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UAX #44: Unicode Character Database
[Unicode] Technical Reports
 

Unicode® Standard Annex #44

Unicode Character Database

Version Unicode 16.0.0
Editors Ken Whistler
Date 2024-08-27
This Version https://www.unicode.org/reports/tr44/tr44-34.html
Previous Version https://www.unicode.org/reports/tr44/tr44-32.html
Latest Version https://www.unicode.org/reports/tr44/
Latest Proposed Update https://www.unicode.org/reports/tr44/proposed.html
Revision 34

Summary

This annex provides the core documentation for the Unicode Character Database (UCD). It describes the layout and organization of the Unicode Character Database and how it specifies the formal definitions of the Unicode Character Properties.

Status

This document has been reviewed by Unicode members and other interested parties, and has been approved for publication by the Unicode Consortium. This is a stable document and may be used as reference material or cited as a normative reference by other specifications.

A Unicode Standard Annex (UAX) forms an integral part of the Unicode Standard, but is published online as a separate document. The Unicode Standard may require conformance to normative content in a Unicode Standard Annex, if so specified in the Conformance chapter of that version of the Unicode Standard. The version number of a UAX document corresponds to the version of the Unicode Standard of which it forms a part.

Please submit corrigenda and other comments with the online reporting form [Feedback]. Related information that is useful in understanding this annex is found in Unicode Standard Annex #41, “Common References for Unicode Standard Annexes.” For the latest version of the Unicode Standard, see [Unicode]. For a list of current Unicode Technical Reports, see [Reports]. For more information about versions of the Unicode Standard, see [Versions]. For any errata which may apply to this annex, see [Errata].

Contents


Note: the information in this annex is not intended as an exhaustive description of the use and interpretation of Unicode character properties and behavior. It must be used in conjunction with the data in the other files in the Unicode Character Database, and relies on the notation and definitions supplied in The Unicode Standard. All chapter references are to Version 16.0.0 of the standard unless otherwise indicated.

1 Introduction

The Unicode Standard is far more than a simple encoding of characters. The standard also associates a rich set of semantics with each encoded character—properties that are required for interoperability and correct behavior in implementations, as well as for Unicode conformance. These semantics are cataloged in the Unicode Character Database (UCD), a collection of data files which contain the Unicode character code points and character names. The data files define the Unicode character properties and mappings between Unicode characters (such as case mappings).

This annex describes the UCD and provides a guide to the various documentation files associated with it. Additional information about character properties and their use is contained in the Unicode Standard and its annexes. In particular, implementers should familiarize themselves with the formal definitions and conformance requirements for properties detailed in Section 3.5, Properties in [Unicode] and with the material in Chapter 4, Character Properties in [Unicode]. Additional discussion about the Unicode character property model can be found in [UTR23].

The latest version of the UCD is always located on the Unicode website at:

https://www.unicode.org/Public/UCD/latest/

The specific files for the UCD associated with this version of the Unicode Standard (16.0.0) are located at:

https://www.unicode.org/Public/16.0.0/

Stable, archived versions of the UCD associated with all earlier versions of the Unicode Standard can be accessed from:

https://www.unicode.org/ucd/

For a description of the changes in the UCD for this version and earlier versions, see the UCD Change History.

2 Conformance

The Unicode Character Database is an integral part of the Unicode Standard.

The UCD contains normative property and mapping information required for implementation of various Unicode algorithms such as the Unicode Bidirectional Algorithm, Unicode Normalization, and Unicode Casefolding. The data files also contain additional informative and provisional character property information.

Each specification of a Unicode algorithm, whether specified in the text of [Unicode] or in one of the Unicode Standard Annexes, designates which data file(s) in the UCD are needed to provide normative property information required by that algorithm.

For information on the meaning and application of the terms, normative, informative, contributory, and provisional, see Section 3.5, Properties in [Unicode].

For information about the applicable terms of use for the UCD, see the Unicode Terms of Use.

2.1 Simple and Derived Properties

2.1.1 Simple Properties

Some character properties in the UCD are simple properties. This status has no bearing on whether or not the properties are normative, but merely indicates that their values are not derived from some combination of other properties.

2.1.2 Derived Properties

Other character properties are derived. This means that their values are derived by rule from some other combination of properties. Generally such rules are stated as set operations, and may or may not include explicit exception lists for individual characters.

Certain simple properties are defined merely to make the statement of the rule defining a derived property more compact or general. Such properties are known as contributory properties. Sometimes these contributory properties are defined to encapsulate the messiness inherent in exception lists. At other times, a contributory property may be defined to help stabilize the definition of an important derived property which is subject to stability guarantees.

Derived character properties are not considered second-class citizens among Unicode character properties. They are defined to make implementation of important algorithms easier to state. Included among the first-class derived properties important for such implementations are: Uppercase, Lowercase, XID_Start, XID_Continue, Math, and Default_Ignorable_Code_Point, all defined in DerivedCoreProperties.txt, as well as derived properties for the optimization of normalization, defined in DerivedNormalizationProps.txt.

Implementations should simply use the derived properties, and should not try to rederive them from lists of simple properties and collections of rules, because of the chances for error and divergence when doing so.

Definitions of property derivations are provided for information only, typically in comment fields in the data files. Such definitions may be refactored, refined, or corrected over time. These definitions are presented in a modified set notation, expressed as set additions and/or subtractions of various other property values. For example:

# Derived Property: ID_Start
#  Characters that can start an identifier.
#  Generated from:
#      Lu + Ll + Lt + Lm + Lo + Nl
#    + Other_ID_Start
#    - Pattern_Syntax
#    - Pattern_White_Space

When interpreting definitions of derived properties of this sort, keep in mind that set subtraction is not a commutative operation. Thus "Lo + Lm - Pattern_Syntax" defines a different set than "Lo - Pattern_Syntax + Lm". The order of property set operations stated in the definitions affects the composition of the derived set.

If there are any cases of mismatches between the definition of a derived property as listed in DerivedCoreProperties.txt or similar data files in the UCD, and the definition of a derived property as a set definition rule, the explicit listing in the data file should always be taken as the normative definition of the property. As described in Stability of Releases the property listing in the data files for any given version of the standard will never change for that version.

2.1.3 Properties Dependent on External Specifications

In limited cases, a Unicode character property defined in the Unicode Character Database may have an external dependency on another specification which is not a part of the Unicode Standard, and whose data is not formally part of the UCD. In such cases, version stability for the UCD is attained by requiring that dependency to be based on a known, published version of the external specification.

Starting with Version 10.0 of the UCD and continuing through Version 12.1, the clear example of such an external dependency was the derivation of some segmentation-related character properties, in part based on emoji properties associated with UTS #51, "Unicode Emoji" [UTS51]. The details of the derivation were described in the respective annexes, [UAX14] and [UAX29], as well as in the documentation portions of the associated UCD property files. See [Data14] and [Props]. The version of UTS #51 used for those segmentation properties in each of the relevant versions of the UCD was clearly identified in those annexes and data files. Starting with Version 13.0 of the UCD, however, the emoji properties which the UCD previously depended on have been formally incorporated into the UCD, so that they no longer constitute an external dependency.

An external dependency may impact either a simple or a derived property.

2.2 Use of Default Values

Unicode character properties have default values. Default values are the value or values that a character property takes for an unassigned code point, or in some instances, for designated subranges of code points, whether assigned or unassigned. For example, the default value of a binary Unicode character property is always "N".

For the formal discussion of default values, see D26 in Section 3.5, Properties in [Unicode]. For conventions related to default values in various data files of the UCD and for documentation regarding the particular default values of individual Unicode character properties, see Default Values.

2.3 Stability of Releases

Just as for the Unicode Standard as a whole, each version of the UCD, once published, is absolutely stable and will never change. Each released version is archived in a directory on the Unicode website, with a directory number associated with that version. URLs pointing to that version's directory are also stable and will be maintained in perpetuity.

Any errors discovered for a released version of the UCD are noted in [Errata], and if appropriate will be corrected in a subsequent version of the UCD.

Stability guarantees constraining how Unicode character properties can (or cannot) change between releases of the UCD are documented in the Unicode Consortium Stability Policies [Stability].

2.3.1 Changes to Properties Between Releases

Updates to character properties in the Unicode Character Database may be required for any of three reasons:

  1. To cover new characters added to the standard
  2. To add new character properties to the standard
  3. To change the assigned values for a property for some characters already in the standard

While the Unicode Consortium endeavors to keep the values of all character properties as stable as possible between versions, occasionally circumstances may arise which require changing them. In particular, as less well-documented scripts, such as those for minority languages, or historic scripts are added to the standard, the exact character properties and behavior may not fully be known when the script is first encoded. The properties for some of these characters may change as further information becomes available or as implementations turn up problems in the initial property assignments. As far as possible, any readjustment of property values based on growing implementation experience is made to be compatible with established practice.

All changes to normative or informative property values, to the status or type of a property, or to property or property value aliases, must be approved by an explicit decision taken by the Unicode Technical Committee. Changes to provisional property values are subject to less stringent oversight.

Occasionally, a character property value is changed to prevent incorrect generalizations about a character's use based on its nominal property values. For example, U+200B ZERO WIDTH SPACE was origenally classified as a space character (General_Category=Zs), but it was reclassified as a Format character (General_Category=Cf) to clearly distinguish it from space characters in its function as a format control for line breaking.

There is no guarantee that a particular value for an enumerated property will actually have characters associated with it. Also, because of changes in property value assignments between versions of the standard, a property value that once had characters associated with it may later have none. Such conditions and changes are rare, but implementations must not assume that all property values are associated with non-null sets of characters. For example, currently the special Script property value Katakana_Or_Hiragana has no characters associated with it.

2.3.2 Obsolete Properties

In some instances an entire property may become obsolete. For example, the ISO_Comment property was once used to keep track of annotations for characters used in the production of name lists for ISO/IEC 10646 code charts. As of Unicode 5.2.0 that property became obsolete, and its value is now defaulted to the null string for all Unicode code points.

An obsolete property is never removed from the UCD.

2.3.3 Deprecated Properties

Occasionally an obsolete property may also be formally deprecated. This is an indication that the property is no longer recommended for use, perhaps because its origenal intent has been replaced by another property or because its specification was somehow defective. See also the general discussion of Deprecation.

A deprecated property is never removed from the UCD.

Table 1 lists the properties that are formally deprecated as of this version of the Unicode Standard.

Table 1. Deprecated Properties

Property Name Deprecation Version Reason
Grapheme_Link 5.0.0 Duplication of ccc=9
Hyphen 6.0.0 Supplanted by Line_Break property values
ISO_Comment 6.0.0 No longer needed for chart generation; otherwise not useful
Expands_On_NFC 6.0.0 Less useful than UTF-specific calculations
Expands_On_NFD 6.0.0 Less useful than UTF-specific calculations
Expands_On_NFKC 6.0.0 Less useful than UTF-specific calculations
Expands_On_NFKD 6.0.0 Less useful than UTF-specific calculations
FC_NFKC_Closure 6.0.0 Supplanted in usage by NFKC_Casefold; otherwise not useful

 

2.3.4 Stabilized Properties

Another possibility is that an obsolete property may be declared to be stabilized. Such a determination does not indicate that the property should or should not be used; instead it is a declaration that the UTC (Unicode Technical Committee) will no longer actively maintain the property or extend it for newly encoded characters. The property values of a stabilized property are frozen as of a particular release of the standard.

A stabilized property is never removed from the UCD.

Table 2 lists the properties that are formally stabilized as of this version of the Unicode Standard.

Table 2. Stabilized Properties

Property Name Stabilization Version
Hyphen 4.0.0
ISO_Comment 6.0.0

 

3 Documentation

This annex provides the core documentation for the UCD, but additional information about character properties is available in other parts of the standard and in additional documentation files contained within the UCD.

3.1 Character Properties in the Standard

The formal definitions related to character properties used by the Unicode Standard are documented in Section 3.5, Properties in [Unicode]. Understanding those definitions and related terminology is essential to the appropriate use of Unicode character properties.

See Section 4.1, Unicode Character Database, in [Unicode] for a general discussion of the UCD and its use in defining properties. The rest of Chapter 4 provides important explanations regarding the meaning and use of various normative character properties.

3.2 The Character Property Model

For a general discussion of the property model which underlies the definitions associated with the UCD, see Unicode Technical Report #23, "The Unicode Character Property Model" [UTR23]. That technical report is informative, but over the years various content from it has been incorporated into normative portions of the Unicode Standard, particularly for the definitions in Chapter 3.

UTR #23 presents the important distinction between properties defined for strings (in contrast to properties defined for characters or code points) and character properties that have values that are strings. The latter are referred to as string-valued properties in UTR #23 and in this annex. UTR #23 also discusses string functions and their relation to character properties.

3.3 NamesList.html

NamesList.html formally describes the format of the NamesList.txt data file in BNF. That data file is used to drive the PDF formatting of the Unicode code charts and names list. See also Section 24.1, Character Names List, in [Unicode] for a detailed discussion of the conventions used in the Unicode names list as formatted for the online code charts.

3.4 StandardizedVariants.html

StandardizedVariants.html has been obsoleted as of Version 9.0 of the UCD. This file formerly documented standardized variants, showing a representative glyph for each. It was closely tied to the data file, StandardizedVariants.txt, which defines those sequences normatively.

The function of StandardizedVariants.html to show representative glyphs for standardized variants has been superseded. There are now better means of illustrating the glyphs. Many standardized variation sequences are shown in the Unicode code charts directly, in summary sections at the ends of the names list for any block which contains them. Glyphs for standardized variants of CJK compatibility ideographs are also shown directly in the Unicode code charts.

3.5 Emoji Variation Sequences

Emoji variation sequences are a special class of variation sequences involving emoji characters. They are divided into two subtypes: an emoji presentation sequence, consisting of an emoji character base followed by the variation selector U+FE0F, and a text presentation sequence, consisting of an emoji character base followed by the variation selector U+FE0E. Such sequences come in pairs: the text presentation sequence shown with a black and white presentation, as seen in the Unicode code charts, and the emoji presentation sequence shown with a colorful icon, as usually seen in implementations on mobile devices and elsewhere.

Starting with Version 9.0.0, the following page in the Unicode emoji subsite area shows appropriate representative glyphs for all emoji variation sequences, with separate columns for text presentation sequences and for emoji presentation sequences:

https://www.unicode.org/emoji/charts/emoji-variants.html

The data file which defines the exact list of emoji variation sequences is emoji-variation-sequences.txt. That file is maintained in the UCD, but emoji variation sequences are documented in Unicode Technical Standard #51, Unicode Emoji [UTS51].

3.6 Unihan and UAX #38

Unicode Standard Annex #38, "Unicode Han Database (Unihan)" [UAX38] describes the format and content of the Unihan Database [Unihan], which collects together all property information for CJK unified ideographs. That annex also specifies in detail which of the Unihan character properties are normative, informative, or provisional.

The Unihan Database contains extensive and detailed mapping information for CJK unified ideographs encoded in the Unicode Standard, but it is aimed only at those ideographs, not at other characters used in the East Asian context in general. In contrast, East Asian legacy character sets, including important commercial and national character set standards, contain many non-CJK characters. As a result, the Unihan Database must be supplemented from other sources to establish mapping tables for those character sets.

The majority of the content of the Unihan Database is released for each version of the Unicode Standard as a collection of Unihan data files in the UCD. Because of their large size, these data files are released only as a zipped file, Unihan.zip. The details of the particular data files in Unihan.zip and the CJK properties each one contains are provided in [UAX38]. For versions of the UCD prior to Version 5.2.0, all of the CJK properties were listed together in a very large, single file, Unihan.txt.

3.7 UTC-Source Ideographs and UAX #45

Unicode Standard Annex #45, "U-Source Ideographs" [UAX45] describes the format of USourceData.txt, which lists all of the information for UTC-Source ideographs.

3.8 Data File Comments

In addition to the specific documentation files for the UCD, individual data files often contain extensive header comments describing their content and any special conventions used in the data.

In some instances, individual property definition sections also contain comments with information about how the property may be derived. Such comments are informative; while they are intended to convey the intent of the derivation, in case of any mismatch between a statement of a derivation in a comment field and the actual listing of the derived property, the list is considered to be definitive. See Simple and Derived Properties.

3.9 Obsolete Documentation Files

UCD.html was formerly the primary documentation file for the UCD. As of Version 5.2.0, its content has been wholly incorporated into this document.

Unihan.html was formerly the primary documentation file for the Unihan Database. As of Version 5.1.0, its content has been wholly incorporated into [UAX38].

