modules/skottie/include/TextShaper.h - skia - Git at Google

 /*
  * Copyright 2019 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkottieTextShaper_DEFINED
 #define SkottieTextShaper_DEFINED

 #include "include/core/SkFont.h"
 #include "include/core/SkPoint.h"
 #include "include/core/SkRefCnt.h"
 #include "include/core/SkScalar.h"
 #include "include/core/SkTypes.h"
 #include "include/private/base/SkTypeTraits.h"
 #include "include/utils/SkTextUtils.h"

 #include <cstddef>
 #include <cstdint>
 #include <type_traits>
 #include <vector>

 class SkCanvas;
 class SkFontMgr;
 class SkPaint;
 class SkString;
 class SkTypeface;
 struct SkRect;

 namespace SkShapers { class Factory; }

 namespace skottie {

 // Helper implementing After Effects text shaping semantics on top of SkShaper.

 class Shaper final {
 public:
     struct RunRec {
         SkFont fFont;
         size_t fSize;

         static_assert(::sk_is_trivially_relocatable<decltype(fFont)>::value);

         using sk_is_trivially_relocatable = std::true_type;
     };

     struct ShapedGlyphs {
         std::vector<RunRec>    fRuns;

         // Consolidated storage for all runs.
         std::vector<SkGlyphID> fGlyphIDs;
         std::vector<SkPoint>   fGlyphPos;

         // fClusters[i] is an input string index, pointing to the start of the UTF sequence
         // associated with fGlyphs[i].  The number of entries matches the number of glyphs.
         // Only available with Flags::kClusters.
         std::vector<size_t>    fClusters;

         enum class BoundsType { kConservative, kTight };
         SkRect computeBounds(BoundsType) const;

         void draw(SkCanvas*, const SkPoint& origin, const SkPaint&) const;
     };

     struct Fragment {
         ShapedGlyphs fGlyphs;
         SkPoint      fOrigin;

         // Only valid for kFragmentGlyphs
         float        fAdvance,
                      fAscent;
         uint32_t     fLineIndex;    // 0-based index for the line this fragment belongs to.
         bool         fIsWhitespace; // True if the first code point in the corresponding
                                     // cluster is whitespace.
     };

     struct Result {
         std::vector<Fragment> fFragments;
         size_t                fMissingGlyphCount = 0;
         // Relative text size scale, when using an auto-scaling ResizePolicy
         // (otherwise 1.0).  This is informative of the final text size, and is
         // not required to render the Result.
         float                 fScale = 1.0f;

         SkRect computeVisualBounds() const;
     };

     enum class VAlign : uint8_t {
         // Align the first line typographical top with the text box top (AE box text).
         kTop,
         // Align the first line typographical baseline with the text box top (AE point text).
         kTopBaseline,

         // Skottie vertical alignment extensions

         // These are based on a hybrid extent box defined (in Y) as
         //
         //   ------------------------------------------------------
         //   MIN(visual_top_extent   , typographical_top_extent   )
         //
         //                         ...
         //
         //   MAX(visual_bottom_extent, typographical_bottom_extent)
         //   ------------------------------------------------------
         kHybridTop,     // extent box top    -> text box top
         kHybridCenter,  // extent box center -> text box center
         kHybridBottom,  // extent box bottom -> text box bottom

         // Visual alignement modes -- these are using tight visual bounds for the paragraph.
         kVisualTop,     // visual top    -> text box top
         kVisualCenter,  // visual center -> text box center
         kVisualBottom,  // visual bottom -> text box bottom
     };

     enum class ResizePolicy : uint8_t {
         // Use the specified text size.
         kNone,
         // Resize the text such that the extent box fits (snuggly) in the text box,
         // both horizontally and vertically.
         kScaleToFit,
         // Same kScaleToFit if the text doesn't fit at the specified font size.
         // Otherwise, same as kNone.
         kDownscaleToFit,
     };

     enum class LinebreakPolicy : uint8_t {
         // Break lines such that they fit in a non-empty paragraph box, horizontally.
         kParagraph,
         // Only break lines when requested explicitly (\r), regardless of paragraph box dimensions.
         kExplicit,
     };

     // Initial text direction.
     enum class Direction : uint8_t { kLTR, kRTL };

     enum class Capitalization {
         kNone,
         kUpperCase,
     };

     enum Flags : uint32_t {
         kNone                       = 0x00,

         // Split out individual glyphs into separate Fragments
         // (useful when the caller intends to manipulate glyphs independently).
         kFragmentGlyphs             = 0x01,

