modules/skparagraph/src/TextWrapper.h - skia - Git at Google

 // Copyright 2019 Google LLC.
 #ifndef TextWrapper_DEFINED
 #define TextWrapper_DEFINED

 #include <string>
 #include "modules/skparagraph/src/TextLine.h"
 #include "src/core/SkSpan.h"

 namespace skia {
 namespace textlayout {

 class ParagraphImpl;

 class TextWrapper {
     class ClusterPos {
     public:
         ClusterPos() : fCluster(nullptr), fPos(0) {}
         ClusterPos(Cluster* cluster, size_t pos) : fCluster(cluster), fPos(pos) {}
         inline Cluster* cluster() const { return fCluster; }
         inline size_t position() const { return fPos; }
         inline void setPosition(size_t pos) { fPos = pos; }
         void clean() {
             fCluster = nullptr;
             fPos = 0;
         }
         void move(bool up) {
             fCluster += up ? 1 : -1;
             fPos = up ? 0 : fCluster->endPos();
 }

     private:
         Cluster* fCluster;
         size_t fPos;
     };
     class TextStretch {
     public:
         TextStretch() : fStart(), fEnd(), fWidth(0), fWidthWithGhostSpaces(0) {}
         TextStretch(Cluster* s, Cluster* e, bool forceStrut)
                 : fStart(s, 0), fEnd(e, e->endPos()), fMetrics(forceStrut), fWidth(0), fWidthWithGhostSpaces(0) {
             for (auto c = s; c <= e; ++c) {
                 if (auto r = c->runOrNull()) {
                     fMetrics.add(r);
                 }
                 if (c < e) {
                     fWidth += c->width();
                 }
             }
             fWidthWithGhostSpaces = fWidth;
         }

         inline SkScalar width() const { return fWidth; }
         SkScalar widthWithGhostSpaces() const { return fWidthWithGhostSpaces; }
         inline Cluster* startCluster() const { return fStart.cluster(); }
         inline Cluster* endCluster() const { return fEnd.cluster(); }
         inline Cluster* breakCluster() const { return fBreak.cluster(); }
         inline InternalLineMetrics& metrics() { return fMetrics; }
         inline size_t startPos() const { return fStart.position(); }
         inline size_t endPos() const { return fEnd.position(); }
         bool endOfCluster() { return fEnd.position() == fEnd.cluster()->endPos(); }
         bool endOfWord() {
             return endOfCluster() &&
                    (fEnd.cluster()->isHardBreak() || fEnd.cluster()->isSoftBreak());
         }

         void extend(TextStretch& stretch) {
             fMetrics.add(stretch.fMetrics);
             fEnd = stretch.fEnd;
             fWidth += stretch.fWidth;
             stretch.clean();
         }

         bool empty() { return fStart.cluster() == fEnd.cluster() &&
                               fStart.position() == fEnd.position(); }

         void setMetrics(const InternalLineMetrics& metrics) { fMetrics = metrics; }

         void extend(Cluster* cluster) {
             if (fStart.cluster() == nullptr) {
                 fStart = ClusterPos(cluster, cluster->startPos());
             }
             fEnd = ClusterPos(cluster, cluster->endPos());
             // TODO: Make sure all the checks are correct and there are no unnecessary checks
             auto& r = cluster->run();
             if (!cluster->isHardBreak() && !r.isPlaceholder()) {
                 // We ignore metrics for \n as the Flutter does
                 fMetrics.add(&r);
             }
             fWidth += cluster->width();
         }

         void extend(Cluster* cluster, size_t pos) {
             fEnd = ClusterPos(cluster, pos);
             if (auto r = cluster->runOrNull()) {
                 fMetrics.add(r);
             }
         }

         void startFrom(Cluster* cluster, size_t pos) {
             fStart = ClusterPos(cluster, pos);
             fEnd = ClusterPos(cluster, pos);
             if (auto r = cluster->runOrNull()) {
                 // In case of placeholder we should ignore the default text style -
                 // we will pick up the correct one from the placeholder
                 if (!r->isPlaceholder()) {
                     fMetrics.add(r);
                 }
             }
             fWidth = 0;
         }

         void saveBreak() {
             fWidthWithGhostSpaces = fWidth;
             fBreak = fEnd;
         }

         void restoreBreak() {
             fWidth = fWidthWithGhostSpaces;
             fEnd = fBreak;
         }

         void trim() {

             if (fEnd.cluster() != nullptr &&
                 fEnd.cluster()->owner() != nullptr &&
                 fEnd.cluster()->runOrNull() != nullptr &&
                 fEnd.cluster()->run().placeholderStyle() == nullptr &&
                 fWidth > 0) {
                 fWidth -= (fEnd.cluster()->width() - fEnd.cluster()->trimmedWidth(fEnd.position()));
             }
         }

         void trim(Cluster* cluster) {
             SkASSERT(fEnd.cluster() == cluster);
             if (fEnd.cluster() > fStart.cluster()) {
                 fEnd.move(false);
                 fWidth -= cluster->width();
             } else {
                 fEnd.setPosition(fStart.position());
                 fWidth = 0;
             }
         }

         void clean() {
             fStart.clean();
             fEnd.clean();
             fWidth = 0;
             fMetrics.clean();
         }

     private:
         ClusterPos fStart;
         ClusterPos fEnd;
         ClusterPos fBreak;
         InternalLineMetrics fMetrics;
         SkScalar fWidth;
         SkScalar fWidthWithGhostSpaces;
     };

 public:
     TextWrapper() {
          fLineNumber = 1;
          fHardLineBreak = false;
          fExceededMaxLines = false;
     }

     using AddLineToParagraph = std::function<void(TextRange text,
                                                   TextRange textWithSpaces,
                                                   ClusterRange clusters,
                                                   ClusterRange clustersWithGhosts,
                                                   SkScalar AddLineToParagraph,
                                                   size_t startClip,
                                                   size_t endClip,
                                                   SkVector offset,
                                                   SkVector advance,
                                                   InternalLineMetrics metrics,
                                                   bool addEllipsis)>;
     void breakTextIntoLines(ParagraphImpl* parent,
                             SkScalar maxWidth,
                             const AddLineToParagraph& addLine);