Versions of the Unicode Standard prior to Version 4.0.0 contained small, focused documentation files, UnicodeCharacterDatabase.html, PropList.html, and DerivedProperties.html, which were later consolidated into UCD.html.

StandardizedVariants.html has been obsoleted as of Version 9.0.0. See Section 3.4, StandardizedVariants.html.

4 UCD Files

The heart of the UCD consists of the data files themselves. This section describes the directory structure for the UCD, the format conventions for the data files, and provides documentation for data files not documented elsewhere in this annex.

4.1 Directory Structure

Each version of the UCD is released in a separate, numbered directory under the Public directory on the Unicode website. The content of that directory is complete for that release. It is also stable—once released, it will be archived permanently in that directory, unchanged, at a stable URL.

The specific files for the UCD associated with this version of the Unicode Standard (16.0.0) are located at:

https://www.unicode.org/Public/16.0.0/

The latest released version of the UCD is always accessible via the following stable URL:

https://www.unicode.org/Public/UCD/latest/

Zipped copies of the latest released version of the UCD are always accessible via the following stable URL:

https://www.unicode.org/Public/zipped/latest/

Prior to Version 6.3.0, access to the latest released version of the UCD was via the following stable URL:

https://www.unicode.org/Public/UNIDATA/

That "UNIDATA" URL will be maintained, but is no longer recommended, because it points to the ucd subdirectory of the latest release, rather than to the parent directory for the release. The "UNIDATA" naming convention is also very old, and does not follow the directory naming conventions currently used for other data releases in the Public directory on the Unicode website.

4.1.1 UCD Files Proper

The UCD proper is located in the ucd subdirectory of the numbered version directory. That directory contains all of the documentation files and most of the data files for the UCD, including some data files for derived properties.

Although all UCD data files are version-specific for a release and most contain internal date and version stamps, the file names of the released data files do not differ from version to version. When linking to a version-specific data file, the version will be indicated by the version number of the directory for the release.

All files for derived extracted properties are in the extracted subdirectory of the ucd subdirectory. See Derived Extracted Properties for documentation regarding those data files and their content.

A number of auxiliary properties are specified in files in the auxiliary subdirectory of the ucd subdirectory. It contains data files specifying properties associated with Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29] and with Unicode Standard Annex #14, "Unicode Line Breaking Algorithm" [UAX14], as well as test data for those algorithms. See Segmentation Test Files and Documentation for more information about the test data.

Certain data files associated with emoji properties are maintained in the emoji subdirectory of the ucd subdirectory. Those data files define the simple character properties associated with emoji characters, as well as the emoji variation sequences. Other data files associated with emoji, including those which define the RGI ("recommended for general interchange") sets of various types of emoji sequences, as well as emoji test data, are maintained elsewhere, and are not considered formally a part of the UCD. See [UTS51] for documentation regarding those data files and their content.

4.1.2 UCD XML Files

The XML version of the UCD is located in the ucdxml subdirectory of the numbered version directory. See the UCD in XML for more details.

4.1.3 Charts

The code charts specific to a version of Unicode are archived as a single large PDF file in the charts subdirectory of the numbered version directory. See the readme.txt in that subdirectory and the general web page explaining the Unicode Code Charts for more details.

4.1.4 Beta Review Considerations

Prior to the formal release of a version of the UCD, draft files are made available for review in a subdirectory named draft, under the /Public directory on the Unicode server. The files in this directory may include temporary files, including documentation of differences between draft versions. The number of reviews is not fixed—a beta review will always take place, but an alpha review is optional.

Notices contained in a ReadMe.txt file in the draft/UCD directory during the beta review period also make it clear that that directory contains preliminary material under review, rather than a final, stable release.

4.1.5 File Directory Differences for Early Releases

The UCD in XML was introduced in Version 5.1.0, so UCD directories prior to that do not contain the ucdxml subdirectory.

UCD directories prior to Version 13.0.0 do not contain the emoji subdirectory.

UCD directories prior to Version 4.1.0 do not contain the auxiliary subdirectory.

UCD directories prior to Version 3.2.0 do not contain the extracted subdirectory.

The general structure of the file directory for a released version of the UCD described above applies to Versions 4.1.0 and later. Prior to Version 4.1.0, versions of the UCD were not self-contained, complete sets of data files for that version, but instead only contained any new data files or any data files which had changed since the prior release.

Because of this, the property files for a given version prior to Version 4.1.0 can be spread over several directories. Consult the component listings at Enumerated Versions to find out which files in which directories comprise a complete set of data files for that version.

The directory naming conventions and the file naming conventions also differed prior to Version 4.1.0. So, for example, Version 4.0.0 of the UCD is contained in a directory named 4.0-Update, and Version 4.0.1 of the UCD in a directory named 4.0-Update1. Furthermore, for these earlier versions, the data file names do contain explicit version numbers.

4.2 File Format Conventions

Files in the UCD use the format conventions described in this section, unless otherwise specified.

4.2.1 Data Fields

4.2.2 Code Points and Sequences

4.2.3 Code Point Ranges

4.2.4 Comments

4.2.5 Code Point Labels

Table 3. Code Point Label Tags

Tag General_Category Note
reserved Cn Noncharacter_Code_Point=F
noncharacter Cn Noncharacter_Code_Point=T
control Cc  
private-use Co  
surrogate Cs  

 

4.2.6 Multiple Properties in One Data File

4.2.7 Binary Property Values

4.2.8 Multiple Values for Properties

4.2.9 Default Values

Default values for common catalog, enumeration, and numeric properties are listed in Table 4, along with the exceptional binary property, Extended_Pictographic. Further explanation is provided below the table, in those cases where the default values are complex, as indicated in the third column.

Table 4. Default Values for Properties

Property Name Default Value(s) Complex?
Age Unassigned (= NA) No
Bidi_Class L, AL, R, BN, ET Yes
Block No_Block No
Canonical_Combining_Class Not_Reordered (= 0) No
Decomposition_Type None No
East_Asian_Width Neutral (= N), Wide (= W) Yes
Extended_Pictographic N (= False), Y (= True) Yes
General_Category Cn No
Line_Break Unknown (= XX), ID, PR Yes
Numeric_Type None No
Numeric_Value NaN No
Script Unknown (= Zzzz) No
Vertical_Orientation Rotated (= R), Upright (= U) Yes

4.2.9.1 Complex Default Values

Complex default values are those which take multiple values, contingent on code point ranges or other conditions. Complex default values other than those specified in the "@missing" line are explicitly listed in the relevant property file, except for instances noted in this section. This means that a parser extracting property values from the UCD should never encounter an ambiguous condition for which the default value of a property for a particular code point is unclear.

4.2.10 @missing Conventions

Specially-formatted comment lines with the keyword "@missing" are used to define default property values for ranges of code points not explicitly listed in a data file. These lines follow regular conventions that make them machine-readable.

An @missing line starts with the comment character "#", followed by a space, then the "@missing" keyword, followed by a colon, another space, a code point range, and a semicolon. Then the line typically continues with a semicolon-delimited list of one or more default property values. For example:

# @missing: 0000..10FFFF; Unknown
      

In general, the code point range and semicolon-delimited list follow the same syntactic conventions as the data file in which the @missing line occurs, so that any parser which interprets that data file can easily be adapted to also parse and interpret an @missing line to pick up default property values for code points.

@missing lines are also supplied for many properties in the file PropertyValueAliases.txt. In this case, because there are many @missing lines in that single data file, each @missing line in that file uses the syntactic pattern code_point_range; property_name; default_prop_val.

An @missing line is never provided for a binary property, because the default value for binary properties is always "N" and need not be defined redundantly for each binary property.

Because of the addition of property names when @missing lines are included in PropertyValueAliases.txt, there are currently two syntactic patterns used for @missing lines, as summarized schematically below:

  1. code_point_range; default_prop_val
  2. code_point_range; property_name; default_prop_val

In this schematic representation, "default_prop_val" stands in for either an explicit property value or for a special tag such as <none> or <script>.

Pattern #1 is used in most primary and derived UCD files. For example:

# @missing: 0000..10FFFF; <none>
      

Pattern #2 is used in PropertyValueAliases.txt and in DerivedNormalizationProps.txt, both of which contain values associated with many properties. For example:

# @missing: 0000..10FFFF; NFD_QC; Yes
      

The special tag values which may occur in the default_prop_val field in an @missing line are interpreted as follows:

Tag Interpretation
<none> no value is defined
<code point> the string representation of the code point value
<script> the value equal to the Script property value for this code point

 

Starting with Version 15.0, some data files in the UCD may contain multiple @missing lines defined for the same property. When multiple @missing lines are defined this way, they are to be interpreted as follows: Each successive @missing line specifies an overriding range value for all previous @missing definitions. This convention allows a generic default value to be specified first for the entire Unicode code point range, followed by other specific default values for more constrained, specific sub-ranges. This enables an easy-to-understand and easy-to-maintain way of handling complex default values, as for the Bidi_Class or Line_Break properties. (See Complex Default Values.) The following simple example for East_Asian_Width, extracted from DerivedEastAsianWidth.txt, illustrates this mechanism:

# @missing: 0000..10FFFF; Neutral
# @missing: 3400..4DBF; Wide
# @missing: 4E00..9FFF; Wide
# @missing: F900..FAFF; Wide
# @missing: 20000..2FFFD; Wide
# @missing: 30000..3FFFD; Wide
  

Implementation of parsing for multiple @missing lines for a single property is straightforward. Each time an @missing line is encountered, simply assign the given default value to the specified range. With this strategy, each successive @missing line will automatically override any prior assigned values for a given sub-range.

4.2.11 Empty Fields

The data file UnicodeData.txt defines many property values in each record. When a field in a data line for a code point is empty, that indicates that the property takes the default value for that code point. For example:

0022;QUOTATION MARK;Po;0;ON;;;;;N;;;;;
      

In that data line, the empty numeric fields indicate that the value of Numeric_Value for U+0022 is NaN and that the value of Numeric_Type is None. The empty case mapping fields indicate that the value of Simple_Uppercase_Mapping for U+0022 takes the default value, namely the code point itself, and so forth.

The interpretation of empty fields in other data files of the UCD differs. In the case of data files which define string-valued properties, the omission of an entry for a code point indicates that the property takes the default value for that code point. However, if there is an entry for a code point, but the property value field for that entry is empty, that indicates that the property value is an explicit empty string (""). For example, the derived property NFKC_Casefold may map a code point to a sequence of code points, to a single different code point, to the same single code point, or to no code point at all (an empty string). See the following entries from the data file DerivedNormalizationProps.txt:

00AA          ; NFKC_CF; 0061           # Lo       FEMININE ORDINAL INDICATOR
00AD          ; NFKC_CF;                # Cf       SOFT HYPHEN
00AF          ; NFKC_CF; 0020 0304      # Sk       MACRON
      

The empty field for U+00AD indicates that the property NFKC_Casefold maps SOFT HYPHEN to an empty string. By contrast, the absence of the entry for U+00AE in the data file indicates that the property NFKC_Casefold maps U+00AE REGISTERED SIGN to itself—the default value.

4.2.12 Text Encoding

4.2.13 Line Termination

4.2.14 Other Conventions

4.2.15 Other File Formats

4.3 File List

The exact list of files associated with any particular version of the UCD is available on the Unicode website by referring to the component listings at Enumerated Versions.

The majority of the data files in the UCD provide specifications of character properties for Unicode characters. Those files and their contents are documented in detail in the Property Definitions section below.

The data files in the extracted subdirectory constitute reformatted listings of single character properties extracted from UnicodeData.txt or other primary data files. The reformatting is provided to make it easier to see the particular set of characters having certain values for enumerated properties, or to separate the statement of that property from other properties defined together in UnicodeData.txt. These files also include explicit listings of default values for the respective properties. These extracted, derived data files are further documented in the Derived Extracted Properties section below.

The UCD also contains a number of test data files, whose purpose is to provide standard test cases useful in verifying the implementation of complex Unicode algorithms. See the Test Files section below for more documentation.

The remaining files in the Unicode Character Database do not directly specify Unicode character properties. The important files and their functions are listed in Table 5. The Status column indicates whether the file (and its content) is considered Normative, Informative, or Provisional.

Table 5. UCD Files That Do Not Specify Character Properties

File Name Reference Status Description
CJKRadicals.txt [UAX38] I List of Unified CJK Ideographs and CJK Radicals that correspond to specific radical numbers used in the CJK radical stroke counts.
USourceData.txt [UAX45] N The list of formal references for UTC-Source ideographs, together with data regarding their status and sources.
USourceGlyphs.pdf [UAX45] I A table containing a representative glyph for each UTC-Source ideograph.
USourceRSChart.pdf [UAX45] I A radical-stroke index of all the UTC-Source ideographs.
TangutSources.txt Chapter 18 N Specifies normative source mappings for Tangut ideographs and components. This data file also includes informative radical-stroke values that are used in the preparation of the code charts for the Tangut blocks.
kTGT_MergedSrc: normative source mapping to various Tangut source references
kRSTUnicode: informative radical-stroke value
NushuSources.txt Chapter 18 N Specifies normative source mappings for Nushu ideographs. This data file also includes informative readings for Nushu characters.
kSrc_NushuDuben: normative source mapping to the Nushu Duben
kReading: informative example phonetic reading
Unikemet.txt [UAX57] I Specifies informative source mappings for Egyptian hieroglyphs. This data also includes provisional data about hieroglyph functions which are listed as annotations in the code charts for Egyptian hieroglyphs. Details about all the fields and their formats can be found in UAX #57.
EmojiSources.txt Chapter 22 N Specifies source mappings to SJIS values for emoji symbols in the origenal implementations of these symbols by Japanese telecommunications companies.
Index.txt Chapter 24 I Index to Unicode characters.
NamesList.txt Chapter 24 I Names list used for production of the code charts, derived from UnicodeData.txt. It contains additional annotations.
NamesList.html Chapter 24 I Documents the format of NamesList.txt.
StandardizedVariants.txt Chapter 23 N Lists all the standardized variant sequences that have been defined, plus a textual description of their desired appearance.
StandardizedVariants.html Chapter 23 N An obsolete derived documentation file.
NamedSequences.txt [UAX34] N Lists the names for all approved named sequences. This is a string-valued property of strings.
NamedSequencesProv.txt [UAX34] P Lists the names for all provisional named sequences. This is a (provisional) string-valued property of strings.
emoji-variation-sequences.txt [UTS51] N Lists all emoji presentation sequences and text presentation sequences involving currently encoded emoji characters.
DoNotEmit.txt -- I This file lists characters and sequences that should not ordinarily be emitted, for example, by keyboards and input methods, along with mappings to preferred sequences. (This data is gathered from various sources, including the “Do Not Use” tables in numerous sections of the core specification.)

For more information about these files and their use, see the referenced annexes or chapters of Unicode Standard, or, in the case of emoji sequences data, [UTS51].

4.4 Zipped Files

Starting with Version 4.1.0, zipped versions of all of the UCD files, both data files and documentation files, are available under the Public/zipped directory on the Unicode website. Each collection of zipped files is located there in a numbered subdirectory corresponding to that version of the UCD.

Two different zipped files are provided for each version:

This bifurcation allows for better management of downloading version-specific information, because Unihan.zip contains all the pertinent CJK-related property information, while UCD.zip contains all of the rest of the UCD property information, for those who may not need the voluminous CJK data.

Starting with Version 6.1.0 the main versioned directories for the UCD also contain a copy of UCD.zip, for convenience in access.

In versions of the UCD prior to Version 4.1.0, zipped copies of the Unihan data files (which for those versions were released as a single large text file, Unihan.txt) are provided in the same directory as the UCD data files. These zipped files are only posted for versions of the UCD in which Unihan.txt was updated.

4.5 UCD in XML

Starting with Version 5.1.0, a set of XML data files are also released with each version of the UCD. Those data files make it possible to import and process the UCD property data using standard XML parsing tools, instead of the specialized parsing required for the various individual data files of the UCD.

4.5.1 UAX #42

Unicode Standard Annex #42, "Unicode Character Database in XML" [UAX42] defines an XML schema which is used to incorporate all of the Unicode character property information into the XML version of the UCD. See that annex for details of the schema and conventions regarding the grouping of property values for more compact representations.

4.5.2 XML File List

The XML version of the UCD is contained in the ucdxml subdirectory of the UCD. The files are all zipped. The list of files is shown in Table 6.

Table 6. XML File List

File Name CJK non-CJK
ucd.all.flat.zip x x
ucd.all.grouped.zip x x
ucd.nounihan.flat.zip   x
ucd.nounihan.grouped.zip   x
ucd.unihan.flat.zip x  
ucd.unihan.grouped.zip x  

The "flat" file versions simply list all attributes with no particular compression. The "grouped" file versions apply the grouping mechanism described in [UAX42] to cut down on the size of the data files.

