HarfBuzz text shaping engine
http://harfbuzz.github.io/
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695 lines
25 KiB
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<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN" |
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<!ENTITY version SYSTEM "version.xml"> |
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]> |
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<chapter id="clusters"> |
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<title>Clusters</title> |
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<section id="clusters-and-shaping"> |
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<title>Clusters and shaping</title> |
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<para> |
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In text shaping, a <emphasis>cluster</emphasis> is a sequence of |
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characters that needs to be treated as a single, indivisible |
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unit. A single letter or symbol can be a cluster of its |
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own. Other clusters correspond to longer subsequences of the |
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input code points — such as a ligature or conjunct form |
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— and require the shaper to ensure that the cluster is not |
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broken during the shaping process. |
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</para> |
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<para> |
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A cluster is distinct from a <emphasis>grapheme</emphasis>, |
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which is the smallest unit of meaning in a writing system or |
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script. |
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</para> |
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<para> |
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The definitions of the two terms are similar. However, clusters |
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are only relevant for script shaping and glyph layout. In |
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contrast, graphemes are a property of the underlying script, and |
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are of interest when client programs implement orthographic |
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or linguistic functionality. |
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</para> |
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<para> |
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For example, two individual letters are often two separate |
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graphemes. When two letters form a ligature, however, they |
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combine into a single glyph. They are then part of the same |
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cluster and are treated as a unit by the shaping engine — |
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even though the two original, underlying letters remain separate |
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graphemes. |
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</para> |
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<para> |
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HarfBuzz is concerned with clusters, <emphasis>not</emphasis> |
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with graphemes — although client programs using HarfBuzz |
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may still care about graphemes for other reasons from time to time. |
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</para> |
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<para> |
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During the shaping process, there are several shaping operations |
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that may merge adjacent characters (for example, when two code |
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points form a ligature or a conjunct form and are replaced by a |
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single glyph) or split one character into several (for example, |
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when decomposing a code point through the |
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<literal>ccmp</literal> feature). Operations like these alter |
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clusters; HarfBuzz tracks the changes to ensure that no clusters |
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get lost or broken during shaping. |
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</para> |
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<para> |
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HarfBuzz records cluster information independently from how |
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shaping operations affect the individual glyphs returned in an |
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output buffer. Consequently, a client program using HarfBuzz can |
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utilize the cluster information to implement features such as: |
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</para> |
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<itemizedlist> |
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<listitem> |
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<para> |
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Correctly positioning the cursor within a shaped text run, |
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even when characters have formed ligatures, composed or |
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decomposed, reordered, or undergone other shaping operations. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Correctly highlighting a text selection that includes some, |
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but not all, of the characters in a word. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Applying text attributes (such as color or underlining) to |
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part, but not all, of a word. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Generating output document formats (such as PDF) with |
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embedded text that can be fully extracted. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Determining the mapping between input characters and output |
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glyphs, such as which glyphs are ligatures. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Performing line-breaking, justification, and other |
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line-level or paragraph-level operations that must be done |
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after shaping is complete, but which require examining |
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character-level properties. |
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</para> |
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</listitem> |
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</itemizedlist> |
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</section> |
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<section id="working-with-harfbuzz-clusters"> |
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<title>Working with HarfBuzz clusters</title> |
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<para> |
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When you add text to a HarfBuzz buffer, each code point must be |
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assigned a <emphasis>cluster value</emphasis>. |
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</para> |
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<para> |
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This cluster value is an arbitrary number; HarfBuzz uses it only |
