HarfBuzz text shaping engine
http://harfbuzz.github.io/
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518 lines
22 KiB
518 lines
22 KiB
<?xml version="1.0"?> |
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<!DOCTYPE book PUBLIC "-//OASIS//DTD DocBook XML V4.3//EN" |
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"http://www.oasis-open.org/docbook/xml/4.3/docbookx.dtd" [ |
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<!ENTITY % local.common.attrib "xmlns:xi CDATA #FIXED 'http://www.w3.org/2003/XInclude'"> |
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<!ENTITY version SYSTEM "version.xml"> |
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]> |
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<chapter id="fonts-and-faces"> |
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<title>Fonts, faces, and output</title> |
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<para> |
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In the previous chapter, we saw how to set up a buffer and fill |
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it with text as Unicode code points. In order to shape this |
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buffer text with HarfBuzz, you will need also need a font |
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object. |
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</para> |
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<para> |
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HarfBuzz provides abstractions to help you cache and reuse the |
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heavier parts of working with binary fonts, so we will look at |
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how to do that. We will also look at how to work with the |
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FreeType font-rendering library and at how you can customize |
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HarfBuzz to work with other libraries. |
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</para> |
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<para> |
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Finally, we will look at how to work with OpenType variable |
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fonts, the latest update to the OpenType font format, and at |
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some other recent additions to OpenType. |
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</para> |
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|
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<section id="fonts-and-faces-objects"> |
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<title>Font and face objects</title> |
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<para> |
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The outcome of shaping a run of text depends on the contents of |
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a specific font file (such as the substitutions and positioning |
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moves in the 'GSUB' and 'GPOS' tables), so HarfBuzz makes |
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accessing those internals fast. |
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</para> |
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<para> |
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An <type>hb_face_t</type> represents a <emphasis>face</emphasis> |
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in HarfBuzz. This data type is a wrapper around an |
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<type>hb_blob_t</type> blob that holds the contents of a binary |
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font file. Since HarfBuzz supports TrueType Collections and |
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OpenType Collections (each of which can include multiple |
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typefaces), a HarfBuzz face also requires an index number |
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specifying which typeface in the file you want to use. Most of |
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the font files you will encounter in the wild include just a |
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single face, however, so most of the time you would pass in |
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<literal>0</literal> as the index when you create a face: |
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</para> |
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<programlisting language="C"> |
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hb_blob_t* blob = hb_blob_create_from_file(file); |
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... |
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hb_face_t* face = hb_face_create(blob, 0); |
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</programlisting> |
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<para> |
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On its own, a face object is not quite ready to use for |
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shaping. The typeface must be set to a specific point size in |
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order for some details (such as hinting) to work. In addition, |
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if the font file in question is an OpenType Variable Font, then |
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you may need to specify one or more variation-axis settings (or a |
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named instance) in order to get the output you need. |
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</para> |
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<para> |
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In HarfBuzz, you do this by creating a <emphasis>font</emphasis> |
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object from your face. |
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</para> |
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<para> |
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Font objects also have the advantage of being considerably |
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lighter-weight than face objects (remember that a face contains |
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the contents of a binary font file mapped into memory). As a |
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result, you can cache and reuse a font object, but you could |
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also create a new one for each additional size you needed. |
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Creating new fonts incurs some additional overhead, of course, |
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but whether or not it is excessive is your call in the end. In |
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contrast, face objects are substantially larger, and you really |
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should cache them and reuse them whenever possible. |
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</para> |
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<para> |
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You can create a font object from a face object: |
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</para> |
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<programlisting language="C"> |
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hb_font_t* hb_font = hb_font_create(hb_face); |
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</programlisting> |
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<para> |
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After creating a font, there are a few properties you should |
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set. Many fonts enable and disable hints based on the size it |
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is used at, so setting this is important for font |
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objects. <function>hb_font_set_ppem(font, x_ppem, |
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y_ppem)</function> sets the pixels-per-EM value of the font. You |
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can also set the point size of the font with |
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<function>hb_font_set_ptem(font, ptem)</function>. HarfBuzz uses the |
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industry standard 72 points per inch. |
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</para> |
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<para> |
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HarfBuzz lets you specify the degree subpixel precision you want |
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through a scaling factor. You can set horizontal and |
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vertical scaling factors on the |
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font by calling <function>hb_font_set_scale(font, x_scale, |
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y_scale)</function>. |
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</para> |
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<para> |
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There may be times when you are handed a font object and need to |
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access the face object that it comes from. For that, you can call |
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</para> |
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<programlisting language="C"> |
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hb_face = hb_font_get_face(hb_font); |
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</programlisting> |
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<para> |
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You can also create a font object from an existing font object |
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using the <function>hb_font_create_sub_font()</function> |
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function. This creates a child font object that is initiated |
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with the same attributes as its parent; it can be used to |
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quickly set up a new font for the purpose of overriding a specific |