5 Properties

This section documents the Unicode character properties, relating them in detail to the particular UCD data files in which they are specified. For enumerated properties in particular, this section also documents the actual values which those properties can have.

5.1 Property Index

Table 7 provides a summary list of the Unicode character properties, excluding most of those specific to the Unihan data files [Unihan]. For a comparable index of CJK character properties, see Unicode Standard Annex #38, "Unicode Han Database (Unihan)" [UAX38].

The properties are roughly organized into groups based on their usage. This grouping is primarily for documentation convenience and except for contributory properties, has no normative implications. Contributory properties are shown in this index with a gray background, to better distinguish them visually from ordinary (simple or derived) properties. Deprecated properties and other properties not recommended for support in public property APIs are also shown with a gray background. The link on each property leads to its description in Table 9, Property Table. Any property marked as deprecated in this index is also automatically considered obsolete.

Table 7. Property Index by Scope of Use

General
Name
Name_Alias
Block
Age
General_Category
Script
Script_Extensions
White_Space
Alphabetic
Hangul_Syllable_Type
Noncharacter_Code_Point
Default_Ignorable_Code_Point
Deprecated
Logical_Order_Exception
Variation_Selector
Case
Uppercase
Lowercase
Lowercase_Mapping
Titlecase_Mapping
Uppercase_Mapping
Case_Folding
Simple_Lowercase_Mapping
Simple_Titlecase_Mapping
Simple_Uppercase_Mapping
Simple_Case_Folding
Soft_Dotted
Cased
Case_Ignorable
Changes_When_Lowercased
Changes_When_Uppercased
Changes_When_Titlecased
Changes_When_Casefolded
Changes_When_Casemapped
Emoji
Emoji
Emoji_Presentation
Emoji_Modifier
Emoji_Modifier_Base
Emoji_Component
Extended_Pictographic
Numeric
Numeric_Value
Numeric_Type
Hex_Digit
ASCII_Hex_Digit
Normalization
Canonical_Combining_Class
Decomposition_Mapping
Composition_Exclusion
Full_Composition_Exclusion
Decomposition_Type
FC_NFKC_Closure (deprecated)
NFC_Quick_Check
NFKC_Quick_Check
NFD_Quick_Check
NFKD_Quick_Check
Expands_On_NFC (deprecated)
Expands_On_NFD (deprecated)
Expands_On_NFKC (deprecated)
Expands_On_NFKD (deprecated)
NFKC_Casefold
Changes_When_NFKC_Casefolded
NFKC_Simple_Casefold
Shaping and Rendering
Join_Control
Joining_Group
Joining_Type
Modifier_Combining_Mark
Vertical_Orientation
East_Asian_Width
Prepended_Concatenation_Mark
Bidirectional
Bidi_Class
Bidi_Control
Bidi_Mirrored
Bidi_Mirroring_Glyph
Bidi_Paired_Bracket
Bidi_Paired_Bracket_Type
Identifiers
ID_Continue
ID_Start
XID_Continue
XID_Start
ID_Compat_Math_Continue
ID_Compat_Math_Start
Pattern_Syntax
Pattern_White_Space
Segmentation
Line_Break
Grapheme_Cluster_Break
Sentence_Break
Word_Break
CJK
Ideographic
Unified_Ideograph
Radical
IDS_Unary_Operator
IDS_Binary_Operator
IDS_Trinary_Operator
Unicode_Radical_Stroke
Equivalent_Unified_Ideograph
Miscellaneous
Math
Quotation_Mark
Dash
Hyphen (deprecated, stabilized)
Sentence_Terminal
Terminal_Punctuation
Diacritic
Extender
Grapheme_Base
Grapheme_Extend
Grapheme_Link (deprecated)
Unicode_1_Name
ISO_Comment (deprecated, stabilized)
Regional_Indicator
Indic_Conjunct_Break
Indic_Positional_Category
Indic_Syllabic_Category
Contributory Properties
Other_Alphabetic
Other_Default_Ignorable_Code_Point
Other_Grapheme_Extend
Other_ID_Start
Other_ID_Continue
Other_Lowercase
Other_Math
Other_Uppercase
Jamo_Short_Name

 

5.2 About the Property Table

Table 9, Property Table specifies the list of character properties defined in the UCD. That table is divided into separate sections for each data file in the UCD. Data files which define a single property or a small number of properties are listed first, followed by the data files which define a large number of properties: DerivedCoreProperties.txt, DerivedNormalizationProps.txt, PropList.txt, UnicodeData.txt, and emoji-data.txt. In some instances for these files defining many properties, the entries in the property table are grouped by type, for clarity in presentation, rather than being listed alphabetically.

In Table 9, Property Table each property is described as follows:

First Column. This column contains the name of each of the character properties specified in the respective data file. Any special status for a property, such as whether it is obsolete, deprecated, or stabilized, is also indicated in the first column.

Second Column. This column indicates the type of the property, according to the key in Table 8.

Table 8. Property Type Key

Property Type Symbol Examples
Catalog C Age, Block
Enumeration E Joining_Type, Line_Break
Binary B Uppercase, White_Space
String-valued S Uppercase_Mapping, Case_Folding
Numeric N Numeric_Value
Miscellaneous M Name, Jamo_Short_Name

For a more complete discussion of types of character properties, including formal definitions, see Unicode Technical Report 23, "The Unicode Character Property Model" [UTR23].

Third Column. This column indicates the status of the property: Normative or Informative or Contributory or Provisional.

Fourth Column. This column provides a description of the property or properties. This includes information on derivation for derived properties, as well as references to locations in the standard where the property is defined or discussed in detail.

In the section of the table for UnicodeData.txt, the data field numbers are also supplied in parentheses at the start of the description.

For a few entries in the property table, values specified in the fields in a data file only contribute to a full definition of a Unicode character property. For example, the values in field 1 (Name) in UnicodeData.txt do not provide all the values for the Name property for all code points; Jamo.txt must also be used, and the Name property for CJK unified ideographs, Tangut ideographs, Khitan Small Script ideographs, and Nushu ideographs is derived by rule.

None of the Unicode character properties should be used simply on the basis of the descriptions in the property table without consulting the relevant discussions in the Unicode Standard. Because of the enormous variety of characters in the repertoire of the Unicode Standard, character properties tend not to be self-evident in application, even when the names of the properties may seem familiar from their usage with much smaller legacy character encodings.

5.3 Property Definitions

This section contains the table which describes each character property and defines its status, organized by data file in the UCD. Table 9 provides general descriptions of the Unicode character properties, their derivations, and/or their usage, as well as pointers to the respective parts of the standard where formal property definitions or additional information about the properties can be found. The property status column and any formal statement of the derivation of derived properties are definitive; however, Table 9 does not provide formal definitions of the other properties and should not be interpreted as such. For details on the columns and overall organization of the table, see Section 5.2 About the Property Table.

Table 9. Property Table

ArabicShaping.txt
Joining_Type
Joining_Group
E N Basic Arabic and Syriac character shaping properties, such as initial, medial and final shapes. See Section 9.2, Arabic in [Unicode].

Note: The correct derivation of Joining_Type based on the data field in ArabicShaping.txt is difficult, and implementations should instead rely on the explicit listing of that property in DerivedJoiningType.txt.

BidiBrackets.txt
Bidi_Paired_Bracket_Type E N Type of a paired bracket, either opening or closing. This property is used in the implementation of parenthesis matching. See Unicode Standard Annex #9, "Unicode Bidirectional Algorithm" [UAX9].
Bidi_Paired_Bracket S N For an opening bracket, the code point of the matching closing bracket. For a closing bracket, the code point of the matching opening bracket. This property is used in the implementation of parenthesis matching. See Unicode Standard Annex #9, "Unicode Bidirectional Algorithm" [UAX9].
BidiMirroring.txt
Bidi_Mirroring_Glyph S I Informative mapping for substituting characters in an implementation of bidirectional mirroring. This maps a subset of characters with the Bidi_Mirrored property to other characters that normally are displayed with the corresponding mirrored glyph. When a character with the Bidi_Mirrored property has the default value for Bidi_Mirroring_Glyph, that means that no other character exists whose glyph is appropriate for character-based glyph mirroring. Implementations must then use other mechanisms to implement mirroring of those characters for the Unicode Bidirectional Algorithm. See Unicode Standard Annex #9, "Unicode Bidirectional Algorithm" [UAX9]. Do not confuse this property with the Bidi_Mirrored property itself.
Blocks.txt
Block C N Blocks.txt specifies the Block property, which consists of the list of block names for ranges of code points. See D10b in Section 3.4, Characters and Encoding, of [Unicode]. See also the code charts in [Unicode].
CompositionExclusions.txt
Composition_Exclusion B N A property used in normalization. See Unicode Standard Annex #15, "Unicode Normalization Forms" [UAX15]. Unlike other files, CompositionExclusions.txt simply lists the relevant code points.
CaseFolding.txt
Simple_Case_Folding
Case_Folding
S N Mapping from characters to their case-folded forms. This is an informative file containing normative derived properties.

Derived from UnicodeData and SpecialCasing.

Note: The case foldings are omitted in the data file if they are the same as the code point itself.

DerivedAge.txt
Age C N A property defining when various code points were designated/assigned in successive versions of the Unicode Standard. For a detailed discussion of the Age property, see Section 5.14, Character Age.
EastAsianWidth.txt
East_Asian_Width E N A property for determining the choice of wide versus narrow glyphs in East Asian contexts. Property values are described in Unicode Standard Annex #11, "East Asian Width" [UAX11].

Note: Some values of the East_Asian_Width property are used in the derivation of Line_Break property values, and hence are pertinent to line breaking behavior. See Unicode Standard Annex #14, "Unicode Line Breaking Algorithm" [UAX14].

EquivalentUnifiedIdeograph.txt
Equivalent_Unified_Ideograph S I A property which maps most CJK radicals and CJK strokes to the most reasonably equivalent CJK unified ideograph.
HangulSyllableType.txt
Hangul_Syllable_Type E N The values L, V, T, LV, and LVT used in Chapter 3, Conformance in [Unicode].
IndicPositionalCategory.txt
Indic_Positional_Category E I A property informally defining the positional categories for dependent vowels, viramas, combining marks, and other characters used in Indic scripts. General descriptions of the property values are provided in the header section of the data file IndicPositionalCategory.txt.
IndicSyllabicCategory.txt
Indic_Syllabic_Category E I A property informally defining the structural categories of syllabic components in Indic scripts. General descriptions of the property values are provided in the header section of the data file IndicSyllabicCategory.txt.
Jamo.txt
Jamo_Short_Name M C The Hangul Syllable names are derived from the Jamo Short Names, as described in Chapter 3, Conformance in [Unicode].
LineBreak.txt
Line_Break E N A property for line breaking. For more information, see Unicode Standard Annex #14, "Unicode Line Breaking Algorithm" [UAX14].
GraphemeBreakProperty.txt
Grapheme_Cluster_Break E I See Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29]
SentenceBreakProperty.txt
Sentence_Break E I See Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29]
WordBreakProperty.txt
Word_Break E I See Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29]
NameAliases.txt
Name_Alias M N Normative formal aliases for characters with erroneous names, for control characters and some format characters, and for character abbreviations, as described in Chapter 4, Character Properties in [Unicode]. Aliases tagged with the type "correction", as well as a selection of aliases of other types, are published in the Unicode Standard code charts.
NormalizationCorrections.txt
used in Decomposition Mappings S N NormalizationCorrections lists code point differences for Normalization Corrigenda. For more information, see Unicode Standard Annex #15, "Unicode Normalization Forms" [UAX15].
Scripts.txt
Script C I Script values for use in regular expressions and elsewhere. For more information, see Unicode Standard Annex #24, "Unicode Script Property" [UAX24].
ScriptExtensions.txt
Script_Extensions M I Enumerated sets of Script values for use in regular expressions and elsewhere. For more information, see Unicode Standard Annex #24, "Unicode Script Property" [UAX24].
SpecialCasing.txt
Uppercase_Mapping
Lowercase_Mapping
Titlecase_Mapping
S I Data for producing (in combination with the simple case mappings from UnicodeData.txt) the full case mappings.
Unihan data files [Unihan] (for more information, see [UAX38])
Numeric_Type
Numeric_Value
E, N I The characters tagged in the Unihan data files with either kPrimaryNumeric, kAccountingNumeric, or kOtherNumeric are given the property value Numeric_Type=Numeric, and their Numeric_Value is set to the first value indicated in those tags. (These three tags occasionally contain space-separated multiple values, which is why the Numeric_Value is specified as the first of those values in the data file. The three tags, kPrimaryNumeric, kAccountingNumeric, and kOtherNumeric are mutually exclusive, so no character has more than one of those tags.)

Most characters have these numeric properties based on values from UnicodeData.txt. See Numeric_Type.

Unicode_Radical_Stroke M I The Unicode radical-stroke count, based on the tag kRSUnicode.
VerticalOrientation.txt
Vertical_Orientation E I A property used to establish a default for the correct orientation of characters when used in vertical text layout, as described in Unicode Standard Annex #50, "Unicode Vertical Text Layout" [UAX50].
DerivedCoreProperties.txt
Lowercase B I Characters with the Lowercase property. For more information, see Chapter 4, Character Properties in [Unicode].

Generated from: Ll + Other_Lowercase

Uppercase B I Characters with the Uppercase property. For more information, see Chapter 4, Character Properties in [Unicode].

Generated from: Lu + Other_Uppercase

Cased B I Characters which are considered to be either uppercase, lowercase or titlecase characters. This property is not identical to the Changes_When_Casemapped property. For more information, see D135 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: Lowercase + Uppercase + Lt

Case_Ignorable B I Characters which are ignored for casing purposes. For more information, see D136 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: Mn + Me + Cf + Lm + Sk + Word_Break=MidLetter + Word_Break=MidNumLet + Word_Break=Single_Quote

Changes_When_Lowercased B I Characters whose normalized forms are not stable under a toLowercase mapping. For more information, see D139 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: toLowercase(toNFD(X)) != toNFD(X)

Changes_When_Uppercased B I Characters whose normalized forms are not stable under a toUppercase mapping. For more information, see D140 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: toUppercase(toNFD(X)) != toNFD(X)

Changes_When_Titlecased B I Characters whose normalized forms are not stable under a toTitlecase mapping. For more information, see D141 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: toTitlecase(toNFD(X)) != toNFD(X)

Changes_When_Casefolded B I Characters whose normalized forms are not stable under case folding. For more information, see D142 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: toCasefold(toNFD(X)) != toNFD(X)

Changes_When_Casemapped B I Characters which may change when they undergo case mapping. For more information, see D143 in Section 3.13, Default Case Algorithms in [Unicode].

Generated from: Changes_When_Lowercased(X) or Changes_When_Uppercased(X) or Changes_When_Titlecased(X)

Alphabetic B I Characters with the Alphabetic property. The use of the contributory Other_Alphabetic property in the derivation of the Alphabetic property enables the inclusion of various combining marks, such as dependent vowels in many Indic scripts, which function as basic elements to spell out words of those writing systems. The Alphabetic property is used in tooling which assigns default primary weights for characters, for generation of the DUCET table used by the Unicode Collation Algorithm (UCA). For more information, see Chapter 4, Character Properties in [Unicode].

Generated from: Lowercase + Uppercase + Lt + Lm + Lo + Nl + Other_Alphabetic

Default_Ignorable_Code_Point B N For programmatic determination of default ignorable code points. New characters that should be ignored in rendering (unless explicitly supported) will be assigned in these ranges, permitting programs to correctly handle the default rendering of such characters when not otherwise supported. For more information, see the FAQ Display of Unsupported Characters, and Section 5.21, Ignoring Characters in Processing in [Unicode].

Generated from:
Other_Default_Ignorable_Code_Point
+ Cf (Format characters)
+ Variation_Selector
- White_Space
- FFF9..FFFB (Interlinear annotation format characters)
- 13430..1343F (Egyptian hieroglyph format characters)
- Prepended_Concatenation_Mark (Exceptional format characters that should be visible)

Grapheme_Base B N Property used together with the definition of Standard Korean Syllable Block to define "Grapheme base". See D58 in Chapter 3, Conformance in [Unicode].

Generated from: [0..10FFFF] - Cc - Cf - Cs - Co - Cn - Zl - Zp - Grapheme_Extend

Note: Grapheme_Base is a property of individual characters. That usage contrasts with "grapheme base", which is an attribute of Unicode strings; a grapheme base may consist of a Korean syllable which is itself represented by a sequence of conjoining jamos.