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to distinguish between clusters. Many client programs will use |
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the index of each code point in the input text stream as the |
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cluster value. This is for the sake of convenience; the actual |
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value does not matter. |
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</para> |
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<para> |
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Some of the shaping operations performed by HarfBuzz — |
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such as reordering, composition, decomposition, and substitution |
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— may alter the cluster values of some characters. The |
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final cluster values in the buffer at the end of the shaping |
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process will indicate to client programs which subsequences of |
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glyphs represent a cluster and, therefore, must not be |
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separated. |
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</para> |
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<para> |
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In addition, client programs can query the final cluster values |
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to discern other potentially important information about the |
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glyphs in the output buffer (such as whether or not a ligature |
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was formed). |
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</para> |
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<para> |
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For example, if the initial sequence of cluster values was: |
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</para> |
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<programlisting> |
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0,1,2,3,4 |
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</programlisting> |
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<para> |
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and the final sequence of cluster values is: |
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</para> |
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<programlisting> |
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0,0,3,3 |
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</programlisting> |
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<para> |
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then there are two clusters in the output buffer: the first |
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cluster includes the first two glyphs, and the second cluster |
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includes the third and fourth glyphs. It is also evident that a |
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ligature or conjunct has been formed, because there are fewer |
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glyphs in the output buffer (four) than there were code points |
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in the input buffer (five). |
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</para> |
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<para> |
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Although client programs using HarfBuzz are free to assign |
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initial cluster values in any manner they choose to, HarfBuzz |
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does offer some useful guarantees if the cluster values are |
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assigned in a monotonic (either non-decreasing or non-increasing) |
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order. |
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</para> |
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<para> |
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For left-to-right scripts (LTR) and top-to-bottom scripts (TTB), |
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HarfBuzz will preserve the monotonic property: client programs |
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are guaranteed that monotonically increasing initial clulster |
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values will be returned as monotonically increasing final |
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cluster values. |
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</para> |
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<para> |
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For right-to-left scripts (RTL) and bottom-to-top scripts (BTT), |
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the directionality of the buffer itself is reversed for final |
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output as a matter of design. Therefore, HarfBuzz inverts the |
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monotonic property: client programs are guaranteed that |
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monotonically increasing initial clulster values will be |
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returned as monotonically <emphasis>decreasing</emphasis> final |
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cluster values. |
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</para> |
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<para> |
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Client programs can adjust how HarfBuzz handles clusters during |
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shaping by setting the |
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<literal>cluster_level</literal> of the |
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buffer. HarfBuzz offers three <emphasis>levels</emphasis> of |
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clustering support for this property: |
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</para> |
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<itemizedlist> |
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<listitem> |
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<para><emphasis>Level 0</emphasis> is the default and |
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reproduces the behavior of the old HarfBuzz library. |
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</para> |
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<para> |
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The distinguishing feature of level 0 behavior is that, at |
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the beginning of processing the buffer, all code points that |
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are categorized as <emphasis>marks</emphasis>, |
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<emphasis>modifier symbols</emphasis>, or |
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<emphasis>Emoji extended pictographic</emphasis> modifiers, |
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as well as the <emphasis>Zero Width Joiner</emphasis> and |
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<emphasis>Zero Width Non-Joiner</emphasis> code points, are |
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assigned the cluster value of the closest preceding code |
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point from <emphasis>different</emphasis> category. |
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</para> |
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<para> |
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In essence, whenever a base character is followed by a mark |
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character or a sequence of mark characters, those marks are |
