store.</source> <target>Escolha uma opção de loja na online store.</target> </segment> </unit>
Value description: A number of 1 or greater.
Default value: none
Used in: <val:rule>
This rule attribute specifies that a string MUST NOT be present in the target text.
For example, the following is valid:
<unit id="1"> <val:validation> <val:rule isNotPresent="store" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na loja online.</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule isNotPresent="store" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na online store.</target> </segment> </unit>
Value description: Text.
Default value: none
Used in: <val:rule>
This rule attribute specifies that a string MUST start with a specific value.
For example, the following is valid:
<unit id="1"> <val:validation> <val:rule startsWith="*" /> </val:validation> <segment id="1"> <source>*Choose an option in the online store.</source> <target>*Escolha uma opção na loja online.</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule startsWith="*" /> </val:validation> <segment id="1"> <source>*Choose an option in the online store.</source> <target>Escolha uma opção na loja online.</target> </segment> </unit>
Value description: Text.
Default value: none
Used in:
<val:rule>
This rule attribute specifies that a string MUST end with a specific value.
For example, the following is valid:
<unit id="1"> <val:validation> <val:rule endsWith=":" /> </val:validation> <segment id="1"> <source>Choose an option in the online store:</source> <target>Escolha uma opção na loja online:</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule endsWith=":" /> </val:validation> <segment id="1"> <source>Choose an option in the online store:</source> <target>Escolha uma opção na online store.</target> </segment> </unit>
Value description: Text
Default value: none
Used in: <val:rule>
When this rule attribute is used with another rule attribute and is set to yes
, it specifies that for the rule to succeed, the condition
MUST be satisfied in both source and target text. This rule attribute is valid only when used with one of the following rule attributes:
isPresent
,
startsWith
, or
endsWith
.
When existsInSource
is set to
no
, it will have no impact on execution of rules, except for overriding rules where
existsInSource
is set to yes
on a higher level.
For example, the following are valid:
<unit id="1"> <val:validation> <val:rule endsWith=":" existsInSource="yes" /> </val:validation> <segment id="1"> <source>Choose an option in the online store:</source> <target>Escolha uma opção na loja online:</target> </segment> </unit> ... <unit id="2"> <val:validation> <val:rule endsWith=":" existsInSource="no" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na loja online:</target> </segment> </unit>
Whereas the following is invalid:
<unit id="1"> <val:validation> <val:rule endsWith=":" existsInSource="yes" /> </val:validation> <segment id="1"> <source>Choose an option in the online store.</source> <target>Escolha uma opção na loja online:</target> </segment> </unit>
Value description: yes or no
Default value: no
Used in: <val:rule>
Constraints
When existsInSource
is specified, exactly one of
is REQUIRED in the same <val:rule>
element.
When one of the following:
is specified, the attribute existsInSource
MUST NOT
occur in the same <val:rule>
element.
Must localize, mustLoc - is a test for the presence of a string (substring) in the source text and a verification that it does not exist in the target text. Alternatively it can be used to verify presence of a prescribed replacement string in the target text.
Value description: Text.
Characters left parenthesis (
(U+0028), right parenthesis )
(U+0029), and quotation mark "
(U+0022) MUST be escaped by
enclosing within a pair of quotation marks, "
(U+0022). The value
MUST follow one of two patterns: either mustLoc="string"
or mustLoc="(string)(string)"
, where the prescribed replacement string is enclosed
within the second pair of parentheses.
Default value: none
Used in: <val:rule>
Processing Requirements
When mustLoc
contains only one string
from the source text,
for example: mustLoc="hello world"
; the target text MUST
NOT contain that string
.
When mustLoc
contains a string
from the source text and a
replacement string
for the target text, for example: mustLoc="(Hello world)(Hallo
Welt)"
; the target text MUST
contain that replacement string
.
Not to localize, noLoc - is a test for the presence of a string (substring) in the source text and verification that it exists also in the target text.