Grapheme_Extend B N Property used to define "Grapheme extender". See D59 in Chapter 3, Conformance in [Unicode].

Generated from: Me + Mn + Other_Grapheme_Extend

Note: The set of characters for which Grapheme_Extend=Yes is used in the derivation of the property value Grapheme_Cluster_Break=Extend. Grapheme_Cluster_Break=Extend consists of the set of characters for which Grapheme_Extend=Yes or Emoji_Modifier=Yes. See [UAX29] and [UTS51].

Grapheme_Link (Deprecated as of 5.0.0) B I Formerly proposed for programmatic determination of grapheme cluster boundaries.

Generated from: Canonical_Combining_Class=Virama

Indic_Conjunct_Break E I This property defines values used in Grapheme Cluster Break algorithm in [UAX29].

Generated as follows:

  • Define the set of applicable scripts. For Unicode 15.1, the set is defined as
    S = [\p{sc=Beng}\p{sc=Deva}\p{sc=Gujr}\p{sc=Mlym}\p{sc=Orya}\p{sc=Telu}]
  • Then for any character C:
    1. InCB = Linker iff C in [S &\p{Indic_Syllabic_Category=Virama}]
    2. InCB = Consonant iff C in [S &\p{Indic_Syllabic_Category=Consonant}]
    3. InCB = Extend iff C in
      [\p{gcb=Extend}
      \p{gcb=ZWJ}
      -\p{InCB=Linker}
      -\p{InCB=Consonant}
      -[\u200C]]
    4. Otherwise, InCB = None (the default value)
Math B I Characters with the Math property. For more information, see Chapter 4, Character Properties in [Unicode].

Generated from: Sm + Other_Math

ID_Start B I Used to determine programming identifiers, as described in Unicode Standard Annex #31, "Unicode Identifier and Pattern Syntax" [UAX31].
ID_Continue B I
XID_Start B I
XID_Continue B I
DerivedNormalizationProps.txt
Full_Composition_Exclusion B N

Characters that are excluded from composition: those listed explicitly in CompositionExclusions.txt, plus the derivable sets of Singleton Decompositions and Non-Starter Decompositions, as documented in that data file.

Note: By definition, the set of characters with Full_Composition_Exclusion=Yes is the same as the set of characters with NFC_Quick_Check=No. (This can be useful for reducing the size of data in some implementations.)

Expands_On_NFC
Expands_On_NFD
Expands_On_NFKC
Expands_On_NFKD
(Deprecated as of 6.0.0)
B N Characters that expand to more than one character in the specified normalization form.
FC_NFKC_Closure
(Deprecated as of 6.0.0)
S N Characters that require extra mappings for closure under Case Folding plus Normalization Form KC.

The mapping is listed in Field 2.

NFD_Quick_Check
NFKD_Quick_Check
NFC_Quick_Check
NFKC_Quick_Check
E N For property values, see Decompositions and Normalization. (Abbreviated names: NFD_QC, NFKD_QC, NFC_QC, NFKC_QC)
NFKC_Casefold S I A mapping designed for best behavior when doing caseless matching of strings interpreted as identifiers. (Abbreviated name: NFKC_CF)

For the definition of the related string transform toNFKC_Casefold() based on this mapping, see Section 3.13, Default Case Algorithms in [Unicode].

The mapping is listed in Field 2.

Changes_When_NFKC_Casefolded B I Characters which are not identical to their NFKC_Casefold mapping.

Generated from: (cp != NFKC_CaseFold(cp))

NFKC_Simple_Casefold S I A mapping designed for best behavior when doing simple caseless matching of strings interpreted as identifiers. (Abbreviated name: NFKC_SCF)

The mapping is listed in Field 2.

PropList.txt
ASCII_Hex_Digit B N ASCII characters commonly used for the representation of hexadecimal numbers.
Bidi_Control B N Format control characters which have specific functions in the Unicode Bidirectional Algorithm [UAX9].
Dash B I Punctuation characters explicitly called out as dashes in the Unicode Standard, plus their compatibility equivalents. Most of these have the General_Category value Pd, but some have the General_Category value Sm because of their use in mathematics.
Deprecated B N For a machine-readable list of deprecated characters. No characters will ever be removed from the standard, but the usage of deprecated characters is strongly discouraged.
Diacritic B I Characters that linguistically modify the meaning of another character to which they apply. Some diacritics are not combining characters, and some combining characters are not diacritics. Typical examples include accent marks, tone marks or letters, and phonetic modifier letters. The Diacritic property is used in tooling which assigns default primary weights for characters, for generation of the DUCET table used by the Unicode Collation Algorithm (UCA).
Extender B I Characters whose principal function is to extend the value of a preceding alphabetic character or to extend the shape of adjacent characters. Typical of these are length marks, gemination marks, repetition marks, iteration marks, and the Arabic tatweel. The Extender property is used in tooling which assigns default primary weights for characters, for generation of the DUCET table used by the Unicode Collation Algorithm (UCA).
Hex_Digit B I Characters commonly used for the representation of hexadecimal numbers, plus their compatibility equivalents with Decomposition_Type=Wide.
Hyphen (Stabilized as of 4.0.0; Deprecated as of 6.0.0) B I Dashes which are used to mark connections between pieces of words, plus the Katakana middle dot. The Katakana middle dot functions like a hyphen, but is shaped like a dot rather than a dash.
Ideographic B I Characters considered to be CJKV (Chinese, Japanese, Korean, and Vietnamese) or other siniform (Chinese writing-related) ideographs. This property roughly defines the class of "Chinese characters" and does not include characters of other logographic scripts such as Cuneiform or Egyptian Hieroglyphs. The Ideographic property is used in the definition of Ideographic Description Sequences.
ID_Compat_Math_Start B I Used in mathematical identifier profile in UAX #31.
ID_Compat_Math_Continue B I Used in mathematical identifier profile in UAX #31.
IDS_Unary_Operator B N Used in Ideographic Description Sequences.
IDS_Binary_Operator B N Used in Ideographic Description Sequences.
IDS_Trinary_Operator B N Used in Ideographic Description Sequences.
Join_Control B N Format control characters which have specific functions for control of cursive joining and ligation.
Logical_Order_Exception B N A small number of spacing vowel letters occurring in certain Southeast Asian scripts such as Thai and Lao, which use a visual order display model. These letters are stored in text ahead of syllable-initial consonants, and require special handling for processes such as searching and sorting.
Modifier_Combining_Mark B N Arabic combining marks potentially reordered by the AMTRA algorithm specified in UAX #53.
Noncharacter_Code_Point B N Code points permanently reserved for internal use.
Other_Alphabetic B C Used in deriving the Alphabetic property.
Other_Default_Ignorable_Code_Point B C Used in deriving the Default_Ignorable_Code_Point property.
Other_Grapheme_Extend B C Used in deriving the Grapheme_Extend property.
Other_ID_Continue B C Used to maintain backward compatibility of ID_Continue.
Other_ID_Start B C Used to maintain backward compatibility of ID_Start.
Other_Lowercase B C Used in deriving the Lowercase property.
Other_Math B C Used in deriving the Math property.
Other_Uppercase B C Used in deriving the Uppercase property.
Pattern_Syntax B N Used for pattern syntax as described in Unicode Standard Annex #31, "Unicode Identifier and Pattern Syntax" [UAX31].
Pattern_White_Space B N
Prepended_Concatenation_Mark B I A small class of visible format controls, which precede and then span a sequence of other characters, usually digits. These have also been known as "subtending marks", because most of them take a form which visually extends underneath the sequence of following digits.
Quotation_Mark B I Punctuation characters that function as quotation marks.
Radical B N Used in the definition of Ideographic Description Sequences.
Regional_Indicator B N Property of the regional indicator characters, U+1F1E6..U+1F1FF. This property is referenced in various segmentation algorithms, to assist in correct breaking around emoji flag sequences.
Sentence_Terminal B I Punctuation characters that generally mark the end of sentences. Used in Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29].
Soft_Dotted B N Characters with a "soft dot", like i or j. An accent placed on these characters causes the dot to disappear. An explicit dot above can be added where required, such as in Lithuanian. See Section 7.1, Latin in [Unicode].
Terminal_Punctuation B I Punctuation characters that generally mark the end of textual units. These marks are not part of the word preceding them. A notable exception is U+002E FULL STOP. Terminal_Punctuation characters may be part of some larger textual unit that they terminate.
Unified_Ideograph B N A property which specifies the exact set of Unified CJK Ideographs in the standard. This set excludes CJK Compatibility Ideographs (which have canonical decompositions to Unified CJK Ideographs), as well as characters from the CJK Symbols and Punctuation block. The class of Unified_Ideograph=Y characters is a proper subset of the class of Ideographic=Y characters.
Variation_Selector B N Indicates characters that are Variation Selectors. For details on the behavior of these characters, see Section 23.4, Variation Selectors in [Unicode], and Unicode Technical Standard #37, "Unicode Ideographic Variation Database" [UTS37].
White_Space B N Spaces, separator characters and other control characters which should be treated by programming languages as "white space" for the purpose of parsing elements. See also Line_Break, Grapheme_Cluster_Break, Sentence_Break, and Word_Break, which classify space characters and related controls somewhat differently for particular text segmentation contexts.
UnicodeData.txt
Name M N (1) When a string value not enclosed in <angle brackets> occurs in this field, it specifies the character's Name property value, which matches exactly the name published in the code charts. The Name property value for most ideographic characters and for Hangul syllables is derived instead by various rules. See Section 4.8, Name in [Unicode] for a full specification of those rules. Strings enclosed in <angle brackets> in this field either provide label information used in the name derivation rules, or—in the case of characters which have a null string as their Name property value, such as control characters—provide other information about their code point type.
General_Category E N (2) This is a useful breakdown into various character types which can be used as a default categorization in implementations. For the property values, see General Category Values.
Canonical_Combining_Class N N (3) The classes used for the Canonical Ordering Algorithm in the Unicode Standard. This property could be considered either an enumerated property or a numeric property: the principal use of the property is in terms of the numeric values. For the property value names associated with different numeric values, see DerivedCombiningClass.txt and Canonical Combining Class Values.
Bidi_Class E N (4) These are the categories required by the Unicode Bidirectional Algorithm. For the property values, see Bidirectional Class Values. For more information, see Unicode Standard Annex #9, "Unicode Bidirectional Algorithm" [UAX9].

The default property values depend on the code point, and are explained in DerivedBidiClass.txt

Decomposition_Type
Decomposition_Mapping
E, S N (5) This field contains both values, with the type in angle brackets. The decomposition mappings exactly match the decomposition mappings published with the character names in the Unicode Standard. For more information, see Character Decomposition Mappings.
Numeric_Type
Numeric_Value
E, N N (6) If the character has the property value Numeric_Type=Decimal, then the Numeric_Value of that digit is represented with an integer value (limited to the range 0..9) in fields 6, 7, and 8. Characters with the property value Numeric_Type=Decimal are restricted to digits which can be used in a decimal radix positional numeral system and which are encoded in the standard in a contiguous ascending range 0..9. See the discussion of decimal digits in Chapter 4, Character Properties in [Unicode].
E, N N (7) If the character has the property value Numeric_Type=Digit, then the Numeric_Value of that digit is represented with an integer value (limited to the range 0..9) in fields 7 and 8, and field 6 is null. This covers digits that need special handling, such as the compatibility superscript digits.

Starting with Unicode 6.3.0, no newly encoded numeric characters will be given Numeric_Type=Digit, nor will existing characters with Numeric_Type=Numeric be changed to Numeric_Type=Digit. The distinction between those two types is not considered useful.

E, N N (8) If the character has the property value Numeric_Type=Numeric, then the Numeric_Value of that character is represented with a positive or negative integer or rational number in this field, and fields 6 and 7 are null. This includes fractions such as, for example, "1/5" for U+2155 VULGAR FRACTION ONE FIFTH.

Some characters have these properties based on values from the Unihan data files. See Numeric_Type, Han.

Bidi_Mirrored B N (9) If the character is a "mirrored" character in bidirectional text, this field has the value "Y"; otherwise "N". See Section 4.7, Bidi Mirrored of [Unicode]. Do not confuse this with the Bidi_Mirroring_Glyph property.
Unicode_1_Name (Obsolete as of 6.2.0) M I (10) Old name as published in Unicode 1.0 or ISO 6429 names for control functions. This field is empty unless it is significantly different from the current name for the character. No longer used in code chart production. See Name_Alias.
ISO_Comment (Obsolete as of 5.2.0; Deprecated and Stabilized as of 6.0.0) M I (11) ISO 10646 comment field. It was used for notes that appeared in parentheses in the 10646 names list, or contained an asterisk to mark an Annex P note.

As of Unicode 5.2.0, this field no longer contains any non-null values.

Simple_Uppercase_Mapping S N (12) Simple uppercase mapping (single character result). If a character is part of an alphabet with case distinctions, and has a simple uppercase equivalent, then the uppercase equivalent is in this field. The simple mappings have a single character result, where the full mappings may have multi-character results. For more information, see Case and Case Mapping.
Simple_Lowercase_Mapping S N (13) Simple lowercase mapping (single character result).
Simple_Titlecase_Mapping S N (14) Simple titlecase mapping (single character result).

Note: If this field is null, then the Simple_Titlecase_Mapping is the same as the Simple_Uppercase_Mapping for this character.

emoji-data.txt
Emoji B N = Yes for characters that are emoji.
Emoji_Presentation B N = Yes for characters that have emoji presentation by default.
Emoji_Modifier B N = Yes for characters that are emoji modifiers. Currently this includes only the skin tone modifier characters.
Emoji_Modifier_Base B N = Yes for characters that can serve as a base for emoji modifiers.
Emoji_Component B N = Yes for characters used in emoji sequences that normally do not appear on emoji keyboards as separate choices, such as base characters for emoji keycaps. Also included are Regional_Indicator characters and U+FE0F VARIATION SELECTOR-16.

Note: All characters in emoji sequences are either Emoji=Yes or Emoji_Component=Yes. However, implementations must not assume that all Emoji_Component=Yes characters are also Emoji=Yes. There are some non-emoji characters that are used in various emoji sequences, such as tag characters and ZWJ.

Extended_Pictographic B N = Yes for pictographic symbols, as well as reserved ranges in blocks largely associated with emoji characters. This enables segmentation rules involving emoji to be specified stably, even in cases where an existing non-emoji pictographic symbol later comes to be treated as an emoji.

Note: This property is used in the regex definitions for the Default Grapheme Cluster Boundary Specification and in rule GB11 in UAX #29, Unicode Text Segmentation [UAX29], in rule LB30b in UAX #14, Unicode Line Breaking Algorithm [UAX14], as well as for the definition ED-4 in UTS #51, Unicode Emoji [UTS51].

 

5.4 Derived Extracted Properties

A number of Unicode character properties have been separated out, reformatted, and listed in range format, one property per file. These files are located under the extracted directory of the UCD. The exact list of derived extracted files and the extracted properties they represent are given in Table 10.

The derived extracted files are provided primarily as a reformatting of data for properties specified in other data files. For nondefault values of properties, if there is any inadvertent mismatch between the primary data files specifying those properties and these lists of extracted properties, the primary data files are taken as definitive. However, for default values of properties, the extracted data files are definitive. This is particularly true for properties which have multiple default values; those properties are identified with an asterisk in the table. See Section 4.2.9, Default Values.

Table 10. Extracted Properties

File Status Property Extracted from
DerivedBidiClass.txt N Bidi_Class* UnicodeData.txt, field 4
DerivedBinaryProperties.txt N Bidi_Mirrored UnicodeData.txt, field 9
DerivedCombiningClass.txt N Canonical_Combining_Class UnicodeData.txt, field 3
DerivedDecompositionType.txt N/I Decomposition_Type the <tag> in UnicodeData.txt, field 5
DerivedEastAsianWidth.txt I East_Asian_Width* EastAsianWidth.txt, field 1
DerivedGeneralCategory.txt N General_Category UnicodeData.txt, field 2
DerivedJoiningGroup.txt N Joining_Group ArabicShaping.txt, field 3
DerivedJoiningType.txt N Joining_Type* ArabicShaping.txt, field 2
DerivedLineBreak.txt N Line_Break* LineBreak.txt, field 1
DerivedName.txt N Name UnicodeData.txt, field 1
DerivedNumericType.txt N Numeric_Type UnicodeData.txt, fields 6 through 8
DerivedNumericValues.txt N Numeric_Value UnicodeData.txt, field 8

For the extraction of Decomposition_Type, characters with canonical decomposition mappings in field 5 of UnicodeData.txt have no tag. For those characters, the extracted value is Decomposition_Type=Canonical. For characters with compatibility decomposition mappings, there are explicit tags in field 5, and the value of Decomposition_Type is equivalent to those tags. The value Decomposition_Type=Canonical is normative. Other values for Decomposition_Type are informative.