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reassigned to the same initial cluster value as the base |
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character. This reassignment is referred to as |
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"merging" the affected clusters. This behavior is based on |
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the Grapheme Cluster Boundary specification in <ulink |
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url="https://www.unicode.org/reports/tr29/#Regex_Definitions">Unicode |
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Technical Report 29</ulink>. |
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</para> |
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<para> |
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Client programs can specify level 0 behavior for a buffer by |
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setting its <literal>cluster_level</literal> to |
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<literal>HB_BUFFER_CLUSTER_LEVEL_MONOTONE_GRAPHEMES</literal>. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<emphasis>Level 1</emphasis> tweaks the old behavior |
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slightly to produce better results. Therefore, level 1 |
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clustering is recommended for code that is not required to |
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implement backward compatibility with the old HarfBuzz. |
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</para> |
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<para> |
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Level 1 differs from level 0 by not merging the |
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clusters of marks and other modifier code points with the |
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preceding "base" code point's cluster. By preserving the |
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separate cluster values of these marks and modifier code |
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points, script shapers can perform additional operations |
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that might lead to improved results (for example, reordering |
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a sequence of marks). |
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</para> |
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<para> |
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Client programs can specify level 1 behavior for a buffer by |
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setting its <literal>cluster_level</literal> to |
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<literal>HB_BUFFER_CLUSTER_LEVEL_MONOTONE_CHARACTERS</literal>. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<emphasis>Level 2</emphasis> differs significantly in how it |
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treats cluster values. In level 2, HarfBuzz never merges |
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clusters. |
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</para> |
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<para> |
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This difference can be seen most clearly when HarfBuzz processes |
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ligature substitutions and glyph decompositions. In level 0 |
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and level 1, ligatures and glyph decomposition both involve |
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merging clusters; in level 2, neither of these operations |
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triggers a merge. |
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</para> |
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<para> |
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Client programs can specify level 2 behavior for a buffer by |
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setting its <literal>cluster_level</literal> to |
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<literal>HB_BUFFER_CLUSTER_LEVEL_CHARACTERS</literal>. |
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</para> |
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</listitem> |
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</itemizedlist> |
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<para> |
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As mentioned earlier, client programs using HarfBuzz often |
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assign initial cluster values in a buffer by reusing the indices |
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of the code points in the input text. This gives a sequence of |
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cluster values that is monotonically increasing (for example, |
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0,1,2,3,4). |
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</para> |
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<para> |
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It is not <emphasis>required</emphasis> that the cluster values |
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in a buffer be monotonically increasing. However, if the initial |
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cluster values in a buffer are monotonic and the buffer is |
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configured to use cluster level 0 or 1, then HarfBuzz |
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guarantees that the final cluster values in the shaped buffer |
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will also be monotonic. No such guarantee is made for cluster |
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level 2. |
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</para> |
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<para> |
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In levels 0 and 1, HarfBuzz implements the following conceptual |
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model for cluster values: |
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</para> |
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<itemizedlist spacing="compact"> |
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<listitem> |
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<para> |
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If the sequence of input cluster values is monotonic, the |
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sequence of cluster values will remain monotonic. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Each cluster value represents a single cluster. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Each cluster contains one or more glyphs and one or more |
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characters. |
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</para> |
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</listitem> |
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</itemizedlist> |
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<para> |
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In practice, this model offers several benefits. Assuming that |
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the initial cluster values were monotonically increasing |
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and distinct before shaping began, then, in the final output: |
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</para> |
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<itemizedlist spacing="compact"> |
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<listitem> |
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<para> |
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All adjacent glyphs having the same final cluster |
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value belong to the same cluster. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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Each character belongs to the cluster that has the highest |
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cluster value <emphasis>not larger than</emphasis> its |