Value description: Text
Default value: none
Used in: <rule>
Processing Requirements
The target text MUST contain the string specified by the value of noLoc
.
This rule attribute specifies whether the test defined within that rule is case sensitive or not.
Value description: yes
if the test is case sensitive, no
if the test is case insensitive.
Default value: yes
.
Used in: <val:rule>
This rule attribute specifies the normalization type to apply when validating a rule. Only the normalization forms C and D as specified in [UAX #15].
Value description: The allowed values are listed in the table below along with their corresponding types of normalization to be applied.
Table 8. Values
Value | Description |
---|---|
none | No normalization SHOULD be done. |
nfc | Normalization Form C MUST be used. |
nfd | Normalization Form D MUST be used. |
Default value: nfc
Used in: <val:rule>
This rule attribute determines whether a rule MUST or MUST
NOT be applied within the scope of its enclosing element. For example, a rule
defined at the <file>
level can be disabled at the <unit>
level.
This attribute is provided to allow for overriding execution of rules set at higher levels,
see <val:validation>
.
In the following example, the isNotPresent rule is applied in its entirety to the first unit, but not to the second.
<file id="f1"> <val:validation> <val:rule isPresent="store" /> </val:validation> <unit id="1"> <segment id="1"> <source>Choose an option in the online store:</source> <target>Escolha uma opção na loja online:</target> </segment> </unit> <unit id="2"> <val:validation> <val:rule isPresent="store" disabled="yes" /> </val:validation> <segment id="1"> <source>Choose an option in the application store:</source> <target>Escolha uma opção na application store:</target> </segment> </unit> </file>
Value description: yes or no
Default value: no
Used in: <val:rule>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/modules/validation.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" xmlns:val="urn:oasis:names:tc:xliff:validation:2.0" targetNamespace="urn:oasis:names:tc:xliff:validation:2.0"> <xs:import namespace="urn:oasis:names:tc:xliff:document:2.0" schemaLocation="../xliff_core_2.0.xsd"/> <!-- Not needed <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="http://www.w3.org/2001/xml.xsd"/> --> <xs:simpleType name="normalization_type"> <xs:restriction base="xs:string"> <xs:enumeration value="none"/> <xs:enumeration value="nfc"/> <xs:enumeration value="nfd"/> </xs:restriction> </xs:simpleType> <xs:element name="validation"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="val:rule"/> </xs:sequence> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="rule"> <xs:complexType mixed="false"> <xs:attribute name="isPresent" use="optional"/> <xs:attribute name="occurs" use="optional"/> <xs:attribute name="isNotPresent" use="optional"/> <xs:attribute name="startsWith" use="optional"/> <xs:attribute name="endsWith" use="optional"/> <xs:attribute name="existsInSource" use="optional" type="xlf:yesNo"/> <xs:attribute name="caseSensitive" use="optional" type="xlf:yesNo"/> <xs:attribute name="normalization" use="optional" type="val:normalization_type"/> <xs:attribute name="disabled" use="optional" type="xlf:yesNo"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> </xs:schema>
This section contains listings of the core schema and catalogue for the whole specification along with an informative tree. In case any of these are in conflict with the actual schemas or catalogue that form a multipart product with this specification, the attached machine readable artifacts have precedence over the listings provided here for reading convenience.
The grammar of XLIFF 2.0 is defined using eight (8) XML Schemas and one (1) XML catalog. The module schemas are referenced from their respective modules.
Core XML Schema
| +---Candidates Module XML Schema
| +---Glossary Module XML Schema
| +---Format Style Module XML Schema
| +---Metadatata Module XML Schema
| +---Resource Data Module XML Schema
| +---Change Tracking Module XML Schema
| +---Size and Length Restriction Module XML Schema
| +---Validation Module XML Schema
The catalog listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/catalog.xml.