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font-functions method. |
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</para> |
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<para> |
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All face objects and font objects are lifecycle-managed by |
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HarfBuzz. After creating a face, you increase its reference |
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count with <function>hb_face_reference(face)</function> and |
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decrease it with |
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<function>hb_face_destroy(face)</function>. Likewise, you |
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increase the reference count on a font with |
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<function>hb_font_reference(font)</function> and decrease it |
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with <function>hb_font_destroy(font)</function>. |
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</para> |
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<para> |
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You can also attach user data to face objects and font objects. |
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</para> |
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</section> |
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<section id="fonts-and-faces-custom-functions"> |
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<title>Customizing font functions</title> |
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<para> |
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During shaping, HarfBuzz frequently needs to query font objects |
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to get at the contents and parameters of the glyphs in a font |
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file. It includes a built-in set of functions that is tailored |
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to working with OpenType fonts. However, as was the case with |
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Unicode functions in the buffers chapter, HarfBuzz also wants to |
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make it easy for you to assign a substitute set of font |
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functions if you are developing a program to work with a library |
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or platform that provides its own font functions. |
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</para> |
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<para> |
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Therefore, the HarfBuzz API defines a set of virtual |
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methods for accessing font-object properties, and you can |
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replace the defaults with your own selections without |
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interfering with the shaping process. Each font object in |
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HarfBuzz includes a structure called |
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<literal>font_funcs</literal> that serves as a vtable for the |
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font object. The virtual methods in |
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<literal>font_funcs</literal> are: |
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</para> |
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<itemizedlist> |
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<listitem> |
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<para> |
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<function>hb_font_get_font_h_extents_func_t</function>: returns |
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the extents of the font for horizontal text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_font_v_extents_func_t</function>: returns |
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the extents of the font for vertical text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_nominal_glyph_func_t</function>: returns |
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the font's nominal glyph for a given code point. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_variation_glyph_func_t</function>: returns |
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the font's glyph for a given code point when it is followed by a |
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given Variation Selector. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_nominal_glyphs_func_t</function>: returns |
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the font's nominal glyphs for a series of code points. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_advance_func_t</function>: returns |
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the advance for a glyph. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_h_advance_func_t</function>: returns |
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the advance for a glyph for horizontal text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_v_advance_func_t</function>:returns |
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the advance for a glyph for vertical text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_advances_func_t</function>: returns |
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the advances for a series of glyphs. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_h_advances_func_t</function>: returns |
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the advances for a series of glyphs for horizontal text . |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_v_advances_func_t</function>: returns |
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the advances for a series of glyphs for vertical text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_origin_func_t</function>: returns |
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the origin coordinates of a glyph. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_h_origin_func_t</function>: returns |
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the origin coordinates of a glyph for horizontal text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_v_origin_func_t</function>: returns |
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the origin coordinates of a glyph for vertical text. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_extents_func_t</function>: returns |
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the extents for a glyph. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_contour_point_func_t</function>: |
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returns the coordinates of a specific contour point from a glyph. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_name_func_t</function>: returns the |
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name of a glyph (from its glyph index). |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_get_glyph_from_name_func_t</function>: returns |
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the glyph index that corresponds to a given glyph name. |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_draw_glyph_func_t</function>: gets the outlines |
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of a glyph (by calling #hb_draw_funcs_t callbacks). |
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</para> |
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</listitem> |
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<listitem> |
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<para> |
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<function>hb_font_paint_glyph_func_t</function>: paints a glyph |
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(by calling #hb_paint_funcs_t callbacks). |
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</para> |
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</listitem> |
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</itemizedlist> |
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<para> |
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You can create new font-functions by calling |
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<function>hb_font_funcs_create()</function>: |
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</para> |
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<programlisting language="C"> |
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hb_font_funcs_t *ffunctions = hb_font_funcs_create (); |
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hb_font_set_funcs (font, ffunctions, font_data, destroy); |
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</programlisting> |
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<para> |
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The individual methods can each be set with their own setter |
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function, such as |
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<function>hb_font_funcs_set_nominal_glyph_func(ffunctions, |
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func, user_data, destroy)</function>. |
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</para> |
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<para> |
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Font-functions structures can be reused for multiple font |
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objects, and can be reference counted with |
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<function>hb_font_funcs_reference()</function> and |
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<function>hb_font_funcs_destroy()</function>. Just like other |
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objects in HarfBuzz, you can set user-data for each |
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font-functions structure and assign a destroy callback for |
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it. |
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</para> |
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<para> |
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You can also mark a font-functions structure as immutable, |
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with <function>hb_font_funcs_make_immutable()</function>. This |
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is especially useful if your code is a library or framework that |