         // Compute the advance and ascent for each fragment.
         kTrackFragmentAdvanceAscent = 0x02,

         // Return cluster information.
         kClusters                   = 0x04,
     };

     struct TextDesc {
         const sk_sp<SkTypeface>&  fTypeface;
         SkScalar                  fTextSize       = 0,
                                   fMinTextSize    = 0,  // when auto-sizing
                                   fMaxTextSize    = 0,  // when auto-sizing
                                   fLineHeight     = 0,
                                   fLineShift      = 0,
                                   fAscent         = 0;
         SkTextUtils::Align        fHAlign         = SkTextUtils::kLeft_Align;
         VAlign                    fVAlign         = Shaper::VAlign::kTop;
         ResizePolicy              fResize         = Shaper::ResizePolicy::kNone;
         LinebreakPolicy           fLinebreak      = Shaper::LinebreakPolicy::kExplicit;
         Direction                 fDirection      = Shaper::Direction::kLTR ;
         Capitalization            fCapitalization = Shaper::Capitalization::kNone;
         size_t                    fMaxLines       = 0;  // when auto-sizing, 0 -> no max
         uint32_t                  fFlags          = 0;
         const char*               fLocale         = nullptr;
         const char*               fFontFamily     = nullptr;
     };

     // Performs text layout along an infinite horizontal line, starting at |point|.
     // Only explicit line breaks (\r) are observed.
     static Result Shape(const SkString& text, const TextDesc& desc, const SkPoint& point,
                         const sk_sp<SkFontMgr>&, const sk_sp<SkShapers::Factory>&);

     // Performs text layout within |box|, injecting line breaks as needed to ensure
     // horizontal fitting.  The result is *not* guaranteed to fit vertically (it may extend
     // below the box bottom).
     static Result Shape(const SkString& text, const TextDesc& desc, const SkRect& box,
                         const sk_sp<SkFontMgr>&, const sk_sp<SkShapers::Factory>&);

 #if !defined(SK_DISABLE_LEGACY_SHAPER_FACTORY)
     static Result Shape(const SkString& text, const TextDesc& desc, const SkPoint& point,
                         const sk_sp<SkFontMgr>&);
     static Result Shape(const SkString& text, const TextDesc& desc, const SkRect& box,
                         const sk_sp<SkFontMgr>&);
 #endif

 private:
     Shaper() = delete;
 };

 } // namespace skottie

 #endif // SkottieTextShaper_DEFINED
	/*
	* Copyright 2019 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkottieTextShaper_DEFINED
	#define SkottieTextShaper_DEFINED

	#include "include/core/SkFont.h"
	#include "include/core/SkPoint.h"
	#include "include/core/SkRefCnt.h"
	#include "include/core/SkScalar.h"
	#include "include/core/SkTypes.h"
	#include "include/private/base/SkTypeTraits.h"
	#include "include/utils/SkTextUtils.h"

	#include <cstddef>
	#include <cstdint>
	#include <type_traits>
	#include <vector>

	class SkCanvas;
	class SkFontMgr;
	class SkPaint;
	class SkString;
	class SkTypeface;
	struct SkRect;

	namespace SkShapers { class Factory; }

	namespace skottie {

	// Helper implementing After Effects text shaping semantics on top of SkShaper.

	class Shaper final {
	public:
	struct RunRec {
	SkFont fFont;
	size_t fSize;

	static_assert(::sk_is_trivially_relocatable<decltype(fFont)>::value);

	using sk_is_trivially_relocatable = std::true_type;
	};

	struct ShapedGlyphs {
	std::vector<RunRec> fRuns;

	// Consolidated storage for all runs.
	std::vector<SkGlyphID> fGlyphIDs;
	std::vector<SkPoint> fGlyphPos;

	// fClusters[i] is an input string index, pointing to the start of the UTF sequence
	// associated with fGlyphs[i]. The number of entries matches the number of glyphs.
	// Only available with Flags::kClusters.
	std::vector<size_t> fClusters;

	enum class BoundsType { kConservative, kTight };
	SkRect computeBounds(BoundsType) const;

	void draw(SkCanvas*, const SkPoint& origin, const SkPaint&) const;
	};

	struct Fragment {
	ShapedGlyphs fGlyphs;
	SkPoint fOrigin;

	// Only valid for kFragmentGlyphs
	float fAdvance,
	fAscent;
	uint32_t fLineIndex; // 0-based index for the line this fragment belongs to.
	bool fIsWhitespace; // True if the first code point in the corresponding
	// cluster is whitespace.
	};

	struct Result {
	std::vector<Fragment> fFragments;
	size_t fMissingGlyphCount = 0;
	// Relative text size scale, when using an auto-scaling ResizePolicy
	// (otherwise 1.0). This is informative of the final text size, and is
	// not required to render the Result.
	float fScale = 1.0f;