<?xml version="1.0" encoding="UTF-8"?> <catalog xmlns="urn:oasis:names:tc:entity:xmlns:xml:catalog"> <uri name="urn:oasis:names:tc:xliff:document:2.0" uri="xliff_core_2.0.xsd"/> <uri name="urn:oasis:names:tc:xliff:changetracking:2.0" uri="modules/change_tracking.xsd"/> <uri name="urn:oasis:names:tc:xliff:fs:2.0" uri="modules/fs.xsd"/> <uri name="urn:oasis:names:tc:xliff:glossary:2.0" uri="modules/glossary.xsd"/> <uri name="urn:oasis:names:tc:xliff:matches:2.0" uri="modules/matches.xsd"/> <uri name="urn:oasis:names:tc:xliff:metadata:2.0" uri="modules/metadata.xsd"/> <uri name="urn:oasis:names:tc:xliff:resourcedata:2.0" uri="modules/resource_data.xsd"/> <uri name="urn:oasis:names:tc:xliff:sizerestriction:2.0" uri="modules/size_restriction.xsd"/> <uri name="urn:oasis:names:tc:xliff:validation:2.0" uri="modules/validation.xsd"/> </catalog>
The schema listed below for reading convenience is accessible at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/xliff_core_2.0.xsd.
<?xml version="1.0" encoding="UTF-8"?> <xs:schema xmlns:xs="http://www.w3.org/2001/XMLSchema" elementFormDefault="qualified" xmlns:xlf="urn:oasis:names:tc:xliff:document:2.0" targetNamespace="urn:oasis:names:tc:xliff:document:2.0"> <!-- Import --> <xs:import namespace="http://www.w3.org/XML/1998/namespace" schemaLocation="informativeCopiesOf3rdPartySchemas/w3c/xml.xsd"/> <!-- Attribute definitions --> <xs:simpleType name="yesNo"> <xs:restriction base="xs:string"> <xs:enumeration value="yes"/> <xs:enumeration value="no"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="yesNoFirstNo"> <xs:restriction base="xs:string"> <xs:enumeration value="yes"/> <xs:enumeration value="firstNo"/> <xs:enumeration value="no"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="dirValue"> <xs:restriction base="xs:string"> <xs:enumeration value="ltr"/> <xs:enumeration value="rtl"/> <xs:enumeration value="auto"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="appliesTo"> <xs:restriction base="xs:string"> <xs:enumeration value="source"/> <xs:enumeration value="target"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="userDefinedValue"> <xs:restriction base="xs:string"> <xs:pattern value="[^\s:]+:[^\s:]+"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="attrType_type"> <xs:restriction base="xs:string"> <xs:pattern value="(fmt|ui|quote|link|image|other)"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="typeForMrkValues"> <xs:restriction base="xs:NMTOKEN"> <xs:enumeration value="generic"/> <xs:enumeration value="comment"/> <xs:enumeration value="term"/> <xs:enumeration value="match"/> </xs:restriction> </xs:simpleType> <xs:simpleType name="attrType_typeForMrk"> <xs:union memberTypes="xlf:typeForMrkValues xlf:userDefinedValue"/> </xs:simpleType> <!-- Structural elements --> <xs:element name="xliff"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="xlf:file"/> </xs:sequence> <xs:attribute name="version" use="required"/> <xs:attribute name="srcLang" use="required"/> <xs:attribute name="trgLang" use="optional"/> <xs:attribute ref="xml:space" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="file"> <xs:complexType> <xs:sequence> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:skeleton"/> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:notes"/> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:element ref="xlf:unit"/> <xs:element ref="xlf:group"/> </xs:choice> </xs:sequence> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="canResegment" use="optional" type="xlf:yesNo"/> <xs:attribute name="original" use="optional"/> <xs:attribute name="translate" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="srcDir" use="optional" type="xlf:dirValue"/> <xs:attribute name="trgDir" use="optional" type="xlf:dirValue"/> <xs:attribute ref="xml:space" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="skeleton"> <xs:complexType mixed="true"> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> </xs:sequence> <xs:attribute name="href" use="optional"/> </xs:complexType> </xs:element> <xs:element name="group"> <xs:complexType> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:notes"/> <xs:choice minOccurs="0" maxOccurs="unbounded"> <xs:element ref="xlf:unit"/> <xs:element ref="xlf:group"/> </xs:choice> </xs:sequence> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="name" use="optional"/> <xs:attribute name="canResegment" use="optional" type="xlf:yesNo"/> <xs:attribute name="translate" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="srcDir" use="optional" type="xlf:dirValue"/> <xs:attribute name="trgDir" use="optional" type="xlf:dirValue"/> <xs:attribute name="type" use="optional"/> <xs:attribute