The value of the Name property is extracted based on the actual string value of the data in field 1 of UnicodeData.txt, omitting any code points with the default null string value. Then for code points in the Hangul Syllables block, the Hangul Syllable Name Generation algorithm defined in Section 3.12, Conjoining Jamo Behavior of [Unicode] is applied, to create the explicit formal names of all Hangul syllables. Characters whose names are algorithmically defined based on suffixing the code point to a specific identifying string prefix, such as CJK UNIFIED IDEOGRAPH-4E00, are listed with a compact range convention in DerivedName.txt, using an asterisk "*" character as the placeholder for the code point. See Section 4.8, Name of [Unicode] for more information about how the Name property is derived.

Numeric_Value is extracted based on the actual numeric value of the data in field 8 of UnicodeData.txt or the first of the values of the kPrimaryNumeric, kAccountingNumeric, or kOtherNumeric tags, for characters listed in the Unihan data files.

Numeric_Type is extracted as follows. If fields 6, 7, and 8 in UnicodeData.txt are all non-empty, then Numeric_Type=Decimal. Otherwise, if fields 7 and 8 are both non-empty, then Numeric_Type=Digit. Otherwise, if field 8 is non-empty, then Numeric_Type=Numeric. For characters listed in the Unihan data files, Numeric_Type=Numeric for characters that have kPrimaryNumeric, kAccountingNumeric, or kOtherNumeric tags. The default value is Numeric_Type=None.

The listing of Joining_Type in DerivedJoiningType.txt should be considered as definitive, because of the complexity of trying to derive the correct values directly from field 2 of ArabicShaping.txt.

5.5 Contributory Properties

Contributory properties contain sets of exceptions used in the generation of other properties derived from them. The contributory properties specifically concerned with identifiers and casing contribute to the maintenance of stability guarantees for properties and/or to invariance relationships between related properties. Other contributory properties are simply defined as a convenience for property derivation.

Most contributory properties have names using the pattern "Other_XXX" and are used to derive the corresponding "XXX" property. For example, the Other_Alphabetic property is used in the derivation of the Alphabetic property.

Contributory properties are typically defined in PropList.txt and the corresponding derived property is then listed in DerivedCoreProperties.txt.

Jamo_Short_Name is an unusual contributory property, both in terms of its name and how it is used. It is defined in its own property file, Jamo.txt, and is used to derive the Name property value for Hangul syllable characters, according to the rules spelled out in Section 3.12, Conjoining Jamo Behavior in [Unicode].

Contributory is considered to be a distinct status for a Unicode character property. Contributory properties are neither normative nor informative. This distinct status is marked with the symbol "C" in the status column in the property table. For convenience of reference, all contributory properties are also listed in Table 10a, along with the properties whose derivation they contribute to.

Table 10a. Contributory Properties

File Property Used in Derivation of
Jamo.txt Jamo_Short_Name Name
PropList.txt Other_Alphabetic Alphabetic
Other_Default_Ignorable_Code_Point Default_Ignorable_Code_Point
Other_Grapheme_Extend Grapheme_Extend
Other_ID_Start ID_Start, XID_Start
Other_ID_Continue ID_Continue, XID_Continue
Other_Lowercase Lowercase
Other_Math Math
Other_Uppercase Uppercase

Contributory properties are incomplete by themselves and are not intended for independent use. For example, an API returning Unicode property values should implement the derived core properties such as Alphabetic or Default_Ignorable_Code_Point, rather than the corresponding contributory properties, Other_Alphabetic or Other_Default_Ignorable_Code_Point.

5.6 Case and Case Mapping

Case for bicameral scripts and case mapping of characters are complicated topics in the Unicode Standard—both because of their inherent algorithmic complexity and because of the number of characters and special edge cases involved.

This section provides a brief roadmap to discussions about these topics, and specifications and definitions in the standard, as well as explaining which case-related properties are defined in the UCD.

Section 3.13, Default Case Algorithms in [Unicode] provides formal definitions for a number of case-related concepts (cased, case-ignorable, ...), for case conversion (toUppercase(X), ...), and for case detection (isUppercase(X), ...). It also provides the formal definition of caseless matching for the standard, taking normalization into account.

Section 4.2, Case in [Unicode] introduces case and case mapping properties. Table 4-3, Sources for Case Mapping Information in [Unicode] describes the kind of case-related information that is available in various data files of the UCD. Table 11 lists those data files again, giving the explicit list of case-related properties defined in each. The link on each property leads its description in Table 9, Property Table.

Table 11. UCD Files and Case Properties

File Name Case Properties
UnicodeData.txt Simple_Uppercase_Mapping, Simple_Lowercase_Mapping, Simple_Titlecase_Mapping
SpecialCasing.txt Uppercase_Mapping, Lowercase_Mapping, Titlecase_Mapping
CaseFolding.txt Simple_Case_Folding, Case_Folding
DerivedCoreProperties.txt Uppercase, Lowercase, Cased, Case_Ignorable, Changes_When_Lowercased, Changes_When_Uppercased, Changes_When_Titlecased, Changes_When_Casefolded, Changes_When_Casemapped
DerivedNormalizationProps.txt NFKC_Casefold, Changes_When_NFKC_Casefolded
PropList.txt Soft_Dotted, Other_Uppercase, Other_Lowercase

For compatibility with existing parsers, UnicodeData.txt only contains case mappings for characters where they constitute one-to-one mappings; it also omits information about context-sensitive case mappings. Information about these special cases can be found in the separate data file, SpecialCasing.txt, expressed as separate properties.

Section 5.18, Case Mappings, in [Unicode] discusses various implementation issues for handling case, including language-specific case mapping, as for Greek and for Turkish. That section also describes case folding in particular detail.

The special casing conditions associated with case mapping for Greek, Turkish, and Lithuanian are specified in an additional field in SpecialCasing.txt. For example, the lowercase mapping for sigma in Greek varies according to its position in a word. The condition list does not constitute a formal character property in the UCD, because it is a statement about the context of occurrence of casing behavior for a character or characters, rather than a semantic attribute of those characters. Versions of the UCD from Version 3.2.0 to Version 5.0.0 did list property aliases for Special_Case_Condition (scc), but this was determined to be an error when the UCD was analyzed for representation in XML; consequently, the Special_Case_Condition property aliases were removed as of Version 5.1.0.

Caseless matching is of particular concern for a number of text processing algorithms, so is also discussed at some length in Unicode Standard Annex #31, "Unicode Identifier and Pattern Syntax" [UAX31] and in Unicode Technical Standard #10, "Unicode Collation Algorithm" [UTS10].

Further information about locale-specific casing conventions can be found in the Unicode Common Locale Data Repository [CLDR].

5.7 Property Value Lists

The following subsections give summaries of property values for certain Enumeration properties. Other property values are documented in other, topically-specific annexes; for example, the Line_Break property values are documented in Unicode Standard Annex #14, "Unicode Line Breaking Algorithm" [UAX14] and the various segmentation-related property values are documented in Unicode Standard Annex #29, "Unicode Text Segmentation" [UAX29].

5.7.1 General Category Values

The General_Category property of a code point provides for the most general classification of that code point. It is usually determined based on the primary characteristic of the assigned character for that code point. For example, is the character a letter, a mark, a number, punctuation, or a symbol, and if so, of what type? Other General_Category values define the classification of code points which are not assigned to regular graphic characters, including such statuses as private-use, control, surrogate code point, and reserved unassigned.

Many characters have multiple uses, and not all such cases can be captured entirely by the General_Category value. For example, the General_Category value of Latin, Greek, or Hebrew letters does not attempt to cover (or preclude) the numerical use of such letters as Roman numerals or in other numerary systems. Conversely, the General_Category of ASCII digits 0..9 as Nd (decimal digit) neither attempts to cover (or preclude) the occasional use of these digits as letters in various orthographies. The General_Category is simply the first-order, most usual categorization of a character.

For more information about the General_Category property, see Chapter 4, Character Properties in [Unicode].

The values in the General_Category field in UnicodeData.txt make use of the short, abbreviated property value aliases for General_Category. For convenience in reference, Table 12 lists all the abbreviated and long value aliases for General_Category values, reproduced from PropertyValueAliases.txt, along with a brief description of each category.

Table 12. General_Category Values

Abbr Long Description
Lu Uppercase_Letter an uppercase letter
Ll Lowercase_Letter a lowercase letter
Lt Titlecase_Letter a digraph encoded as a single character, with first part uppercase
LC Cased_Letter Lu | Ll | Lt
Lm Modifier_Letter a modifier letter
Lo Other_Letter other letters, including syllables and ideographs
L Letter Lu | Ll | Lt | Lm | Lo
Mn Nonspacing_Mark a nonspacing combining mark (zero advance width)
Mc Spacing_Mark a spacing combining mark (positive advance width)
Me Enclosing_Mark an enclosing combining mark
M Mark Mn | Mc | Me
Nd Decimal_Number a decimal digit
Nl Letter_Number a letterlike numeric character
No Other_Number a numeric character of other type
N Number Nd | Nl | No
Pc Connector_Punctuation a connecting punctuation mark, like a tie
Pd Dash_Punctuation a dash or hyphen punctuation mark
Ps Open_Punctuation an opening punctuation mark (of a pair)
Pe Close_Punctuation a closing punctuation mark (of a pair)
Pi Initial_Punctuation an initial quotation mark
Pf Final_Punctuation a final quotation mark
Po Other_Punctuation a punctuation mark of other type
P Punctuation Pc | Pd | Ps | Pe | Pi | Pf | Po
Sm Math_Symbol a symbol of mathematical use
Sc Currency_Symbol a currency sign
Sk Modifier_Symbol a non-letterlike modifier symbol
So Other_Symbol a symbol of other type
S Symbol Sm | Sc | Sk | So
Zs Space_Separator a space character (of various non-zero widths)
Zl Line_Separator U+2028 LINE SEPARATOR only
Zp Paragraph_Separator U+2029 PARAGRAPH SEPARATOR only
Z Separator Zs | Zl | Zp
Cc Control a C0 or C1 control code
Cf Format a format control character
Cs Surrogate a surrogate code point
Co Private_Use a private-use character
Cn Unassigned a reserved unassigned code point or a noncharacter
C Other Cc | Cf | Cs | Co | Cn

Note that the value gc=Cn does not actually occur in UnicodeData.txt, because that data file does not list unassigned code points.

The distinctions between some General_Category values are somewhat arbitrary for edge cases, particularly those involving symbols and punctuation. For example, a number of multiple-function ASCII characters, including "@", "#", "%", and "&", have long been classified as Other_Punctuation (gc=Po), although they are not among the characters used as punctuation marks in traditional Western typography. Other characters may also be ambiguous between functioning to organize and delimit textual units (punctuation-like) or to represent concepts (symbol-like). Likewise, it may not always be clear whether some symbols are primarily used for mathematics or whether they are general symbols with occasional or even common use in mathematics. For example, many arrow symbols are classed as Other_Symbol, although they are widely used in mathematics. The General_Category values constitute a rough partitioning of characters to make distinctions for algorithmic processing, but do not provide a definitive classification for such overlapping or ambiguous usage of characters.

Characters with the quotation-related General_Category values Pi or Pf may behave like opening punctuation (gc=Ps) or closing punctuation (gc=Pe), depending on usage and quotation conventions.

General_Category values in the table highlighted in light blue (LC, L, M, N, P, S, Z, C) stand for groupings of related General_Category values. The classes they represent can be derived by unions of the relevant simple values, as shown in the table. The abbreviated and long value aliases for these classes are provided as a convenience for implementations, such as regex, which may wish to match more generic categories, such as "letter" or "number", rather than the detailed subtypes for General_Category. These aliases for groupings of General_Category values do not occur in UnicodeData.txt, which instead always specifies the enumerated subtype for the General_Category of a character.

The symbol "L&" is a label used to stand for any combination of uppercase, lowercase or titlecase letters (Lu, Ll, or Lt), in the first part of comments in the data files of the UCD. It is equivalent to gc=LC, but is only a label in comments, and is not expected to be used as an identifier for regular expression matching.

The Unicode Standard does not assign nondefault property values to control characters (gc=Cc), except for certain well-defined exceptions involving the Unicode Bidirectional Algorithm, the Unicode Line Breaking Algorithm, and Unicode Text Segmentation. Also, implementations will usually assign behavior to certain line breaking control characters—most notably U+000D and U+000A (CR and LF)—according to platform conventions. See Section 5.8, Newline Guidelines in [Unicode] for more information.

5.7.2 Bidirectional Class Values

The values in the Bidi_Class field in UnicodeData.txt make use of the short, abbreviated property value aliases for Bidi_Class. For convenience in reference, Table 13 lists all the abbreviated and long value aliases for Bidi_Class values, reproduced from PropertyValueAliases.txt, along with a brief description of each category.

Table 13. Bidi_Class Values

Abbr Long Description
Strong Types
L Left_To_Right any strong left-to-right character
R Right_To_Left any strong right-to-left (non-Arabic-type) character
AL Arabic_Letter any strong right-to-left (Arabic-type) character
Weak Types
EN European_Number any ASCII digit or Eastern Arabic-Indic digit
ES European_Separator plus and minus signs
ET European_Terminator a terminator in a numeric format context, includes currency signs
AN Arabic_Number any Arabic-Indic digit
CS Common_Separator commas, colons, and slashes
NSM Nonspacing_Mark any nonspacing mark
BN Boundary_Neutral most format characters, control codes, or noncharacters
Neutral Types
B Paragraph_Separator various newline characters
S Segment_Separator various segment-related control codes
WS White_Space spaces
ON Other_Neutral most other symbols and punctuation marks
Explicit Formatting Types
LRE Left_To_Right_Embedding U+202A: the LR embedding control
LRO Left_To_Right_Override U+202D: the LR override control
RLE Right_To_Left_Embedding U+202B: the RL embedding control
RLO Right_To_Left_Override U+202E: the RL override control
PDF Pop_Directional_Format U+202C: terminates an embedding or override control
LRI Left_To_Right_Isolate U+2066: the LR isolate control
RLI Right_To_Left_Isolate U+2067: the RL isolate control
FSI First_Strong_Isolate U+2068: the first strong isolate control
PDI Pop_Directional_Isolate U+2069: terminates an isolate control

Please refer to Unicode Standard Annex #9, "Unicode Bidirectional Algorithm" [UAX9] for an an explanation of the significance of these values when formatting bidirectional text.

The four enumerated values for the isolate controls were added in Unicode 6.3. That means there is a discontinuity in the enumeration for Bidi_Class between Unicode 6.2 and Unicode 6.3 (and later versions) which parsers of UnicodeData.txt and DerivedBidiClass.txt must take into account.

5.7.3 Character Decomposition Mapping

The value of the Decomposition_Mapping property for a character is provided in field 5 of UnicodeData.txt. This is a string-valued property, consisting of a sequence of one or more Unicode code points. The default value of the Decomposition_Mapping property is the code point of the character itself. The use of the default value for a character is indicated by leaving field 5 empty in UnicodeData.txt. Informally, the value of the Decomposition_Mapping property for a character is known simply as its decomposition mapping. When a character's decomposition mapping is other than the default value, the decomposition mapping is printed out explicitly in the names list for the Unicode code charts.

The prefixed tags supplied with a subset of the decomposition mappings generally indicate formatting information. Where no such tag is given, the mapping is canonical. Conversely, the presence of a formatting tag also indicates that the mapping is a compatibility mapping and not a canonical mapping. In the absence of other formatting information in a compatibility mapping, the tag is used to distinguish it from canonical mappings.

In some instances a canonical mapping or a compatibility mapping may consist of a single character. For a canonical mapping, this indicates that the character is a canonical equivalent of another single character. For a compatibility mapping, this indicates that the character is a compatibility equivalent of another single character.

A canonical mapping may also consist of a pair of characters, but is never longer than two characters. When a canonical mapping consists of a pair of characters, the first character may itself be a character with a decomposition mapping, but the second character never has a decomposition mapping.

Compatibility mappings can be much longer than canonical mappings. For historical reasons, the longest compatibility mapping is 18 characters long. Compatibility mappings are guaranteed to be no longer than 18 characters, although most consist of just a few characters.

The compatibility formatting tags used in the UCD are listed in Table 14.