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will have its own client programs. By marking your |
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font-functions structures as immutable, you prevent your client |
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programs from changing the configuration and introducing |
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inconsistencies and errors downstream. |
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</para> |
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<para> |
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To override only some functions while using the default implementation |
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for the others, you will need to create a sub-font. By default, the |
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sub-font uses the font functions of its parent except for the functions |
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that were explicitly set. The following code will override only the |
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<function>hb_font_get_nominal_glyph_func_t</function> for the sub-font: |
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</para> |
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<programlisting language="C"> |
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hb_font_t *subfont = hb_font_create_sub_font (font) |
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hb_font_funcs_t *ffunctions = hb_font_funcs_create (); |
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hb_font_funcs_set_nominal_glyph_func (ffunctions, func, user_data, destroy); |
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hb_font_set_funcs (subfont, ffunctions, font_data, destroy); |
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hb_font_funcs_destroy (ffunctions); |
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</programlisting> |
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</section> |
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|
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<section id="fonts-and-faces-native-opentype"> |
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<title>Font objects and HarfBuzz's native OpenType implementation</title> |
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<para> |
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By default, whenever HarfBuzz creates a font object, it will |
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configure the font to use a built-in set of font functions that |
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supports contemporary OpenType font internals. If you want to |
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work with OpenType or TrueType fonts, you should be able to use |
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these functions without difficulty. |
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</para> |
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<para> |
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Many of the methods in the font-functions structure deal with |
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the fundamental properties of glyphs that are required for |
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shaping text: extents (the maximums and minimums on each axis), |
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origins (the <literal>(0,0)</literal> coordinate point which |
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glyphs are drawn in reference to), and advances (the amount that |
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the cursor needs to be moved after drawing each glyph, including |
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any empty space for the glyph's side bearings). |
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</para> |
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<para> |
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As you can see in the list of functions, there are separate "horizontal" |
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and "vertical" variants depending on whether the text is set in |
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the horizontal or vertical direction. For some scripts, fonts |
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that are designed to support text set horizontally or vertically (for |
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example, in Japanese) may include metrics for both text |
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directions. When fonts don't include this information, HarfBuzz |
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does its best to transform what the font provides. |
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</para> |
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<para> |
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In addition to the direction-specific functions, HarfBuzz |
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provides some higher-level functions for fetching information |
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like extents and advances for a glyph. If you call |
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</para> |
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<programlisting language="C"> |
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hb_font_get_glyph_advance_for_direction(font, direction, extents); |
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</programlisting> |
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<para> |
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then you can provide any <type>hb_direction_t</type> as the |
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<parameter>direction</parameter> parameter, and HarfBuzz will |
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use the correct function variant for the text direction. There |
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are similar higher-level versions of the functions for fetching |
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extents, origin coordinates, and contour-point |
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coordinates. There are also addition and subtraction functions |
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for moving points with respect to the origin. |
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</para> |
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<para> |
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There are also methods for fetching the glyph ID that |
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corresponds to a Unicode code point (possibly when followed by a |
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variation-selector code point), fetching the glyph name from the |
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font, and fetching the glyph ID that corresponds to a glyph name |
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you already have. |
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</para> |
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<para> |
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HarfBuzz also provides functions for converting between glyph |
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names and string |
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variables. <function>hb_font_glyph_to_string(font, glyph, s, |
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size)</function> retrieves the name for the glyph ID |
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<parameter>glyph</parameter> from the font object. It generates a |
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generic name of the form <literal>gidDDD</literal> (where DDD is |
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the glyph index) if there is no name for the glyph in the |
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font. The <function>hb_font_glyph_from_string(font, s, len, |
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glyph)</function> takes an input string <parameter>s</parameter> |
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and looks for a glyph with that name in the font, returning its |
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glyph ID in the <parameter>glyph</parameter> |
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output parameter. It automatically parses |
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<literal>gidDDD</literal> and <literal>uniUUUU</literal> strings. |
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</para> |
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</section> |
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<section id="fonts-and-faces-variable"> |
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<title>Working with OpenType Variable Fonts</title> |
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<para> |
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If you are working with OpenType Variable Fonts, there are a few |
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additional functions you should use to specify the |
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variation-axis settings of your font object. Without doing so, |
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your variable font's font object can still be used, but only at |
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the default setting for every axis (which, of course, is |
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sometimes what you want, but does not cover general usage). |
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</para> |
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<para> |
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HarfBuzz manages variation settings in the |
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<type>hb_variation_t</type> data type, which holds a <property>tag</property> for the |
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variation-axis identifier tag and a <property>value</property> for its |
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setting. You can retrieve the list of variation axes in a font |
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binary from the face object (not from a font object, notably) by |
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calling <function>hb_ot_var_get_axis_count(face)</function> to |
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find the number of axes, then using |