ref="xml:space" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="unit"> <xs:complexType> <xs:sequence> <xs:any maxOccurs="unbounded" minOccurs="0" namespace="##other" processContents="lax"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:notes"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:originalData"/> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:element ref="xlf:segment"/> <xs:element ref="xlf:ignorable"/> </xs:choice> </xs:sequence> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="name" use="optional" /> <xs:attribute name="canResegment" use="optional" type="xlf:yesNo"/> <xs:attribute name="translate" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="srcDir" use="optional" type="xlf:dirValue"/> <xs:attribute name="trgDir" use="optional" type="xlf:dirValue"/> <xs:attribute ref="xml:space" use="optional"/> <xs:attribute name="type" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="segment"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="1" ref="xlf:source"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:target"/> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="canResegment" use="optional" type="xlf:yesNo"/> <xs:attribute name="state" use="optional" default="initial"/> <xs:attribute name="subState" use="optional"/> </xs:complexType> </xs:element> <xs:element name="ignorable"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="1" ref="xlf:source"/> <xs:element minOccurs="0" maxOccurs="1" ref="xlf:target"/> </xs:sequence> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> </xs:complexType> </xs:element> <xs:element name="originalData"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="xlf:data"/> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="data"> <xs:complexType mixed="true"> <xs:sequence> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:cp"/> </xs:sequence> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="dir" use="optional" type="xlf:dirValue" default="auto"/> <xs:attribute ref="xml:space" fixed="preserve" use="optional"/> </xs:complexType> </xs:element> <xs:element name="notes"> <xs:complexType> <xs:sequence> <xs:element minOccurs="1" maxOccurs="unbounded" ref="xlf:note"/> </xs:sequence> </xs:complexType> </xs:element> <xs:element name="note"> <xs:complexType mixed="true"> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="appliesTo" use="optional" type="xlf:appliesTo"/> <xs:attribute name="category" use="optional"/> <xs:attribute name="priority" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="source"> <xs:complexType mixed="true"> <xs:group ref="xlf:inline" minOccurs="0" maxOccurs="unbounded"/> <xs:attribute ref="xml:lang" use="optional"/> <xs:attribute ref="xml:space" use="optional"/> </xs:complexType> </xs:element> <xs:element name="target"> <xs:complexType mixed="true"> <xs:group ref="xlf:inline" minOccurs="0" maxOccurs="unbounded"/> <xs:attribute ref="xml:lang" use="optional"/> <xs:attribute ref="xml:space" use="optional"/> <xs:attribute name="order" use="optional"/> </xs:complexType> </xs:element> <!-- Inline elements --> <xs:group name="inline"> <xs:choice> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:sc"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:ec"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:ph"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:pc"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:cp"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:mrk"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:sm"/> <xs:element minOccurs="0" maxOccurs="unbounded" ref="xlf:em"/> </xs:choice> </xs:group> <xs:element name="sc"> <!-- Start Code --> <xs:complexType mixed="false"> <xs:attribute name="canCopy" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canDelete" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canOverlap" use="optional" type="xlf:yesNo"/> <xs:attribute name="canReorder" use="optional" type="xlf:yesNoFirstNo" default="yes"/> <xs:attribute name="copyOf" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dataRef" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dir" use="optional" type="xlf:dirValue"/> <xs:attribute name="disp" use="optional"/> <xs:attribute name="equiv" use="optional"/> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="isolated" use="optional" type="xlf:yesNo" default="no"/> <xs:attribute name="subFlows" use="optional" type="xs:NMTOKENS"/> <xs:attribute name="subType" use="optional" type="xlf:userDefinedValue"/> <xs:attribute name="type" use="optional" type="xlf:attrType_type"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="ec"> <!