#ifndef Magnum_Text_AbstractShaper_h #define Magnum_Text_AbstractShaper_h /* This file is part of Magnum. Copyright © 2010, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018, 2019, 2020, 2021, 2022, 2023 Vladimír Vondruš Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ /** @file * @brief Class @ref Magnum::Text::AbstractShaper * @m_since_latest */ #include #include #include "Magnum/Magnum.h" #include "Magnum/Text/Text.h" #include "Magnum/Text/visibility.h" namespace Magnum { namespace Text { /** @brief Base for text shapers @m_since_latest Returned from @ref AbstractFont::createShaper(), provides an interface for * *shaping* text with the @ref AbstractFont it originated from. Meant to be (privately) subclassed by @ref AbstractFont plugin implementations. * *Shaping* is a process of converting a sequence of Unicode codepoints to a visual form, i.e. a list of glyphs of a particular font, their offsets and horizontal or vertical advances. Shaping is often not a 1:1 mapping from codepoints to glyphs, but involves merging, subdividing and reordering as well. @section Text-AbstractShaper-usage Usage Call @ref AbstractFont::createShaper() to get a shaper instance. The plugin will always return a valid instance so it's not needed to check for the pointer beging @cpp nullptr @ce, however note that the originating @ref AbstractFont instance has to stay in scope for at least as long as the @ref AbstractShaper is alive. A text is shaped by calling @ref shape(), retrieving the shaped glyph count with @ref glyphCount() and then getting the glyph data with @ref glyphIdsInto() and @ref glyphOffsetsAdvancesInto(). Glyph IDs can be then queried in (or inserted into) an @ref AbstractGlyphCache, and the rendered glyphs positioned at @p offsets with the cursor moving by @p advances is what makes up the final shaped text. @snippet Text.cpp AbstractShaper-shape For best results, it's recommended to call (a subset of) @ref setScript(), @ref setLanguage() and @ref setDirection() if at least some properties of the input text are known, as shown above. Without these, the font plugin may attempt to autodetect the properties, which might not always give a correct result. If a particular font plugin doesn't implement given script, language or direction or if it doesn't have any special handling for it, given function will return @cpp false @ce. The @ref script() const, @ref language() const and @ref direction() const can be used to inspect results of autodetection after @ref shape() has been called. The set of supported scripts, languages and directions and exact behavior for unsupported values is plugin-specific --- it may for example choose a fallback instead, or it may ignore the setting altogeter. See documentation of particular @ref AbstractFont subclasses for more information. @subsection Text-AbstractShaper-usage-features Enabling and disabling typographic features In the above snippet, the whole text is shaped using typographic features that are default in the font. For example, assuming the font would support small capitals (and the particular @ref AbstractFont plugin would recognize and use the feature), we could render the "world" part with small caps, resulting in "Hello, ᴡᴏʀʟᴅ!". @snippet Text.cpp AbstractShaper-shape-features Similarly, features can be enabled for the whole text by omitting the begin and end parameters, or for example a feature that a particular @ref AbstractFont plugin uses by default can be disabled by passing an explicit @cpp false @ce argument. The range, if present, is always given in *bytes* of the UTF-8 input. Capabilities of typographic features are rather broad, see the @ref Feature enum and documentation linked from it for exhaustive information. @subsection Text-AbstractShaper-usage-multiple Combining different shapers Sometimes it's desirable to render different parts of the text with different fonts, not just different features of the same font. A variation of the above example could be rendering the "world" part with a bold font: @snippet Text.cpp AbstractShaper-shape-multiple The resulting `glyphs` array is usable the same way as in the above case, with a difference that the glyph IDs have to be looked up in an @ref AbstractGlyphCache with a font ID corresponding to the range they're in. Also