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initial cluster value. |
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</para> |
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</listitem> |
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</itemizedlist> |
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</section> |
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|
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<section id="a-clustering-example-for-levels-0-and-1"> |
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<title>A clustering example for levels 0 and 1</title> |
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<para> |
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The basic shaping operations affect clusters in a predictable |
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manner when using level 0 or level 1: |
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</para> |
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<itemizedlist> |
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<listitem> |
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<para> |
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When two or more clusters <emphasis>merge</emphasis>, the |
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resulting merged cluster takes as its cluster value the |
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<emphasis>minimum</emphasis> of the incoming cluster values. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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When a cluster <emphasis>decomposes</emphasis>, all of the |
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resulting child clusters inherit as their cluster value the |
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cluster value of the parent cluster. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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When a character is <emphasis>reordered</emphasis>, the |
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reordered character and all clusters that the character |
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moves past as part of the reordering are merged into one cluster. |
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</para> |
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</listitem> |
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</itemizedlist> |
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<para> |
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The functionality, guarantees, and benefits of level 0 and level |
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1 behavior can be seen with some examples. First, let us examine |
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what happens with cluster values when shaping involves cluster |
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merging with ligatures and decomposition. |
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</para> |
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<para> |
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Let's say we start with the following character sequence (top row) and |
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initial cluster values (bottom row): |
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</para> |
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<programlisting> |
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A,B,C,D,E |
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0,1,2,3,4 |
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</programlisting> |
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<para> |
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During shaping, HarfBuzz maps these characters to glyphs from |
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the font. For simplicity, let us assume that each character maps |
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to the corresponding, identical-looking glyph: |
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</para> |
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<programlisting> |
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A,B,C,D,E |
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0,1,2,3,4 |
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</programlisting> |
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<para> |
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Now if, for example, <literal>B</literal> and <literal>C</literal> |
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form a ligature, then the clusters to which they belong |
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"merge". This merged cluster takes for its cluster |
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value the minimum of all the cluster values of the clusters that |
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went in to the ligature. In this case, we get: |
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</para> |
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<programlisting> |
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A,BC,D,E |
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0,1 ,3,4 |
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</programlisting> |
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<para> |
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because 1 is the minimum of the set {1,2}, which were the |
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cluster values of <literal>B</literal> and |
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<literal>C</literal>. |
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</para> |
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<para> |
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Next, let us say that the <literal>BC</literal> ligature glyph |
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decomposes into three components, and <literal>D</literal> also |
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decomposes into two components. Whenever a cluster decomposes, |
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its components each inherit the cluster value of their parent: |
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</para> |
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<programlisting> |
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A,BC0,BC1,BC2,D0,D1,E |
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0,1 ,1 ,1 ,3 ,3 ,4 |
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</programlisting> |
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<para> |
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Next, if <literal>BC2</literal> and <literal>D0</literal> form a |
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ligature, then their clusters (cluster values 1 and 3) merge into |
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<literal>min(1,3) = 1</literal>: |
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</para> |
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<programlisting> |
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A,BC0,BC1,BC2D0,D1,E |
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0,1 ,1 ,1 ,1 ,4 |
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</programlisting> |
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<para> |
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Note that the entirety of cluster 3 merges into cluster 1, not |
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just the <literal>D0</literal> glyph. This reflects the fact |
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that the cluster <emphasis>must</emphasis> be treated as an |
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indivisible unit. |
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</para> |
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<para> |
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At this point, cluster 1 means: the character sequence |
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<literal>BCD</literal> is represented by glyphs |
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<literal>BC0,BC1,BC2D0,D1</literal> and cannot be broken down any |