-- End Code --> <xs:complexType mixed="false"> <xs:attribute name="canCopy" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canDelete" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canOverlap" use="optional" type="xlf:yesNo"/> <xs:attribute name="canReorder" use="optional" type="xlf:yesNoFirstNo" default="yes"/> <xs:attribute name="copyOf" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dataRef" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dir" use="optional" type="xlf:dirValue"/> <xs:attribute name="disp" use="optional"/> <xs:attribute name="equiv" use="optional"/> <xs:attribute name="id" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="isolated" use="optional" type="xlf:yesNo" default="no"/> <xs:attribute name="startRef" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="subFlows" use="optional" type="xs:NMTOKENS"/> <xs:attribute name="subType" use="optional" type="xlf:userDefinedValue"/> <xs:attribute name="type" use="optional" type="xlf:attrType_type"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="ph"> <!-- Placeholder --> <xs:complexType mixed="false"> <xs:attribute name="canCopy" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canDelete" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canReorder" use="optional" type="xlf:yesNoFirstNo" default="yes"/> <xs:attribute name="copyOf" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="disp" use="optional"/> <xs:attribute name="equiv" use="optional"/> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="dataRef" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="subFlows" use="optional" type="xs:NMTOKENS"/> <xs:attribute name="subType" use="optional" type="xlf:userDefinedValue"/> <xs:attribute name="type" use="optional" type="xlf:attrType_type"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="pc"> <!-- Paired Code --> <xs:complexType mixed="true"> <xs:group ref="xlf:inline" minOccurs="0" maxOccurs="unbounded"/> <xs:attribute name="canCopy" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canDelete" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="canOverlap" use="optional" type="xlf:yesNo"/> <xs:attribute name="canReorder" use="optional" type="xlf:yesNoFirstNo" default="yes"/> <xs:attribute name="copyOf" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dispEnd" use="optional"/> <xs:attribute name="dispStart" use="optional"/> <xs:attribute name="equivEnd" use="optional"/> <xs:attribute name="equivStart" use="optional"/> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="dataRefEnd" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="dataRefStart" use="optional" type="xs:NMTOKEN"/> <xs:attribute name="subFlowsEnd" use="optional" type="xs:NMTOKENS"/> <xs:attribute name="subFlowsStart" use="optional" type="xs:NMTOKENS"/> <xs:attribute name="subType" use="optional" type="xlf:userDefinedValue"/> <xs:attribute name="type" use="optional" type="xlf:attrType_type"/> <xs:attribute name="dir" use="optional" type="xlf:dirValue"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="cp"> <!-- Code Point --> <xs:complexType mixed="false"> <xs:attribute name="hex" use="required" type="xs:hexBinary"/> </xs:complexType> </xs:element> <xs:element name="mrk"> <!-- Annotation Marker --> <xs:complexType mixed="true"> <xs:group ref="xlf:inline" minOccurs="0" maxOccurs="unbounded"/> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="translate" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="type" use="optional" type="xlf:attrType_typeForMrk"/> <xs:attribute name="ref" use="optional" type="xs:anyURI"/> <xs:attribute name="value" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="sm"> <!-- Start Annotation Marker --> <xs:complexType mixed="false"> <xs:attribute name="id" use="required" type="xs:NMTOKEN"/> <xs:attribute name="translate" use="optional" type="xlf:yesNo" default="yes"/> <xs:attribute name="type" use="optional" type="xlf:attrType_typeForMrk"/> <xs:attribute name="ref" use="optional" type="xs:anyURI"/> <xs:attribute name="value" use="optional"/> <xs:anyAttribute namespace="##other" processContents="lax"/> </xs:complexType> </xs:element> <xs:element name="em"> <!-- End Annotation Marker --> <xs:complexType mixed="false"> <xs:attribute name="startRef" use="required" type="xs:NMTOKEN"/> </xs:complexType> </xs:element> </xs:schema>
Third party support schemas that are normatively referenced from this specification or
from the machine readable artifacts that are a part of this multipart product are distributed
along with the XLIFF-defined schemas in a subfolder named
informativeCopiesOf3rdPartySchemas
and further subdivided in folders according to the
owner maintainer of the schema.