note that the whole text is passed every time and a begin & end is specified for it instead of passing just the slice alone. While possibly not having any visible effect in this particular case, in general it allows the shaper to make additional decisions based on surrounding context, for example picking glyphs that are better connected to their neighbors in handwriting fonts. @subsection Text-AbstractShaper-usage-instances Managing multiple instances As shown above, a particular @ref AbstractShaper instance is reusable, i.e. it's possible to call @ref shape() (and potentially also @ref setScript(), @ref setLanguage() and @ref setDirection()) several times to shape multiple pieces of text with it. Doing so allows the @ref AbstractFont plugin implementation to reuse allocated buffers and other state compared to a fresh instance from @ref AbstractFont::createShaper() having to be initialized every time. The application may choose several strategies, for example have a single @ref AbstractShaper instance and shape all texts with it, resetting its state every time. Or for example have a few persistent @ref AbstractShaper instances for dynamic text that changes every frame, or have dedicated preconfigured per-font, per-script or per-language instances. @section Text-AbstractShaper-subclassing Subclassing The @ref AbstractFont plugin is meant to create a local @ref AbstractShaper subclass. It implements at least @ref doShape(), @ref doGlyphIdsInto() and @ref doGlyphOffsetsAdvancesInto(), and potentially also (a subset of) @ref doSetScript(), @ref doScript(), @ref doSetLanguage(),@ref doLanguage(), @ref doSetDirection() and @ref doDirection(). The public API does most sanity checks on its own, see documentation of particular `do*()` functions for more information about the guarantees. */ class MAGNUM_TEXT_EXPORT AbstractShaper { public: /** * @brief Constructor * @param font Font the shaper is originating from */ explicit AbstractShaper(AbstractFont& font); /** @brief Copying is not allowed */ AbstractShaper(AbstractShaper&) = delete; /** @brief Move constructor */ AbstractShaper(AbstractShaper&&) noexcept; /** @brief Copying is not allowed */ AbstractShaper& operator=(AbstractShaper&) = delete; /** @brief Move assignment */ AbstractShaper& operator=(AbstractShaper&&) noexcept; virtual ~AbstractShaper(); /** @brief Font the shaper is originating from */ AbstractFont& font() { return _font; } const AbstractFont& font() const { return _font; } /**< @overload */ /** * @brief Set text script * * The script is used for all following @ref shape() calls. If not * called at all or if explicitly set to @ref Script::Unspecified, the * @ref AbstractFont plugin may attempt to guess the script from the * input text. The actual script used for shaping (if any) is queryable * with @ref script() const after @ref shape() has been called. * * Returns @cpp true @ce if the plugin supports setting a * script and the script is supported, @cpp false @ce otherwise, in * which case the shaping falls back to a generic behavior. See * documentation of a particular plugin for more information. * @see @ref setLanguage(), @ref setDirection() */ bool setScript(Script script); /** * @brief Set text language * * The language is expected to be a [BCP 47 language tag](https://en.wikipedia.org/wiki/IETF_language_tag), * either just the base tag such as @cpp "en" @ce or @cpp "cs" @ce * alone, or further differentiating with a region subtag like for * example @cpp "en-US" @ce vs @cpp "en-GB" @ce. * * The language is used for all following @ref shape() calls. If not * called at all or if explicitly set to an empty string, the * @ref AbstractFont plugin may attempt to guess the language from the * input text or the execution environment, such as current locale. The * actual language used for shaping (if any) is queryable with * @ref language() const after @ref shape() has been called. * * Returns @cpp true @ce if the plugin supports setting a language and * the language is supported, @cpp false @ce otherwise, in which case * the shaping falls back to a generic behavior. See documentation of a * particular plugin for more information. * @see @ref setScript(), @ref setDirection() */ bool setLanguage(Containers::StringView language); /** * @brief Set direction the