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further. |
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</para> |
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</section> |
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<section id="reordering-in-levels-0-and-1"> |
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<title>Reordering in levels 0 and 1</title> |
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<para> |
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Another common operation in the more complex shapers is glyph |
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reordering. In order to maintain a monotonic cluster sequence |
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when glyph reordering takes place, HarfBuzz merges the clusters |
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of everything in the reordering sequence. |
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</para> |
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<para> |
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For example, let us again start with the character sequence (top |
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row) and initial cluster values (bottom row): |
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</para> |
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<programlisting> |
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A,B,C,D,E |
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0,1,2,3,4 |
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</programlisting> |
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<para> |
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If <literal>D</literal> is reordered to the position immediately |
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before <literal>B</literal>, then HarfBuzz merges the |
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<literal>B</literal>, <literal>C</literal>, and |
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<literal>D</literal> clusters — all the clusters between |
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the final position of the reordered glyph and its original |
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position. This means that we get: |
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</para> |
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<programlisting> |
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A,D,B,C,E |
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0,1,1,1,4 |
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</programlisting> |
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<para> |
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as the final cluster sequence. |
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</para> |
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<para> |
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Merging this many clusters is not ideal, but it is the only |
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sensible way for HarfBuzz to maintain the guarantee that the |
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sequence of cluster values remains monotonic and to retain the |
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true relationship between glyphs and characters. |
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</para> |
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</section> |
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<section id="the-distinction-between-levels-0-and-1"> |
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<title>The distinction between levels 0 and 1</title> |
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<para> |
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The preceding examples demonstrate the main effects of using |
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cluster levels 0 and 1. The only difference between the two |
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levels is this: in level 0, at the very beginning of the shaping |
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process, HarfBuzz merges the cluster of each base character |
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with the clusters of all Unicode marks (combining or not) and |
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modifiers that follow it. |
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</para> |
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<para> |
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For example, let us start with the following character sequence |
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(top row) and accompanying initial cluster values (bottom row): |
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</para> |
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<programlisting> |
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A,acute,B |
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0,1 ,2 |
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</programlisting> |
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<para> |
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The <literal>acute</literal> is a Unicode mark. If HarfBuzz is |
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using cluster level 0 on this sequence, then the |
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<literal>A</literal> and <literal>acute</literal> clusters will |
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merge, and the result will become: |
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</para> |
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<programlisting> |
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A,acute,B |
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0,0 ,2 |
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</programlisting> |
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<para> |
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This merger is performed before any other script-shaping |
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steps. |
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</para> |
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<para> |
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This initial cluster merging is the default behavior of the |
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Windows shaping engine, and the old HarfBuzz codebase copied |
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that behavior to maintain compatibility. Consequently, it has |
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remained the default behavior in the new HarfBuzz codebase. |
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</para> |
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<para> |
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But this initial cluster-merging behavior makes it impossible |
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for client programs to implement some features (such as to |
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color diacritic marks differently from their base |
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characters). That is why, in level 1, HarfBuzz does not perform |
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the initial merging step. |
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</para> |
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<para> |
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For client programs that rely on HarfBuzz cluster values to |
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perform cursor positioning, level 0 is more convenient. But |
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relying on cluster boundaries for cursor positioning is wrong: cursor |
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positions should be determined based on Unicode grapheme |
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boundaries, not on shaping-cluster boundaries. As such, using |
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level 1 clustering behavior is recommended. |