Schema copies in this sub-folder are provided solely for implementers convenience and are NOT a part of the OASIS multipart product. These schemas belong to their respective owners and their use is governed by their owners' respective IPR policies. The support schemas are organized in folders per owner/maintainer. It is the implementer's sole responsibility to ensure that their local copies of all schemas are the appropriate up to date versions.
Currently the only included third party support schema is http://www.w3.org/2001/xml.xsd [http://www.w3.org/2009/01/xml.xsd] at http://docs.oasis-open.org/xliff/xliff-core/v2.0/csd03/schemas/informativeCopiesOf3rdPartySchemas/w3c/xml.xsd in this distribution.
This is to facilitate human tracking of changes in the specification made since the first Public Review publication on 16th April 2013.
This section tracks major changes made to this specification compared to the Committee Specification Drat 02 / Public Review Draft 02 http://docs.oasis-open.org/xliff/xliff-core/v2.0/csprd02/xliff-core-v2.0-csprd02.html. The 15 day Public Review took place from 20th September 2013 until 5th October 2013.
Front matter links and citation format have been adjusted as per TC admin comment 146.
In response to comment 131, the specification structure has been changed to include the module specifications in the main body of the document, rather than in Appendices.
Spelling mistakes and other minor editorial errors have been corrected mainly in response to comments - spelling: 106, 115, 117, 121, 125; other minor editorial: 116, 124, 128, 133, 134, 136, 149; and as found.
Schema corrections have been made in response to comments 112 and 138, other changes to
schemas have been made as result of some of the normative changes recorded in this tracking section;
also schema appearance and hence human readability have been improved in response to comment 145.
w3c xml.xsd
has been informatively included in the schema folder to prevent issues with
validation performance.
In response to comment 109, <unit>
ids are now required to be unique within their enclosing <file>
element rather than within their parent element.
In response to comment 111, mtc:ref
attribute was introduced on the
<match>
element in the mtc module and an analogical attribute gls:ref
was introduced in the gls module, where similar issues existed.
The values for canReorder
have been modified to allow adjacent sequences of
non-reorderable inline codes, and processing requirements have been added to specify the behavior of
non-reorderable sequences.
In response to comments 109, 111, 113, 114, 126, 130, and 151 uniqueness scopes of the core and module id attributes have been adjusted and a fragment identification and referencing mechanism has been devised and described in the dedicated "Fragment Identification" section of the specification.
The "Segmentation Modification" section has been re-organized by type of operation, and the constraints and processing requirements modified accordingly.
In response to comment 113, sub-flows have been explicitly limited to one
<file>
element.
In response to comments 103, 104, and 138, required and optional elements have been reordered,
modules have been allowed by the wildcard other
in schema and by explicit non-schema
Constraints in element descriptions. XLIFF-defined has been defined using
XLIFF TC URN prefix for namespaces to be able to discern Modules from
Extensions.
In response to comments 127 and 150, usage of attributes from xml namespace, xml:space
and xml:lang
has been restricted and clarified.
This section tracks major changes made to this specification compared to the Committee Specification Drat 01 / Public Review Draft 01 http://docs.oasis-open.org/xliff/xliff-core/v2.0/csprd01/xliff-core-v2.0-csprd01.html. The initial Public Review took place from 29th April 2013 until 29th May 2013.
This change tracking appendix has been added.
In response to comments 007 and 008, the skeleton
attribute has been removed
from the <file>
element and the whole specification. Pointing to an external
skeleton is now solely through the href
attribute on the <skeleton>
element.