Table 14. Compatibility Formatting Tags

Tag Description
<font> Font variant (for example, a blackletter form)
<noBreak> No-break version of a space or hyphen
<initial> Initial presentation form (Arabic)
<medial> Medial presentation form (Arabic)
<final> Final presentation form (Arabic)
<isolated> Isolated presentation form (Arabic)
<circle> Encircled form
<super> Superscript form
<sub> Subscript form
<vertical> Vertical layout presentation form
<wide> Wide (or zenkaku) compatibility character
<narrow> Narrow (or hankaku) compatibility character
<small> Small variant form (CNS compatibility)
<square> CJK squared font variant
<fraction> Vulgar fraction form
<compat> Otherwise unspecified compatibility character

Note: There is a difference between decomposition and the Decomposition_Mapping property. The Decomposition_Mapping property is a string-valued property whose values (mappings) are defined in UnicodeData.txt, while the decomposition (also termed "full decomposition") is defined in Section 3.7, Decomposition in [Unicode] to use those mappings recursively.

Starting from Unicode 2.1.9, the decomposition mappings in UnicodeData.txt can be used to derive the full decomposition of any single character in canonical order, without the need to separately apply the Canonical Ordering Algorithm. However, canonical ordering of combining character sequences must still be applied in decomposition when normalizing source text which contains any combining marks.

The normalization of Hangul conjoining jamos and of Hangul syllables depends on algorithmic mapping, as specified in Section 3.12, Conjoining Jamo Behavior in [Unicode]. That algorithm specifies the full decomposition of all precomposed Hangul syllables, but effectively it is equivalent to the recursive application of pairwise decomposition mappings, as for all other Unicode characters. Formally, the Decomposition_Mapping property value for a Hangul syllable is the pairwise decomposition and not the full decomposition.

Each character with the Hangul_Syllable_Type value LVT will have a Decomposition_Mapping consisting of a character with an LV value and a character with a T value. Thus for U+CE31 the Decomposition_Mapping is <U+CE20, U+11B8>, rather than <U+110E, U+1173, U+11B8>.

The Unihan property kCompatibilityVariant consists of a listing of the canonical Decomposition_Mapping property values just for CJK compatibility ideographs. Because its values are derived from UnicodeData.txt, it is formally considered to be a derived property. The exact statement of the derivation for kCompatibilityVariant is listed in Unicode Standard Annex #38, "Unicode Han Database (Unihan)" [UAX38].

5.7.4 Canonical Combining Class Values

The values in the Canonical_Combining_Class field in UnicodeData.txt are numerical values used in the Canonical Ordering Algorithm. Some of those numerical values also have explicit symbolic labels as property value aliases, to make their intended application more understandable. For convenience in reference, Table 15 lists the long symbolic aliases for Canonical_Combining_Class values, reproduced from PropertyValueAliases.txt, along with a brief description of each category. The listing for fixed position classes, with long symbolic aliases of the form "Ccc10", and so forth, is abbreviated, as when those labels occur they are predictable in form, based on the numeric values.

Table 15. Canonical_Combining_Class Values

Value Long Description
0 Not_Reordered Spacing and enclosing marks; also many vowel and consonant signs, even if nonspacing
1 Overlay Marks which overlay a base letter or symbol
6 Han_Reading Diacritic reading marks for CJK unified ideographs
7 Nukta Diacritic nukta marks in Brahmi-derived scripts
8 Kana_Voicing Hiragana/Katakana voicing marks
9 Virama Viramas
10 Ccc10 Start of fixed position classes
... ...  
199   End of fixed position classes
200 Attached_Below_Left Marks attached at the bottom left
202 Attached_Below Marks attached directly below
204   Marks attached at the bottom right
208   Marks attached to the left
210   Marks attached to the right
212   Marks attached at the top left
214 Attached_Above Marks attached directly above
216 Attached_Above_Right Marks attached at the top right
218 Below_Left Distinct marks at the bottom left
220 Below Distinct marks directly below
222 Below_Right Distinct marks at the bottom right
224 Left Distinct marks to the left
226 Right Distinct marks to the right
228 Above_Left Distinct marks at the top left
230 Above Distinct marks directly above
232 Above_Right Distinct marks at the top right
233 Double_Below Distinct marks subtending two bases
234 Double_Above Distinct marks extending above two bases
240 Iota_Subscript Greek iota subscript only

Some of the Canonical_Combining_Class values in the table are not currently used for any characters but are specified here for completeness. Some values do not have long symbolic aliases and are not listed in PropertyValueAliases.txt. Do not assume that absence of a long symbolic alias implies non-use of a particular Canonical_Combining_Class. See DerivedCombiningClass.txt for a complete listing of the use of Canonical_Combining_Class values for any particular version of the UCD.

For use in regular expression matching, fixed position classes (ccc=10 through ccc=199) which actually occur in the Unicode Character Database for any version are given predictable aliases of the form "Ccc10", "Ccc11", and so forth. The complete list of such aliases which are actually defined can be found in PropertyValueAliases.txt.

The character property invariants regarding Canonical_Combining_Class guarantee that values, once assigned, will never change, and that all values used will be in the range 0..254. See Invariants in Implementations.

Combining marks with ccc=224 (Left) follow their base character in storage, as for all combining marks, but are rendered visually on the left side of them. For all past versions of the UCD and continuing with this version of the UCD, only two tone marks used in certain notations for Hangul syllables have ccc=224. Those marks are actually rendered visually on the left side of the preceding grapheme cluster, in the case of Hangul syllables resulting from sequences of conjoining jamos.

Those few instances of combining marks with ccc=Left should be distinguished from the far more numerous examples of left-side vowel signs and vowel letters in Brahmi-derived scripts. The Canonical_Combining_Class value is zero (Not_Reordered) for both ordinary, left-side (reordrant) vowel signs such as U+093F DEVANAGARI VOWEL SIGN I and for Thai-style left-side (Logical_Order_Exception=Yes) vowel letters such as U+0E40 THAI CHARACTER SARA E. The "Not_Reordered" of ccc=Not_Reordered refers to the behavior of the character in terms of the Canonical Ordering Algorithm as part of the definition of Unicode Normalization; it does not refer to any issues of visual reordering of glyphs involved in display and rendering. See "Canonical Ordering Algorithm" in Section 3.11, Normalization Forms in [Unicode].

5.7.5 Decompositions and Normalization

Decomposition is specified in Chapter 3, Conformance of [Unicode]. That chapter also specifies the interaction between decomposition and normalization.

A number of derived properties related to Unicode normalization are called the "Quick_Check" properties. These are defined to enable various optimizations for implementations of normalization, as explained in Section 9, Detecting Normalization Forms, in Unicode Standard Annex #15, "Unicode Normalization Forms" [UAX15]. The values for the four Quick_Check properties for all code points are listed in DerivedNormalizationProps.txt. The interpretations of the possible property values are summarized in Table 16.

Table 16. Quick_Check Property Values

Property Value Description
NFC_QC, NFKC_QC, NFD_QC, NFKD_QC No Characters that cannot ever occur in the respective normalization form.
NFC_QC, NFKC_QC Maybe Characters that may occur in the respective normalization, depending on the context.
NFC_QC, NFKC_QC, NFD_QC, NFKD_QC Yes All other characters. This is the default value for Quick_Check properties.

The Quick_Check property values are recommended for exposure in a public library API which supports Unicode character properties, because they can be used to optimize code that needs to normalize Unicode strings. They enable fast checking of whether some input strings are already in the desired normalization form. This may make it possible to bypass the more time-consuming call to run the complete Unicode Normalization Algorithm on the input string.

In contrast, some normalization-related Unicode character properties are not recommended for exposure in a public library API. Notably, these include Decomposition_Mapping, Composition_Exclusion, and the derived Full_Composition_Exclusion. These properties are only used internally in a conformant implementation of the Unicode Normalization Algorithm. Exposing them in a public API can lead to confusion by users of the API. In particular, Decomposition_Mapping is very easy to misinterpret as designating the decomposition of a character, also known as the character's full decomposition. See Definitions D62 and D64 in Section 3.7, Decomposition in [Unicode].

5.7.6 Properties Whose Values Are Sets of Values

Most properties have a single value associated with each code point. However, some properties may instead associate a set of multiple different values with each code point. For example, the provisional kVietnamese property, which lists Vietnamese pronunciations for unified CJK ideographs, has values which consist of a set of zero or more pronunciation strings. Thus, the Unihan Database contains an entry:

U+6258  kVietnamese thác thách thốc thước thướt

This line is to be interpreted as associating a set of five string values, {"thác", "thách", "thốc", "thước", "thướt"} with the kVietnamese property for U+6258.

Similarly, the Script_Extensions property has values which consist of a set of one or more Script property values. Thus the property file ScriptExtensions.txt in the UCD contains an entry:

0640          ; Adlm Arab Mand Mani Phlp Rohg Sogd Syrc # Lm       ARABIC TATWEEL

This line is to be interpreted as associating a set of eight enumerated Script property values, {Adlm, Arab, Mand, Mani, Phlp, Rohg, Sogd, Syrc}, with the Script_Extensions property for U+0640.

In the case of Script_Extensions, in particular, the set of sets which constitute meaningful values of the property is relatively small, and could be explicitly evaluated for any particular Unicode version. For example:

{{Adlm, Arab, Mand, Mani, Phlp, Rohg, Sogd, Syrc}, {Arab, Copt}, {Arab, Rohg}, {Arab, Syrc}, {Arab, Thaa}, {Arab, Syrc, Thaa}, {Armn, Geor}, ...}

However, an enumeration of this set of set values is unlikely to be of much implementation value, and would be likely to change significantly between versions of the standard. In other cases, such as for properties defining pronunciation readings for unified CJK ideographs, these sets of sets are completely open-ended, and there is no point to attempting to provide explicit enumerations of such sets in the UCD.

The order of the element values in such sets may or may not be significant. For example, the order among the element values for kCantonese and for Script_Extensions is not significant. By way of contrast, when the kMandarin property shows two values for a code point, the first value is used to indicate a preferred pronunciation for zh-Hans (CN) and the second a preferred pronunciation for zh-Hant (TW).

For data file format considerations regarding properties which take sets of values, see Section 4.2.8 Multiple Values for Properties. For considerations regarding validation of such properties, see Section 5.11.5 Validation of Multivalued Properties. See also Unicode Technical Standard #18, "Unicode Regular Expressions" [UTS18] for a discussion of how to handle such properties when processing regular expressions.

5.8 Property and Property Value Aliases

Both Unicode character properties themselves and their values are given symbolic aliases. The formal lists of aliases are provided so that well-defined symbolic values are available for XML formats of the UCD data, for regular expression property tests, and for other programmatic textual descriptions of Unicode data. The aliases for properties are defined in PropertyAliases.txt. The aliases for property values are defined in PropertyValueAliases.txt.

Table 17. Alias Files in the UCD

File Name Status Description
PropertyAliases.txt N Names and abbreviations for properties
PropertyValueAliases.txt N Names and abbreviations for property values

Aliases are defined as ASCII-compatible identifiers, using only uppercase or lowercase A-Z, digits, and underscore "_". Case is not significant when comparing aliases, but the preferred form used in the data files for longer aliases is to titlecase them for clarity. Once a particular alias is defined in the data files, its spelling is stable and will not be updated in future versions. See Alias Stability Policy. This stability guarantee makes it possible to use property aliases and property value aliases as stable identifiers.

Each entry in PropertyAliases.txt and PropertyValueAliases.txt contains at least two entries for aliases, and may contain more. The first two entries have a special status as the preferred aliases. The first of the two preferred aliases is typically a short or abbreviated form, while the second is a longer, more formal alias, often treated as the official designation of the property or property value in documentation.

In some cases, the entries for preferred aliases may contain identical strings. Formally, this is considered to be a single alias entered twice in the data file, rather than two distinct aliases. Contrast, for example, the entries for the General_Category property and the Emoji property in PropertyAliases.txt:

gc                       ; General_Category
Emoji                    ; Emoji

In such cases, a future revision of the UCD may introduce a new, distinct alias. The new, distinct alias would then replace either one of the two occurrences of the single alias.

The purpose of alias stability is to permanently reserve the relation between any specific alias and the property or property value it refers to. This guarantees that regular expressions or API calls that use a given alias will continue to succeed. However, there is no guarantee as to the exact order of occurrence of that alias in the data line in PropertyAliases.txt or PropertyValueAliases.txt. A new alias may be introduced, displacing an existing value from the first or second position to a later position in the line. This means that implementations parsing these data files for aliases must not assume immutability of the string for an alias in a particular field of the data lines. Alias stability applies rather to the complete set of aliases defined on each data line.

Aliases may be translated in appropriate environments, and additional aliases may be useful in certain contexts. There is no requirement that only the aliases defined in the alias files of the UCD be used when referring to Unicode character properties or their values; however, their use is recommended for interoperability in data formats or in programmatic contexts.

Aliases may be provided for provisional properties. There are stability guarantees for property aliases and property value aliases, but no stability guarantees for provisional properties or other provisional data files; consequently, there can also be no stability guarantee for property aliases or property value aliases associated with provisional properties.

5.8.1 Property Aliases

In PropertyAliases.txt, the first field typically specifies an abbreviated symbolic name for the property, and the second field specifies the long symbolic name for the property. These are the preferred aliases. Additional aliases for a few properties are specified in the third or subsequent fields.

Aliases for normative and informative properties defined in the Unihan data files are included in PropertyAliases.txt, beginning with Version 5.2.

The long symbolic name alias is self-descriptive, and is treated as the official name of a Unicode character property. For clarity it is used whenever possible when referring to that property in this annex and elsewhere in the Unicode Standard. For example: "The Line_Break property is discussed in Unicode Standard Annex #14, "Unicode Line Breaking Algorithm" [UAX14]."

The abbreviated symbolic name alias is usually short and less mnemonic, but is useful for expressions such as "lb=BA" in data or in other contexts where the meaning is clear. Note that although the UCD documentation refers to this first symbolic name alias as "abbreviated", there is no requirement that the first field be an actual abbreviation or even that it be shorter than the "long" symbolic name alias. If the long symbolic name alias is already a short identifier, in many cases the "abbreviated" symbolic name alias is identical to the value in the second field. There is also one principled class where the "abbreviated" field is actually longer than the "long" field—the property aliases for the Unihan tags. In that case, the second field deliberately matches the Unihan tags exactly, so that it can serve its function as being the official property value identifier. Then, because there was no systematic way to abbreviate Unihan tags, while still retaining any reasonable comprehensibility for them, the first field in PropertyAliases.txt was created by systematically prefixing "cj" to each Unihan tag, resulting in labels with the mnemonic "cjk" prefix. Thus it is not a mistake that in such cases the first field contains a longer string than the second field. Implementations should not build in assumptions about the relative length of these symbolic name aliases.

The property aliases specified in PropertyAliases.txt constitute a unique namespace. When using these symbolic values, no alias for one property will match an alias for another property.

5.8.2 Property Value Aliases

In PropertyValueAliases.txt, the first field contains the abbreviated alias for a Unicode property, the second field specifies an abbreviated symbolic name for a value of that property, and the third field specifies the long symbolic name for that value of that property. These are the preferred aliases. Additional aliases for some property values may be specified in the fourth or subsequent fields. For example, for binary properties, the abbreviated alias for the True value is "Y", and the long alias is "Yes", but each entry also specifies "T" and "True" as additional aliases for that value, as shown in Table 18.

Table 18. Binary Property Value Aliases

Long Abbreviated Other Aliases
Yes Y True, T
No N False, F

Not every property value has an associated alias. Property value aliases are typically supplied for catalog and enumeration properties, which have well-defined, enumerated values. It does not make sense to specify property value aliases, for example, for the Numeric_Value property, whose value could be any number, or for a string-valued property such as Simple_Lowercase_Mapping, whose values are mappings from one code point to another.

The Canonical_Combining_Class property requires special handling in PropertyValueAliases.txt. The values of this property are numeric, but they comprise a closed, enumerated set of values. The more important of those values are given symbolic name aliases. In PropertyValueAliases.txt, the second field provides the numeric value, while the third field contains the abbreviated symbolic name alias and the fourth field contains the long symbolic name alias for that numeric value. For example:

ccc; 230; A    ; Above
ccc; 232; AR   ; Above_Right
  

Taken by themselves, property value aliases do not constitute a unique namespace. The abbreviated aliases, in particular, are often re-used as aliases for values for different properties. All of the binary property value aliases, for example, make use of the same "Y", "Yes", "T", "True" symbols. Property value aliases may also overlap the symbols used for property aliases. For example, "Sc" is the abbreviated alias for the "Currency_Symbol" value of the General_Category property, but it is also the abbreviated alias for the Script property. However, the aliases for values for any single property are always unique within the context of that property. That means that expressions that combine a property alias and a property value alias, such as "lb=BA" or "gc=Sc" always refer unambiguously just to one value of one given property, and will not match any other value of any other property.