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</para> |
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<para> |
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One final facet of levels 0 and 1 is worth noting. HarfBuzz |
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currently does not allow any |
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<emphasis>multiple-substitution</emphasis> GSUB lookups to |
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replace a glyph with zero glyphs (in other words, to delete a |
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glyph). |
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</para> |
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<para> |
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But, in some other situations, glyphs can be deleted. In |
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those cases, if the glyph being deleted is the last glyph of its |
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cluster, HarfBuzz makes sure to merge the deleted glyph's |
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cluster with a neighboring cluster. |
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</para> |
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<para> |
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This is done primarily to make sure that the starting cluster of the |
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text always has the cluster index pointing to the start of the text |
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for the run; more than one client program currently relies on this |
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guarantee. |
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</para> |
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<para> |
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Incidentally, Apple's CoreText does something different to |
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maintain the same promise: it inserts a glyph with id 65535 at |
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the beginning of the glyph string if the glyph corresponding to |
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the first character in the run was deleted. HarfBuzz might do |
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something similar in the future. |
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</para> |
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</section> |
|
<section id="level-2"> |
|
<title>Level 2</title> |
|
<para> |
|
HarfBuzz's level 2 cluster behavior uses a significantly |
|
different model than that of level 0 and level 1. |
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</para> |
|
<para> |
|
The level 2 behavior is easy to describe, but it may be |
|
difficult to understand in practical terms. In brief, level 2 |
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performs no merging of clusters whatsoever. |
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</para> |
|
<para> |
|
This means that there is no initial base-and-mark merging step |
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(as is done in level 0), and it means that reordering moves and |
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ligature substitutions do not trigger a cluster merge. |
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</para> |
|
<para> |
|
Only one shaping operation directly affects clusters when using |
|
level 2: |
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</para> |
|
<itemizedlist> |
|
<listitem> |
|
<para> |
|
When a cluster <emphasis>decomposes</emphasis>, all of the |
|
resulting child clusters inherit as their cluster value the |
|
cluster value of the parent cluster. |
|
</para> |
|
</listitem> |
|
</itemizedlist> |
|
<para> |
|
When glyphs do form a ligature (or when some other feature |
|
substitutes multiple glyphs with one glyph) the cluster value |
|
of the first glyph is retained as the cluster value for the |
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resulting ligature. |
|
</para> |
|
<para> |
|
This occurrence sounds similar to a cluster merge, but it is |
|
different. In particular, no subsequent characters — |
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including marks and modifiers — are affected. They retain |
|
their previous cluster values. |
|
</para> |
|
<para> |
|
Level 2 cluster behavior is ultimately less complex than level 0 |
|
or level 1, but there are several cases for which processing |
|
cluster values produced at level 2 may be tricky. |
|
</para> |
|
<section id="ligatures-with-combining-marks-in-level-2"> |
|
<title>Ligatures with combining marks in level 2</title> |
|
<para> |
|
The first example of how HarfBuzz's level 2 cluster behavior |
|
can be tricky is when the text to be shaped includes combining |
|
marks attached to ligatures. |
|
</para> |
|
<para> |
|
Let us start with an input sequence with the following |
|
characters (top row) and initial cluster values (bottom row): |
|
</para> |
|
<programlisting> |
|
A,acute,B,breve,C,circumflex |
|
0,1 ,2,3 ,4,5 |
|
</programlisting> |
|
<para> |
|
If the sequence <literal>A,B,C</literal> forms a ligature, |
|
then these are the cluster values HarfBuzz will return under |
|
the various cluster levels: |
|
</para> |
|
<para> |
|
Level 0: |
|
</para> |
|
<programlisting> |
|
ABC,acute,breve,circumflex |
|
0 ,0 ,0 ,0 |
|
</programlisting> |
|
<para> |
|
Level 1: |
|
</para> |
|
<programlisting> |
|
ABC,acute,breve,circumflex |
|
0 ,0 ,0 ,5 |
|
</programlisting> |
|
<para> |
|
Level 2: |
|
</para> |
|
<programlisting> |
|
ABC,acute,breve,circumflex |
|
0 ,1 ,3 ,5 |
|
</programlisting> |
|
<para> |
|
Making sense of the level 2 result is the hardest for a client |
|
program, because there is nothing in the cluster values that |
|
indicates that <literal>B</literal> and <literal>C</literal> |
|
formed a ligature with <literal>A</literal>. |
|
</para> |
|
<para> |
|
In contrast, the "merged" cluster values of the mark glyphs |
|
that are seen in the level 0 and level 1 output are evidence |
|
that a ligature substitution took place. |
|
</para> |
|
</section> |
|
<section id="reordering-in-level-2"> |
|
<title>Reordering in level 2</title> |
|
<para> |
|
Another example of how HarfBuzz's level 2 cluster behavior |
|
can be tricky is when glyphs reorder. Consider an input sequence |
|
with the following characters (top row) and initial cluster |
|
values (bottom row): |
|
</para> |
|
<programlisting> |
|
A,B,C,D,E |
|
0,1,2,3,4 |
|
</programlisting> |
|
<para> |
|
Now imagine <literal>D</literal> moves before |
|
<literal>B</literal> in a reordering operation. The cluster |
|
values will then be: |
|
</para> |
|
<programlisting> |
|
A,D,B,C,E |
|
0,3,1,2,4 |
|
</programlisting> |
|
<para> |
|
Next, if <literal>D</literal> forms a ligature with |
|
<literal>B</literal>, the output is: |
|
</para> |
|
<programlisting> |
|
A,DB,C,E |
|
0,3 ,2,4 |
|
</programlisting> |
|
<para> |
|
However, in a different scenario, in which the shaping rules |
|
of the script instead caused <literal>A</literal> and |
|
<literal>B</literal> to form a ligature |
|
<emphasis>before</emphasis> the <literal>D</literal> reordered, the |
|
result would be: |
|
</para> |
|
<programlisting> |
|
AB,D,C,E |
|
0 ,3,2,4 |
|
</programlisting> |
|
<para> |
|
There is no way for a client program to differentiate between |
|
these two scenarios based on the cluster values |
|
alone. Consequently, client programs that use level 2 might |
|
need to undertake additional work in order to manage cursor |
|
positioning, text attributes, or other desired features. |
|
</para> |
|
</section> |
|
<section id="other-considerations-in-level-2"> |
|
<title>Other considerations in level 2</title> |
|
<para> |
|
There may be other problems encountered with ligatures under |
|
level 2, such as if the direction of the text is forced to |
|
the opposite of its natural direction (for example, Arabic text |
|
that is forced into left-to-right directionality). But, |
|
generally speaking, these other scenarios are minor corner |
|
cases that are too obscure for most client programs to need to |
|
worry about. |
|
</para> |
|
</section> |
|
</section> |
|
</chapter>
|
|
|