In response to comment 005, front matter language about not uppercasing normative keywords has been removed and keywords uppercased via html and fo xsl stylesheets.
In response to comments 001 and 025, fs now requires to form valid HTML5 snippets that can be rendered by a browser. Example how to use images through fs has been added.
In response to comments 033 and 061, val module syntax has been simplified, no special escaping mechanism is needed, also a flag to indicate case insensitivity has been added.
In response to comments 027, and 028, res module is now allowed on both <file>
and <unit>
levels, it now also has an internal option analogical to <skeleton>
.
In response to comments 024, 036, and 050, gls module has been enhanced by adding of an id and by allowing for extensibility.
In response to comments 018, 024, and 028, markers of the type term
, can now point to gls entries.
In response to comment 006, required order of core, module, and custom elements has been harmonized on all structural levels.
In response to comment 038, modules, <notes>
, and extensions have been
prohibited on <segment>
and lower structural levels. This also caused some changes
in modules previously allowed on these levels, notably fs and mtc. Markers now allow pointing to
<match>
elements and the resegmentation flag canResegment
has been
introduced on all structural levels. Detailed processing requirements for resegmentation have been
added. Extensibility section had to be updated due to removing many extension points, the
extensibility section now lists only core extension points and refers to modules for modules'
extensibility.
In response to comments 012 and 020, the attribute prefixes "trg" and "tgt" have been harmonized to "trg".
In response to comment 014, mda module can be now used for roundtripping purposes, provide that it does not compete with core or other modules features.
In response to comment 002, normative references to the Unicode Standard (latest), to the Unicode Bidirectional Algorithm (latest), to the W3C datetime NOTE, to HTML5, XML Schema Datatypes, and to the XML Recommendation have been explicitly added. Also conformance clauses in the Conformance section have been numbered.
In response to comment 002, the specification now clearly indicates that backwards compatibility with XLIFF 1.2 is not required.
In response to comments 013 and 015, the specification now defines the use of XML Processing Instructions in XLIFF.
In response to comments 021 and 053, Processing Requirements of sub* attributes were unified, all now require update or deletion upon update of their master attribute.
In response to comments 011 and 041, the attribute approved
has been removed
from the specification including all related Constraints and Processing Requirements.
In response to comment 009, fully recursive inheritance on structural elements and markers
has been introduced for the following attributes translate
, canResegment
,
srcDir
, and trgDir
.
In response to comment 039, normative language throughout the spec and the conformance section has been reworked with the use of process and agent definitions. Many Processing Requirements have been also reclassified as Constraints that in fact target documents rather than applications.
In response to comment 010, the primary description of the segment
element has
been clarified and a reference to the Segmentation section has been added.
In response to comment 030, the primary descriptions of the file
and
group
elements have been clarified.
Examples of core and module features have been added in response to comments 026, 033, 048, 051, and 058.
The following individuals have participated in the creation of this specification and are gratefully acknowledged:
Amaya, Victor - Oracle
Chapman, Helena - IBM
Coady, Shirley - MultiCorpora R&D Inc.
Comerford, Tom - Individual
Estreen, Fredrik - Lionbridge
Filip, David - Localisation Research Centre
King, Ryan - Microsoft
Lieske, Christian - SAP AG
Loomis, Steven - IBM
Michael, Alan - Microsoft
Morado Vazquez, Lucia - Localisation Research Centre
O'Donnell, Kevin - Microsoft
Ow, Michael - IBM
Prause, Ingo - SDL
Raya, Rodolfo - Maxprograms
Ryoo, Jung Woo - Oracle
Savourel, Yves - ENLASO Corporation
Schnabel, Bryan - Individual
Schurig, Joachim - Lionbridge
Stahlschmidt, Uwe - Microsoft
Waldhör, Klemens - TAUS
Walters, David - IBM
Wasala, Asanka - Localisation Research Centre
xliff-core-v2.0-csd03 Standards Track Work Product | Copyright © OASIS 2014. All rights reserved. | 21 January 2014 |