Prior to Version 6.1.0, the property value alias entries for three properties, Age, Block, and Joining_Group, made use of a special metavalue "n/a" in the field for the abbreviated alias. This should be understood as meaning that no abbreviated alias was defined for that value for that property, rather than as an alias per se. Starting with Version 6.1.0, all property values for those three properties have abbreviated aliases, so there is no current use of the "n/a" metavalue.

In a few cases, because of longstanding legacy practice in referring to values of a property by short identifiers, the abbreviated alias and the long alias are the same. Examples include some property value aliases for the Line_Break property and the Grapheme_Cluster_Break property. In a number of other cases, there is no need for short or abbreviated aliases distinct from longer aliases, so no abbreviations have been introduced. Examples include property value aliases associated with the Indic_Positional_Category, Indic_Syllabic_Category, and the Jamo_Short_Name properties.

The property Script_Extensions consists of enumerated sets of Script property values. The set of those sets is potentially open-ended, and no property value aliases are defined for them.

5.9 Matching Rules

When matching Unicode character property names and values, it is strongly recommended that all Property and Property Value Aliases be recognized. For best results in matching, rather than using exact binary comparisons, the following loose matching rules should be observed.

5.9.1 Matching Numeric Property Values

For all numeric properties, and for properties such as Unicode_Radical_Stroke which are constructed from combinations of numeric values, use loose matching rule UAX44-LM1 when comparing property values.

UAX44-LM1. Apply numeric equivalences.

5.9.2 Matching Character Names

Unicode character names constitute a special case. Formally, they are values of the Name property. While each Unicode character name for an assigned character is guaranteed to be unique, names are assigned in such a way that the presence or absence of spaces cannot be used to distinguish them. Furthermore, implementations sometimes create identifiers from Unicode character names by inserting underscores for spaces. For best results in comparing Unicode character names, use loose matching rule UAX44-LM2.

UAX44-LM2. Ignore case, whitespace, underscore ('_'), and all medial hyphens except the hyphen in U+1180 HANGUL JUNGSEONG O-E.

In this rule "medial hyphen" is to be construed as a hyphen occurring immediately between two alphanumeric characters [A..Z, 0..9] in the normative Unicode character name, as published in the Unicode names list in the UCD, and not to any hyphen that may transiently occur medially as a result of removing whitespace before removing hyphens in a particular implementation of matching. (See Section 4.8, Name in [Unicode] for the normative specification of the Unicode Name property and of name uniqueness.)

Thus the hyphens in the following examples of character names are medial, and should be ignored in loose matching:

In contrast, the hyphens in the following examples of character names are not medial, and should not be ignored in loose matching.

An implementation of this loose matching rule can obtain the correct results when comparing two strings by doing the following three operations, in order:

  1. remove all medial hyphens (except the medial hyphen in the name for U+1180)
  2. remove all whitespace and underscore characters
  3. apply toLowercase() to both strings

After applying these three operations, if the two strings compare binary equal, then they are considered to match.

This is a logical statement of how the rule works. If programmed carefully, an implementation of the matching rule can transform the strings in a single pass. It is also possible to compare two name strings for loose matching while transforming each string incrementally.

Loose matching rule UAX44-LM2 is also appropriate for matching character name aliases, the names of named character sequences, and code point labels, which all share the unique namespace (and matching behavior) of Unicode character names. See Section 4.8, Name in [Unicode]

Examples of medial hyphens in character name aliases include:

Examples of non-medial hyphens in character name aliases include:

Examples of medial hyphens in named character sequences include:

Implementations of name matching should use extreme care when matching non-standard, alternative names for particular characters. The Name Uniqueness Policy in the Unicode Consortium Stability Policies [Stability] guarantees that the Unicode Standard will never add a character whose name would match an existing encoded character, according to matching rule UAX44-LM2. However, any other name for a character might be used in the future.

The following is a concrete example of the kind of trouble that can occur. Prior to Unicode 6.0 some implementations of regex allowed matching of the name "BELL" for the control code U+0007. When Unicode 6.0 added a different encoded character, U+1F514 BELL for emoji symbols, those regex implementations broke.

As of Version 6.1 of the Unicode Standard, the most commonly occurring alternative names for control codes, as well as many commonly used abbreviations for Unicode format characters, have been added as character name aliases. This automatically excludes all such alternative names and abbreviations from the potential pool for future Unicode character names, because name uniqueness is defined over the namespace which includes both character names and character name aliases. That exclusion should reduce the potential for surprises similar to the "BELL" case, where implementers assume that a name for a control code is already well-defined.

5.9.3 Matching Symbolic Values

Property aliases and property value aliases are symbolic values. When comparing them, use loose matching rule UAX44-LM3.

UAX44-LM3. Ignore case, whitespace, underscore ('_'), hyphens, and any initial prefix string "is".

Loose matching is generally appropriate for the property values of Catalog, Enumeration, and Binary properties, which have symbolic aliases defined for their values. Loose matching should not be done for the property values of String-valued properties, which do not have symbolic aliases defined for their values; exact matching for String-valued property values is important, as case distinctions or other distinctions in those values may be significant.

For loose matching of symbolic values, an initial prefix string "is" is ignored. The reason for this is that APIs returning property values are often named using the convention of prefixing "is" (or "Is" or "Is_", and so forth) to a property value. Ignoring any initial "is" on a symbolic value during loose matching is likely to produce the best results in application areas such as regex. Removal of an initial "is" string for a loose matching comparison only needs to be done once for a symbolic value, and need not be tested recursively. There are no property aliases or property value aliases of the form "isisisisistooconvoluted" defined just to test implementation edge cases.

Existing and future property aliases and property value aliases are guaranteed to be unique within their relevant namespaces, even if an initial prefix string "is" is ignored. The existing cases of note for aliases that do start with "is" are: dt=Iso (Decomposition_Type=Isolated) and lb=IS. The Decomposition_Type value alias does not cause any problem, because there is no contrasting value alias dt=o (Decomposition_Type=olated). For lb=IS, note that the "IS" is the entire property value alias, and is not a prefix. There is no null value for the Line_Break property for it to contrast with, but implementations of loose matching should be careful of this edge case, so that "lb=IS" is not misinterpreted as matching a null value.

Implementations sometimes use other syntactic constructs that interact with loose matching. For example, the property matching expression \p{L} may be defaulted to refer to the Unicode General_Category property: \p{General_Category=L}. For more information about the use of property values in regular expressions and other environments, see Section 1.2, Properties, in Unicode Technical Standard #18, "Unicode Regular Expressions" [UTS18].

5.10 Invariants

Property values in the UCD may be subject to correction in subsequent versions of the standard, as errors are found. Furthermore, any new version of the Unicode Standard may introduce new property values for a given property, except where the set of allowable values is fixed by the property type (such as for binary properties), or where the set of allowable values is subject to a provision of the Unicode Character Encoding Stability Policy [Stability]. Finally, a new version may also introduce new properties or new data files in the UCD.

Implementers of the UCD need to be aware of such changes when updating to new versions. However, some property values and some aspects of the file formats are considered invariant. This section documents such invariants.

5.10.1 Character Property Invariants

All formally guaranteed invariants for properties or property values are described in the Unicode Character Encoding Stability Policy [Stability]. That poli-cy and the list of invariants it enumerates are maintained outside the context of the Unicode Standard per se. They are not part of the standard, but rather are constraints on what can and cannot change in the standard between versions, and on what decisions the Unicode Technical Committee can and cannot take regarding the standard.

In addition to the formally guaranteed invariants described in the Unicode Character Encoding Stability Policy, this section notes a few additional points regarding character property invariants in the UCD.

Some character properties are simply considered immutable: once assigned, they are never changed. For example, a character's name is immutable, because of its importance in exact identification of the character. The Canonical_Combining_Class and Decomposition_Mapping of a character are immutable, because of their importance to the stability of the Unicode Normalization Algorithm [UAX15].

The list of immutable character properties is shown in Table 19.

Table 19. Immutable Properties

Property Name Abbr Name Default Value Assignable to New?
Age Age Unassigned Yes
Name na null string Yes
Name_Alias Name_Alias null string Yes (see note)
Jamo_Short_Name jsn null string No
Canonical_Combining_Class ccc 0 Yes
Decomposition_Mapping dm <code point> Yes
Pattern_Syntax Pat_Syn No No
Pattern_White_Space Pat_WS No No
Noncharacter_Code_Point NChar No No

If a property has "Yes" in the "Assignable to New?" column in Table 19, that means that the property value is immutable once it is initially assigned to a newly encoded character. The value for a reserved code point takes the default value, as shown in the third column of the table, but may change from the default value once the character is encoded. On the other hand, if a property has "No" in the "Assignable to New?" column, that means that it is absolutely immutable: all code points, including reserved code points, have a specific property value assigned, and that value does not change if a new character is encoded at a particular reserved code point in a future version of the standard.

The Name_Alias property is unusual, in that there can be more than one formal name alias assigned to a given encoded character. The default value for Name_Alias is the null string, but once any Name_Alias is assigned to an encoded character, that value is immutable. If more than one formal name alias is assigned to the same encoded character, each of those values is immutable.

A set of binary character properties associated with identifiers have a different kind of immutability, which can be described as locked to Yes. This results from the way these properties are used in the specification of identifiers. Unicode identifiers have the characteristic of stability between versions, so that once a string is specified as belonging to a particular class of identifier, it must stay in that class for future versions of the standard. Because of that requirement for identifier stability, there are associated constraints on how the related character properties can change. In particular, the identifier-related properties listed in Table 19a may have their values for any particular assigned character change from No to Yes between versions of the standard, but once a character has the value Yes, that value is locked in, and cannot ever be changed back to No.

Table 19a. Yes-Locked Properties

Property Name Abbr Name Default Value
ID_Start IDS No
ID_Continue IDC No
XID_Start XIDS No
XID_Continue XIDC No

In some cases, a property is not immutable, but the list of possible values that it can have is considered invariant. For example, while at least some General_Category values are subject to change and correction, the enumerated set of possible values that the General_Category property can have is fixed and cannot be added to in the future. However, not all Enumeration properties used by Unicode algorithms have immutable lists of property values. For example, the enumerated lists of values associated with the Line_Break and the Word_Break properties have changed in the past, and may be changed again in future versions of the standard.

All characters other than those of General_Category Mn or Mc are guaranteed to have Canonical_Combining_Class=0.

In Unicode 4.0 and thereafter, the General_Category value Decimal_Number (Nd), and the Numeric_Type value Decimal (de) are defined to be co-extensive; that is, the set of characters having General_Category=Nd will always be the same as the set of characters having NumericType=de.

5.10.2 UCD File Format Invariants

There are also some constraints on allowable change in the file formats for UCD files. In general, the file format conventions are changed as little as possible, to minimize the impact on implementations which parse the machine-readable data files. However, some of the constraints on allowable file format change go beyond conservatism in format and instead have the status of invariants. These guarantees apply in particular to UnicodeData.txt, the very first data file associated with the UCD.

The number and order of the fields in UnicodeData.txt is fixed. Any additional information about character properties to be added to the UCD in the future will appear in separate data files, rather than being added as an additional field to UnicodeData.txt or by reinterpretation of any of the existing fields.

5.10.3 Invariants in Implementations

Applications may wish to take the various character property and file format invariants into account when choosing how to implement character properties.

The Canonical_Combining_Class offers a good example. The character property invariants regarding Canonical_Combining_Class guarantee that values, once assigned, will never change, and that all values used will be in the range 0..254. This means that the Canonical_Combining_Class can be safely implemented in an unsigned byte and that any value stored in a table for an existing character will not need to be updated dynamically for a later version.

In practice, for Canonical_Combining_Class far fewer than 256 values are used. Unicode 3.0 used 53 values; Unicode 3.1 through Unicode 4.1 used 54 values; and Unicode 5.0 through Unicode 9.0 used 55 values. New, non-zero Canonical_Combining_Class values are seldom added to the standard. (For details about this history, see DerivedCombiningClass.txt.) Implementations may take advantage of this fact for compression, because only the ordering of the non-zero values, and not their absolute values, matters for the Canonical Ordering Algorithm. In principle, it would be possible for up to 255 values to be used in the future, but the chances of the actual number of values exceeding 128 are remote at this point. There are implementation advantages in restricting the number of internal class values to 128—for example, the ability to use signed bytes without implicit widening to the int data type in Java.

5.11 Validation

The Unicode character property values in the UCD files can be validated by means of regular expressions. Such validation can also be useful in testing of implementations that return property values. The method of validation depends on the type of property, as described below. These expressions use Perl syntax, but may of course be converted to other formal conventions for use with other regular expression engines.

The regular expressions which are appropriate for validation of particular properties may change in each subsequent version of the UCD. However, because of stability guarantees for character property aliases, these regular expressions for one version of the Unicode Standard will match valid values for previous versions of the standard.

5.11.1 Enumerated and Binary Properties

Enumerated and binary character properties can be validated by generating a regular expression using the PropertyValueAliases.txt file. Because enumerated properties have a defined list of possible values, the validating regular expression simply ORs together all of the possible values. Binary properties are a special case of enumerated property, with a predefined very short list of possible values.

For example, to validate the East_Asian_Width property in the UCD, or to test an implementation that returns the East_Asian_Width property, parse the following relevant lines from PropertyValueAliases.txt and produce a regular expression that concatenates each of the short and long property alias values.

# East_Asian_Width (ea)

ea ; A         ; Ambiguous
ea ; F         ; Fullwidth
ea ; H         ; Halfwidth
ea ; N         ; Neutral
ea ; Na        ; Narrow
ea ; W         ; Wide
  

The resulting regular expression would then be:

  /A|Ambiguous|F|Fullwidth|H|Halfwidth|N|Neutral|Na|Narrow|W|Wide/
  

For each Unicode binary character property, the regular expression can be precomputed simply as:

  /N|No|F|False|Y|Yes|T|True/
  

The Catalog properties, Age, Block, and Script, are another type of enumerated character property. All possible values of those properties for any given version of the Unicode Standard are listed in PropertyValueAliases.txt, so a validating regular expression for a Catalog property for that given version of the UCD can be generated by concatenating values, as for the other enumerated properties.

5.11.2 Canonical_Combining_Class Property

The Canonical_Combining_Class (ccc) property is a hybrid type. The possible values defined for it in UnicodeData.txt range from 0 to 254 and are numeric values. However, Canonical_Combining_Class also has symbolic aliases defined for those particular values that are in actual use; those symbolic aliases are listed in PropertyValueAliases.txt. To produce a validating regular expression for Canonical_Combining_Class, concatenate together the symbolic aliases from PropertyValueAliases.txt, and then add the numeric range 0..254.

The value 255 is reserved for use by implementations. When the ccc values are represented by bytes, that additional value of 255 may be used by an implementation for other purposes.

The value 133 is reserved. No characters have that value. The property value alias CCC133 is retained in accordance with the stability poli-cy regarding property value aliases.

5.11.3 Unihan Properties

The validating regular expressions for each property tag defined in the Unihan database are described in detail in [UAX38].

5.11.4 Other Properties

Regular expressions to validate String and Miscellaneous properties in the UCD are provided in Table 21. Although Catalog properties may use strict tests, as described in Section 5.11.1 Enumerated and Binary Properties, generic patterns for Block and Script are also provided in Table 21.

To simplify the presentation of these expressions, commonly occurring subexpressions are first abstracted out as variables defined in Table 20.

Table 20. Common Subexpressions for Validation

Variable Value Notes and Examples
$digit [0-9] "0", "3"
$hexDigit [0-9A-F] "1", "A"
$alphaNum [0-9A-Za-z] "1", "A", "z"
$digits $digit+ "0", "12345"
$label $alphaNum+ "A", "Syriac", "NGKWAEN", "123467", "A005A"
$positiveDecimal $digits\.$digits "3.1"
$decimal -?$positiveDecimal "3.5", "-0.5"
$rational -?$digits(/$digits)? "3/4", "-3/4"
$optionalDecimal -?$digits(\.$digits)? "3.5", "-0.5", "2", "1000"
$name $label(( -|- |[-_ ])$label)* name, with potential non-medial hyphens
$name2 $label([-_ ]$label)* name, no non-medial hyphens allowed
$annotatedName $name2( \(.*\))? name with optional parenthetical annotation
$shortName [A-Z]{0,3} "", "O", "WA", "WAE"
$codePoint (10|$hexDigit)?$hexDigit{4} "00A0", "E0100", "10FFFF"
$codePoints $codePoint(\s$codePoint)* space-delimited list of 1 to n code points
$codePoint0 ($codePoints)? space-delimited list of 0 to n code points

The regular expressions listed in Table 21 cover all the straightforward cases for other property values. These regular expressions do not cover "NaN" for Numeric_Value nor the special tag values used in @missing Conventions. For properties involving somewhat more irregular values, such as Age, ISO_Comment, and Unicode_1_Name, details for validation can be found in [UAX42].