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<function>hb_ot_var_get_axis_infos()</function> to collect the |
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axis structures: |
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</para> |
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<programlisting language="C"> |
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axes = hb_ot_var_get_axis_count(face); |
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... |
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hb_ot_var_get_axis_infos(face, 0, axes, axes_array); |
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</programlisting> |
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<para> |
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For each axis returned in the array, you can can access the |
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identifier in its <property>tag</property>. HarfBuzz also has |
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tag definitions predefined for the five standard axes specified |
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in OpenType (<literal>ital</literal> for italic, |
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<literal>opsz</literal> for optical size, |
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<literal>slnt</literal> for slant, <literal>wdth</literal> for |
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width, and <literal>wght</literal> for weight). Each axis also |
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has a <property>min_value</property>, a |
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<property>default_value</property>, and a <property>max_value</property>. |
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</para> |
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<para> |
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To set your font object's variation settings, you call the |
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<function>hb_font_set_variations()</function> function with an |
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array of <type>hb_variation_t</type> variation settings. Let's |
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say our font has weight and width axes. We need to specify each |
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of the axes by tag and assign a value on the axis: |
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</para> |
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<programlisting language="C"> |
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unsigned int variation_count = 2; |
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hb_variation_t variation_data[variation_count]; |
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variation_data[0].tag = HB_OT_TAG_VAR_AXIS_WIDTH; |
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variation_data[1].tag = HB_OT_TAG_VAR_AXIS_WEIGHT; |
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variation_data[0].value = 80; |
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variation_data[1].value = 750; |
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... |
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hb_font_set_variations(font, variation_data, variation_count); |
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</programlisting> |
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<para> |
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That should give us a slightly condensed font ("normal" on the |
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<literal>wdth</literal> axis is 100) at a noticeably bolder |
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weight ("regular" is 400 on the <literal>wght</literal> axis). |
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</para> |
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<para> |
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In practice, though, you should always check that the value you |
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want to set on the axis is within the |
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[<property>min_value</property>,<property>max_value</property>] |
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range actually implemented in the font's variation axis. After |
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all, a font might only provide lighter-than-regular weights, and |
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setting a heavier value on the <literal>wght</literal> axis will |
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not change that. |
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</para> |
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<para> |
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Once your variation settings are specified on your font object, |
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however, shaping with a variable font is just like shaping a |
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static font. |
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</para> |
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<para> |
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In addition to providing the variation axes themselves, fonts may also |
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pre-define certain variation coordinates as named instances. HarfBuzz |
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makes these coordinates (and their associated names) available via |
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<function>hb_ot_var_named_instance_get_design_coords()</function> and |
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<function>hb_ot_var_named_instance_get_subfamily_name_id()</function>. |
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</para> |
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<para> |
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Applications should treat named instances like multiple independent, |
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static fonts. |
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</para> |
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</section> |
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|
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<section id="glyphs-and-rendering"> |
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<title>Glyphs and rendering</title> |
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|
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<para> |
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The main purpose of HarfBuzz is shaping, which creates a list of positioned |
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glyphs as output. The remaining task for text layout is to convert this list |
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into rendered output. While HarfBuzz does not handle rasterization of glyphs |
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per se, it does have APIs that provide access to the font data that is needed |
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to perform this task. |
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</para> |
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<para> |
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Traditionally, the shapes of glyphs in scalable fonts are provided as quadratic |
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or cubic Beziér curves defining outlines to be filled. To obtain the outlines |
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for a glyph, call <function>hb_font_draw_glyph()</function> and pass a |
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<type>hb_draw_funcs_t</type> struct. The callbacks in that struct will be called |
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for each segment of the outline. Note that this API provides access to outlines |
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as they are defined in the font, without applying hinting to fit the curves |
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to the pixel grid. |
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</para> |
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<para> |
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Fonts may provide pre-rendered images for glyphs instead of or in addition to |
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outlines. This is most common for fonts that contain colored glyphs, such as |
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Emoji. To access these images, use <function>hb_ot_color_reference_png()</function> |
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or <function>hb_ot_color_reference_svg()</function>. |
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</para> |
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<para> |
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Another way in which fonts provide colored glyphs is via paint graphs that |
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combine glyph outlines with gradients and allow for transformations and |
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compositing. In its simplest form, this can be presented as a series of |
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layers that are rendered on top of each other, each with its own color. |
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HarfBuzz has the <function>hb_ot_color_glyph_get_layers()</function> to |
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access glyph data in this form. |
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</para> |
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<para> |
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In the general case, you have to use <function>hb_font_paint_glyph()</function> |
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and pass a <type>hb_paint_funcs_t</type> struct with callbacks to obtain paint |
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graphs for glyphs that have them. The <function>hb_font_paint_glyph()</function> |
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API can handle outline and image glyphs as well, so it provides a unified API for |
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access to glyph rendering information. |
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</para> |
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</section> |
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</chapter>
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