	SkRect computeVisualBounds() const;
	};

	enum class VAlign : uint8_t {
	// Align the first line typographical top with the text box top (AE box text).
	kTop,
	// Align the first line typographical baseline with the text box top (AE point text).
	kTopBaseline,

	// Skottie vertical alignment extensions

	// These are based on a hybrid extent box defined (in Y) as
	//
	// ------------------------------------------------------
	// MIN(visual_top_extent , typographical_top_extent )
	//
	// ...
	//
	// MAX(visual_bottom_extent, typographical_bottom_extent)
	// ------------------------------------------------------
	kHybridTop, // extent box top -> text box top
	kHybridCenter, // extent box center -> text box center
	kHybridBottom, // extent box bottom -> text box bottom

	// Visual alignement modes -- these are using tight visual bounds for the paragraph.
	kVisualTop, // visual top -> text box top
	kVisualCenter, // visual center -> text box center
	kVisualBottom, // visual bottom -> text box bottom
	};

	enum class ResizePolicy : uint8_t {
	// Use the specified text size.
	kNone,
	// Resize the text such that the extent box fits (snuggly) in the text box,
	// both horizontally and vertically.
	kScaleToFit,
	// Same kScaleToFit if the text doesn't fit at the specified font size.
	// Otherwise, same as kNone.
	kDownscaleToFit,
	};

	enum class LinebreakPolicy : uint8_t {
	// Break lines such that they fit in a non-empty paragraph box, horizontally.
	kParagraph,
	// Only break lines when requested explicitly (\r), regardless of paragraph box dimensions.
	kExplicit,
	};

	// Initial text direction.
	enum class Direction : uint8_t { kLTR, kRTL };

	enum class Capitalization {
	kNone,
	kUpperCase,
	};

	enum Flags : uint32_t {
	kNone = 0x00,

	// Split out individual glyphs into separate Fragments
	// (useful when the caller intends to manipulate glyphs independently).
	kFragmentGlyphs = 0x01,

	// Compute the advance and ascent for each fragment.
	kTrackFragmentAdvanceAscent = 0x02,

	// Return cluster information.
	kClusters = 0x04,
	};

	struct TextDesc {
	const sk_sp<SkTypeface>& fTypeface;
	SkScalar fTextSize = 0,
	fMinTextSize = 0, // when auto-sizing
	fMaxTextSize = 0, // when auto-sizing
	fLineHeight = 0,
	fLineShift = 0,
	fAscent = 0;
	SkTextUtils::Align fHAlign = SkTextUtils::kLeft_Align;
	VAlign fVAlign = Shaper::VAlign::kTop;
	ResizePolicy fResize = Shaper::ResizePolicy::kNone;
	LinebreakPolicy fLinebreak = Shaper::LinebreakPolicy::kExplicit;
	Direction fDirection = Shaper::Direction::kLTR ;
	Capitalization fCapitalization = Shaper::Capitalization::kNone;
	size_t fMaxLines = 0; // when auto-sizing, 0 -> no max
	uint32_t fFlags = 0;
	const char* fLocale = nullptr;
	const char* fFontFamily = nullptr;
	};

	// Performs text layout along an infinite horizontal line, starting at \|point\|.
	// Only explicit line breaks (\r) are observed.
	static Result Shape(const SkString& text, const TextDesc& desc, const SkPoint& point,
	const sk_sp<SkFontMgr>&, const sk_sp<SkShapers::Factory>&);

	// Performs text layout within \|box\|, injecting line breaks as needed to ensure
	// horizontal fitting. The result is not guaranteed to fit vertically (it may extend
	// below the box bottom).
	static Result Shape(const SkString& text, const TextDesc& desc, const SkRect& box,
	const sk_sp<SkFontMgr>&, const sk_sp<SkShapers::Factory>&);

	#if !defined(SK_DISABLE_LEGACY_SHAPER_FACTORY)
	static Result Shape(const SkString& text, const TextDesc& desc, const SkPoint& point,
	const sk_sp<SkFontMgr>&);
	static Result Shape(const SkString& text, const TextDesc& desc, const SkRect& box,
	const sk_sp<SkFontMgr>&);
	#endif

	private:
	Shaper() = delete;
	};

	} // namespace skottie

	#endif // SkottieTextShaper_DEFINED