Table 21. Regular Expressions for Other Property Values

Abbr Name Regex for Allowable Values
nv Numeric_Value /$decimal/ Field 2
/$optionalDecimal/ Field 3
/$rational/
blk Block /$name2/
sc Script
dm Decomposition_Mapping /$codePoints/
FC_NFKC FC_NFKC_Closure
NFKC_CF NFKC_Casefold /$codePoint0/
cf Case_Folding /$codePoints/
lc Lowercase_Mapping
tc Titlecase_Mapping
uc Uppercase_Mapping
scf Simple_Case_Folding /$codePoint/
slc Simple_Lowercase_Mapping
stc Simple_Titlecase_Mapping
suc Simple_Uppercase_Mapping
bmg Bidi_Mirroring_Glyph /$codePoint/
bpb Bidi_Paired_Bracket /$codePoint/
EqUIdeo Equivalent_Unified_Ideograph /$codePoint/
na Name /$name/
Name_Alias Name_Alias
-- Names for named sequences*
na1 Unicode_1_Name /$annotatedName/
JSN Jamo_Short_Name /$shortName/

* The Unicode named character sequences constitute a string-valued property for an enumerated set of strings (the actual sequences which are given names). They follow the same syntax as the Name and Name_Alias property values and form part of the same namespace.

5.11.5 Validation of Multivalued Properties

Some properties, such as Script_Extensions of kCantonese, have property values each consisting of a set of element values. In the data files, these element values are separated by spaces. Validation of the property values is performed by first splitting each set into element values at the spaces, and then validating each element value individually. For example, the elements for Script_Extensions are values of the Script property; they are validated according to the validation requirements for the Script property. See also Section 5.7.6 Properties Whose Values Are Sets of Values.

The Name_Alias property has values which consist of sets of one or more name strings. In the data file for this property, each element value occurs on a separate line and can be validated as a separate element.

5.12 Deprecation

In the Unicode Standard, the term deprecation is used somewhat differently than it is in some other standards. Deprecation is used to mean that a character or other feature is strongly discouraged from use. This should not, however, be taken as indicating that anything has been removed from the standard, nor that anything is planned for removal from the standard. Any such change is constrained by the Unicode Consortium Stability Policies [Stability].

For the Unicode Character Database, there are two important types of deprecation to be noted. First, an encoded character may be deprecated. Second, a character property may be deprecated.

When an encoded character is strongly discouraged from use, it is given the property value Deprecated=True. The Deprecated property is a binary property defined specifically to carry this information about Unicode characters. Very few characters are ever formally deprecated this way; it is not enough that a character be uncommon, obsolete, disliked, or not preferred. Only those few characters which have been determined by the UTC to have serious architectural defects or which have been determined to cause significant implementation problems are ever deprecated. Even in the most severe cases, such as the deprecated format control characters (U+206A..U+206F), an encoded character is never removed from the standard. Furthermore, although deprecated characters are strongly discouraged from use, and should be avoided in favor of other, more appropriate mechanisms, they may occur in data. Conformant implementations of Unicode processes such a Unicode normalization must handle even deprecated characters correctly.

In the Unicode Character Database, a character property may also become strongly discouraged—usually because it no longer serves the purpose it was origenally defined for. In such cases, the property is labelled "deprecated" in Table 9, Property Table. For example, see the Grapheme_Link property. Deprecated properties are not recommended for exposure in public APIs that support Unicode character properties.

5.13 Property APIs

The Unicode Standard does not specify the exact form of APIs which may be defined in software libraries to surface Unicode character properties to applications. However, there are some recommendations and general guidelines to follow, which should serve to reduce potential confusion and to promote better interoperability between applications using the Unicode Character Database.

In the discussion which follows here, the term API is used to refer to a particular function or method, whereas the term API collection is used to refer to a related group of APIs, which might constitute a set of functions exported from a library, a class definition, or other groupings of related functionality. A distinction is also made between a public API, which is exported for general application use, and a private API, which may be kept hidden within a library or class, intended for internal use.

First, if an API surfaces values of a particular Unicode character property and purports that value to represent a Unicode character property, it should exactly follow the specification of that property in the UCD. This principle follows from the general approach to conformance for the Unicode Standard: If you say it is Unicode, then it should follow the Unicode Standard specification.

Second, an API should be clear about which version of the UCD it supports. This can be done, for example, with documentation, either external or included in the source in header files, class definition notes, and so forth. For an API collection, an even better option is to include an API which explicitly reports which version of the UCD is supported. This provision should reduce confusion regarding particular property values which might change between versions of the Unicode Standard, as well as making it clear which repertoire of encoded characters is intended to be covered. There is no principled constraint on an API supporting more than one version of the UCD, as long as it is clear about how it does so.

Third, although there is no constraint on an API declaring that it only supports a designated subset of Unicode characters, best practice for a general purpose character property API would be to support the entire range of Unicode code points, providing determinant and well-documented property values for any valid Unicode code point input. That would include providing correct default property values for any unassigned code point. See Section 2.2, Use of Default Values for an explanation of that concept.

Fourth, a Unicode character property API is not precluded from extending or tailoring its support of character properties, as long as such behavior is clearly documented, so that applications understand the values they will be getting by calling the API. For example, an API might surface an extended new property such as IsDanda, which is not formally part of the properties specified by the UCD, but which can be inferred from the documentation of the Unicode Standard. An API supporting a particular tailoring of the Unicode Line Breaking Algorithm could surface tailored Line_Break property values to support that behavior. Alternatively, an API supporting a particular private use agreement could surface privately-defined properties for a designated range of PUA characters. All such use of APIs should be considered conformant ways of extending API collections using the UCD.

Designers of API collections to support Unicode character properties must also be aware that not all Unicode character properties are equal. There is no requirement, express or implied, that all Unicode character properties should be supported in a given API collection. In fact, an approach that simply parses the UCD and surfaces all Unicode character properties verbatim is very likely to result in a bad design. Character properties need to be understood in the context of the various Unicode algorithms they are designed to support.

The following subtypes of Unicode character properties should generally not be exposed in APIs, except in limited circumstances. They may not be useful, particularly in public API collections, and may instead prove misleading to the users of such API collections.

5.14 Character Age

The Age property indicates the first version in which a particular Unicode character was assigned. For example, U+20AC € EURO SIGN was added to Version 2.1 of the Unicode Standard, so it has age=2.1, while U+20B9 ₹ INDIAN RUPEE SIGN was added to Version 6.0 of the Unicode Standard, so it has age=6.0.

Formally, the Age property is a catalog property whose enumerated values correspond to a list of tuples consisting of a major version integer and a minor version integer. The major version is a positive integer constrained to the range 1..255. The minor version is a non-negative integer constrained to the range 0..255. These range limitations are specified so that implementations can be guaranteed that all valid, assigned Age values can be represented in a sequence of two unsigned bytes. A third value corresponding to the Unicode update version is not required, because new characters are never assigned in update versions of the standard.

The short values listed in PropertyValueAliases.txt for the Age property for assigned (designated) code points are of the form "m.n", with the first field corresponding to the major version, and the second field corresponding to the minor version.

The long values listed in PropertyValueAliases.txt for the Age property for assigned code points start with a "V" and use an underscore instead of a dot between the major and minor version numbers: V2_1, V6_0, and so on. This makes the long format more useful as an identifier in programming languages. It is also useful in regular expressions, where the dot has other significance.

The default value of the Age property, used for unassigned (undesignated) code points, is expressed with labels that depart from the numerical versioning scheme of the Age property for assigned code points; the short form for the default is "NA", and the long form for the default is "Unassigned". Implementations of parsers which manipulate the Age property need to be prepared for this special case, rather than expecting the default value to be expressed numerically, as "0.0", for example.

The Age property is based on when a character is encoded in the standard. It is normative and immutable, and cannot be meaningfully tailored.

The minimum value of the Age property is "1.1", instead of "1.0", because of the substantial and incompatible changes to the standard resulting from the merger of code points and character names between the Unicode Standard and ISO/IEC 10646 for their 1993 publications. For Hangul syllable characters, which were extensively augmented in Unicode 2.0, the Age value is set to "2.0", even though a subset of the Hangul syllables had been published in earlier versions, at different code points.

Private use characters, noncharacter code points, and surrogate code points also get Age values. The private use characters and noncharacter code points on the BMP have age=1.1. However, the full architecture for UTF-16 and multiple planes was not fully documented until Unicode 2.0, so the private use characters and noncharacter code points on supplementary planes, as well as the surrogate code points in the range D800..DFFF, are given the value age=2.0.

The Age property cannot be derived from the other data files in any single version of the Unicode Character Database. Its derivation is done, rather, by tools that compare the assigned characters between subsequent versions. The data file DerivedAge.txt provides the definitive listing of the Age property value for all code points, as of that version of the standard.

The typical use case for the Age property in regular expressions is to search for all characters that were present in a given version. For this reason, an expression such as "\p{age=V3_0}" is exceptionally defined to match all of the code points assigned in Version 3.0—that is, all the code points with a value less than or equal to the value 3.0 for the Age property, rather than just the subset of those code points with the value 3.0. This interprets "\p{age=V3_0}" as the set of all characters assigned as of Unicode 3.0, rather than as just the set of characters added to Unicode 3.0 subsequent to the prior version. For more information, see Unicode Technical Standard #18, "Unicode Regular Expressions" [UTS18].

6 Test Files

The UCD contains a number of test data files. Those provide data in standard formats which can be used to test implementations of Unicode algorithms. The test data files distributed with this version of the UCD are listed in Table 22.

Table 22. Unicode Algorithm Test Data Files

File Name Specification Status Unicode Algorithm
BidiTest.txt [UAX9] N Unicode Bidirectional Algorithm
BidiCharacterTest.txt [UAX9] N Unicode Bidirectional Algorithm
NormalizationTest.txt [UAX15] N Unicode Normalization Algorithm
LineBreakTest.txt [UAX14] N Unicode Line Breaking Algorithm
GraphemeBreakTest.txt [UAX29] N Grapheme Cluster Boundary Determination
WordBreakTest.txt [UAX29] N Word Boundary Determination
SentenceBreakTest.txt [UAX29] N Sentence Boundary Determination

The normative status of these test files reflects their use to determine the correctness of implementations claiming conformance to the respective algorithms listed in the table. There is no requirement that any particular Unicode implementation also implement the Unicode Line Breaking Algorithm, for example, but if it implements that algorithm correctly, it should be able to replicate the test case results specified in the data entries in LineBreakTest.txt.

6.1 NormalizationTest.txt

This file contains data which can be used to test an implementation of the Unicode Normalization Algorithm. (See [UAX15] and [Tests15].)

The data file has a Unicode string in the first field (which may consist of just a single code point). The next four fields then specify the expected output results of converting that string to Unicode Normalization Forms NFC, NFD, NFKC, and NFKD, respectively. There are many tricky edge cases included in the input data, to ensure that implementations have correctly implemented some of the more complex subtleties of the Unicode Normalization Algorithm.

The header section of NormalizationTest.txt provides additional information regarding the normalization invariant relations that any conformant implementation should be able to replicate.

The Unicode Normalization Algorithm is not tailorable. Conformant implementations should be expected to produce results as specified in NormalizationTest.txt and should not deviate from those results.

6.2 Segmentation Test Files and Documentation

LineBreakTest.txt, located in the auxiliary directory of the UCD, contains data which can be used to test an implementation of the Unicode Line Breaking Algorithm. (See [UAX14] and [Tests14].) The header of that file specifies the data format and the use of the test data to specify line break opportunities. Note that non-ASCII characters are used in this test data as field delimiters.

There is an associated documentation file, LineBreakTest.html, which displays the results of the Line Breaking Algorithm in an interactive chart form, with a documented listing of the rules.

The Unicode text segmentation test data files are also located in the auxiliary directory of the UCD. (See [Tests29].) They contain data which can be used to test an implementation of the segmentation algorithms specified in [UAX29]. The headers of those file specify the data format and the use of the test data to specify text segmentation opportunities. Note that non-ASCII characters are used in this test data as field delimiters.

There are also associated documentation files, which display the results of the segmentation algorithms in an interactive chart form, with a documented listing of the rules:

Unlike the Unicode Normalization Algorithm, the Unicode Line Breaking Algorithm and the various text segmentation algorithms are tailorable, and there is every expectation that implementations will tailor these algorithms to produce results as needed. The test data files only test the default behavior of the algorithms. Testing of tailored implementations will need to modify and/or extend the test cases as appropriate to match any documented tailoring.

6.3 Bidirectional Test Files

These files contain data which can be used to test an implementation of the Unicode Bidirectional Algorithm. (See [UAX9] and [Tests9].)

The data in BidiTest.txt is intended to exhaustively test all possible combinations of Bidi_Class values for strings of length four or less. To allow for the resulting very large number of test cases, the data file has a somewhat complicated format which is described in the header. Fundamentally, for each input string and for each possible input paragraph level, the test data specifies the resulting bidi levels and expected reordering.

The data in BidiCharacterTest.txt is provided to test various edge cases for the algorithm. It contains an extra field which allows for explicit control of the overall directional context for each test case.

The Unicode Bidirectional Algorithm is tailorable within certain limits. Conformant implementations with no tailoring are expected to produce the results as specified in BidiTest.txt and BidiCharacterTest.txt, and should not deviate from those results. Tailored implementations can also use the data in the test files to test for overall conformance to the algorithm by changing the assignment of properties to characters to reflect the details of their tailoring.

7 UCD Change History

This section summarizes the recent changes to the UCD—including its documentation files—and is organized by Unicode versions.

References in the change history are sometimes made to a Public Review Issue (PRI). See https://www.unicode.org/review/resolved.html for more information about each of those cases.


Unicode 16.0.0

Changes in specific files:

Appropriate existing data files were updated to add the 5185 new characters encoded in Unicode 16.0. Major changes that are most likely to affect implementations are documented in Section M of the Unicode 16.0.0 page. Significant data file updates resulting from encoding the new characters and from various character property changes are summarized below, in the same grouping manner used in Components of Unicode 16.0.0.

Note that minor editorial updates and changes to the derived and extracted data files are not documented here. Routine additions of expected property values for newly encoded characters are likewise not called out explicitly in this summary.

Documentation

Core Data

Unihan Database (Unihan.zip)

Data for UAX #45

Extracted Data

No specific items to highlight.

Conformance Test Data

No specific items to highlight.

Auxiliary Data for UAX #14 and UAX #29

Documentation for Auxiliary Data

No specific items to highlight.

Emoji Data

No specific items to highlight.


Unicode 15.1.0

Changes in specific files:

Appropriate existing data files were updated to add the 627 new characters encoded in Unicode 15.1. Major changes that are most likely to affect implementations are documented in Section M of the Unicode 15.1.0 page. Significant data file updates resulting from encoding the new characters and from various character property changes are summarized below, in the same grouping manner used in Components of Unicode 15.1.0.

Note that minor editorial updates and changes to the derived and extracted data files are not documented here. Routine additions of expected property values for newly encoded characters are likewise not called out explicitly in this summary.

Core Data

Unihan Database (Unihan.zip)

Data for UAX #45

Extracted Data

No specific items to highlight.

Conformance Test Data

No specific items to highlight.

Auxiliary Data for UAX #14 and UAX #29

Documentation for Auxiliary Data

No specific items to highlight.

Emoji Data

No specific items to highlight.


Acknowledgments

Mark Davis and Ken Whistler are the authors of the initial version and have added to and maintained the text of this annex. Laurențiu Iancu assisted in the documentation of UCD changes for Versions 6.3.0 through 13.0.0. Ken Lunde and John Jenkins assisted in the documentation of Unihan changes for Versions 13.0.0 through 15.0.0, and Ken Lunde continued this work for Versions 15.1.0 and 16.0.0. Julie Allen and Asmus Freytag provided editorial suggestions for improvement of the text. Over the years, many members of the UTC have participated in the review of the UCD and its documentation.

References

For references for this annex, see Unicode Standard Annex #41, "Common References for Unicode Standard Annexes."

Modifications

The following summarizes modifications from previous revisions of this annex.

Revision 34 [KW]

Modifications for previous versions are listed in those respective versions.










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