text is meant to be shaped in * * The direction is used for all following @ref shape() calls. If not * called at all or if explicitly set to * @ref ShapeDirection::Unspecified, the @ref AbstractFont plugin may * attempt to guess the direction from the input text. The actual * direction used for shaping (if any) is queryable with * @ref direction() const after @ref shape() has been called. * * Returns @cpp true @ce if the plugin supports setting a language and * the language is supported, @cpp false @ce otherwise, in which case * the shaping falls back to a generic behavior. See documentation of a * particular font plugin for more information. * @see @ref setScript(), @ref setLanguage() */ bool setDirection(ShapeDirection direction); /** * @brief Shape a text * @param text Text in UTF-8 * @param features Typographic features to apply for the whole text or * its subranges * * Expects that both @p begin and all @ref FeatureRange::begin() are * contained within @p text, and that @p end and all * @ref FeatureRange::end() are either contained within @p text or have * a value of @cpp 0xffffffffu @ce. Returns the number of shaped glyphs * (which is also subsequently available through @ref glyphCount() const) * and updates the @ref script() const, @ref language() const and * @ref direction() const values. * * Whether @p features are used depends on a particular * @ref AbstractFont plugin implementation and the font file itself as * well --- for example, a plugin may enable @ref Feature::Kerning * by default but the font may not even have appropriate tables for it * included, in which case no kerning is performed. See documentation * of a particular font plugin for more information. */ #ifdef DOXYGEN_GENERATING_OUTPUT UnsignedInt shape(Containers::StringView text, Containers::ArrayView features = {}); #else /* To not have to include ArrayView */ UnsignedInt shape(Containers::StringView text, Containers::ArrayView features); UnsignedInt shape(Containers::StringView text); #endif /** @overload */ UnsignedInt shape(Containers::StringView text, std::initializer_list features); /** * @brief Shape a slice of text * @param text Text in UTF-8 * @param begin Beginning byte in the input text * @param end (One byte after) the end byte in the input text * @param features Typographic features to apply for the whole text or * its subranges * * A variant of @ref shape(Containers::StringView, Containers::ArrayView) * to be used when passing pieces of larger text with different * shapers, for example when the script, language or direction changes * in each piece or when the pieces are using a different font * entirely. Compared to passing just the actually shaped slice of * @p text this allows the implementation to perform shaping aware of * surrounding context, such as picking correct glyphs for beginning, * middle or end of a word or a paragraph. * @see @ref Text-AbstractShaper-usage-multiple */ #ifdef DOXYGEN_GENERATING_OUTPUT UnsignedInt shape(Containers::StringView text, UnsignedInt begin, UnsignedInt end, Containers::ArrayView features = {}); #else /* To not have to include ArrayView */ UnsignedInt shape(Containers::StringView text, UnsignedInt begin, UnsignedInt end, Containers::ArrayView features); UnsignedInt shape(Containers::StringView text, UnsignedInt begin, UnsignedInt end); #endif /** @overload */ UnsignedInt shape(Containers::StringView text, UnsignedInt begin, UnsignedInt end, std::initializer_list features); /** * @brief Count of glyphs produced by the last @ref shape() call * * If the last @ref shape() call failed or it hasn't been called yet, * returns @cpp 0 @ce. */ UnsignedInt glyphCount() const { return _glyphCount; } /** * @brief Script used for the last @ref shape() call * * May return @ref Script::Unspecified if @ref shape() hasn't been * called yet or if the @ref AbstractFont doesn't implement any * script-specific behavior. * @see @ref setScript(), @ref language(), @ref direction() */ Script script() const; /** * @brief Language used for the last @ref shape() call * * May return an empty string if @ref shape() hasn't been called yet or * if the @ref AbstractFont doesn't implement any language-specific * behavior. * * The returned view is generally neither * @relativeref{Corrade,Containers::StringViewFlag::Global} nor * @relativeref{Corrade,Containers::StringViewFlag::NullTerminated} and * is only guaranteed to stay valid until the next @ref setLanguage() * or @ref shape() call. Particular @ref AbstractFont implementations * may give better guarantees, see their documentation for more * information. * @see @ref setLanguage(), @ref script(), @ref direction() */ Containers::StringView language() const; /** * @brief Shape direction used for the last @ref shape() call * * May return @ref ShapeDirection::Unspecified if @ref shape() hasn't * been called yet or if the @ref AbstractFont doesn't implement any * script-specific behavior. * @see @ref setDirection(), @ref script(), @ref language() */ ShapeDirection direction() const; /** * @brief Retrieve glyph IDs * @param[out] ids Where to put glyph IDs * * The @p ids view is expected to have a size of @ref glyphCount(). * After calling this function, the @p ids are commonly looked up in or * inserted into an @ref AbstractGlyphCache. Offsets and advances * corresponding to the IDs can be retrieved with * @ref glyphOffsetsAdvancesInto(). */ void glyphIdsInto(const Containers::StridedArrayView1D& ids) const; /** * @brief Retrieve glyph offsets and advances * @param[out] offsets Where to put glyph offsets * @param[out] advances Where to put glyph advances * * The @p offsets and @p advances views are all expected to have a size * of @ref glyphCount(). The @p offsets specify where to put the glyph * relative to current cursor (which is then further offset for the * particular glyph rectangle returned from the glyph cache) and * @p advances specify in which direction to move the cursor for the * next glyph. For @ref direction() being * @ref ShapeDirection::LeftToRight or * @relativeref{ShapeDirection,RightToLeft} Y components of @p advances * are @cpp 0.0f @ce, for @relativeref{ShapeDirection,TopToBottom} or * @relativeref{ShapeDirection,BottomToTop} X components of @p advances * are @cpp 0.0f @ce. Glyph IDs corresponding to the offsets and * advances can be retrieved with @ref glyphIdsInto(). * @see @ref direction() */ void glyphOffsetsAdvancesInto(const Containers::StridedArrayView1D& offsets, const Containers::StridedArrayView1D& advances) const; private: /** * @brief Implemenation for @ref setScript() * * Default implementation does nothing and returns @cpp false @ce. */ virtual bool doSetScript(Script script); /** * @brief Implemenation for @ref setLanguage() * * Default implementation does nothing and returns @cpp false @ce. */ virtual bool doSetLanguage(Containers::StringView language); /** * @brief Implemenation for @ref setDirection() * * Default implementation does nothing and returns @cpp false @ce. */ virtual bool doSetDirection(ShapeDirection direction); /** * @brief Implemenation for @ref shape() * * The @p begin as well as all @ref FeatureRange::begin() values * are guaranteed to be within @p text, @p end as well as all * @ref FeatureRange::end() values are guaranteed to be either within * @p text or have a value of @cpp 0xffffffffu @ce. */ virtual UnsignedInt doShape(Containers::StringView text, UnsignedInt begin, UnsignedInt end, Containers::ArrayView features) = 0; /** * @brief Implemenation for @ref script() * * Default implementation returns @ref Script::Unspecified. */ virtual Script doScript() const; /** * @brief Implemenation for @ref language() * * Default implementation returns an empty string. */ virtual Containers::StringView doLanguage() const; /** * @brief Implemenation for @ref direction() * * Default implementation returns @ref ShapeDirection::Unspecified. */ virtual ShapeDirection doDirection() const; /** * @brief Implemenation for @ref glyphIdsInto() * * The @p ids are guaranteed to have a size of @ref glyphCount(). * Called only if @ref glyphCount() is not @cpp 0 @ce. */ virtual void doGlyphIdsInto(const Containers::StridedArrayView1D& ids) const = 0; /** * @brief Implemenation for @ref glyphOffsetsAdvancesInto() * * The @p offsets and @p advances are guaranteed to have a size of * @ref glyphCount(). Called only if @ref glyphCount() is not * @cpp 0 @ce. */ virtual void doGlyphOffsetsAdvancesInto(const Containers::StridedArrayView1D& offsets, const Containers::StridedArrayView1D& advances) const = 0; Containers::Reference _font; UnsignedInt _glyphCount; }; }} #endif