     SkScalar height() const { return fHeight; }
     SkScalar minIntrinsicWidth() const { return fMinIntrinsicWidth; }
     SkScalar maxIntrinsicWidth() const { return fMaxIntrinsicWidth; }
     bool exceededMaxLines() const { return fExceededMaxLines; }

 private:
     TextStretch fWords;
     TextStretch fClusters;
     TextStretch fClip;
     TextStretch fEndLine;
     size_t fLineNumber;
     bool fTooLongWord;
     bool fTooLongCluster;

     bool fHardLineBreak;
     bool fExceededMaxLines;

     SkScalar fHeight;
     SkScalar fMinIntrinsicWidth;
     SkScalar fMaxIntrinsicWidth;

     void reset() {
         fWords.clean();
         fClusters.clean();
         fClip.clean();
         fTooLongCluster = false;
         fTooLongWord = false;
     }

     void lookAhead(SkScalar maxWidth, Cluster* endOfClusters);
     void moveForward(bool hasEllipsis);
     void trimEndSpaces(TextAlign align);
     std::tuple<Cluster*, size_t, SkScalar> trimStartSpaces(Cluster* endOfClusters);
     SkScalar getClustersTrimmedWidth();
 };
 }  // namespace textlayout
 }  // namespace skia

 #endif  // TextWrapper_DEFINED
	// Copyright 2019 Google LLC.
	#ifndef TextWrapper_DEFINED
	#define TextWrapper_DEFINED

	#include <string>
	#include "modules/skparagraph/src/TextLine.h"
	#include "src/core/SkSpan.h"

	namespace skia {
	namespace textlayout {

	class ParagraphImpl;

	class TextWrapper {
	class ClusterPos {
	public:
	ClusterPos() : fCluster(nullptr), fPos(0) {}
	ClusterPos(Cluster* cluster, size_t pos) : fCluster(cluster), fPos(pos) {}
	inline Cluster* cluster() const { return fCluster; }
	inline size_t position() const { return fPos; }
	inline void setPosition(size_t pos) { fPos = pos; }
	void clean() {
	fCluster = nullptr;
	fPos = 0;
	}
	void move(bool up) {
	fCluster += up ? 1 : -1;
	fPos = up ? 0 : fCluster->endPos();
	}

	private:
	Cluster* fCluster;
	size_t fPos;
	};
	class TextStretch {
	public:
	TextStretch() : fStart(), fEnd(), fWidth(0), fWidthWithGhostSpaces(0) {}
	TextStretch(Cluster* s, Cluster* e, bool forceStrut)
	: fStart(s, 0), fEnd(e, e->endPos()), fMetrics(forceStrut), fWidth(0), fWidthWithGhostSpaces(0) {
	for (auto c = s; c <= e; ++c) {
	if (auto r = c->runOrNull()) {
	fMetrics.add(r);
	}
	if (c < e) {
	fWidth += c->width();
	}
	}
	fWidthWithGhostSpaces = fWidth;
	}

	inline SkScalar width() const { return fWidth; }
	SkScalar widthWithGhostSpaces() const { return fWidthWithGhostSpaces; }
	inline Cluster* startCluster() const { return fStart.cluster(); }
	inline Cluster* endCluster() const { return fEnd.cluster(); }
	inline Cluster* breakCluster() const { return fBreak.cluster(); }
	inline InternalLineMetrics& metrics() { return fMetrics; }
	inline size_t startPos() const { return fStart.position(); }
	inline size_t endPos() const { return fEnd.position(); }
	bool endOfCluster() { return fEnd.position() == fEnd.cluster()->endPos(); }
	bool endOfWord() {
	return endOfCluster() &&
	(fEnd.cluster()->isHardBreak() \|\| fEnd.cluster()->isSoftBreak());
	}

	void extend(TextStretch& stretch) {
	fMetrics.add(stretch.fMetrics);
	fEnd = stretch.fEnd;
	fWidth += stretch.fWidth;
	stretch.clean();
	}

	bool empty() { return fStart.cluster() == fEnd.cluster() &&
	fStart.position() == fEnd.position(); }

	void setMetrics(const InternalLineMetrics& metrics) { fMetrics = metrics; }

	void extend(Cluster* cluster) {
	if (fStart.cluster() == nullptr) {
	fStart = ClusterPos(cluster, cluster->startPos());
	}
	fEnd = ClusterPos(cluster, cluster->endPos());
	// TODO: Make sure all the checks are correct and there are no unnecessary checks
	auto& r = cluster->run();
	if (!cluster->isHardBreak() && !r.isPlaceholder()) {
	// We ignore metrics for \n as the Flutter does
	fMetrics.add(&r);
	}
	fWidth += cluster->width();
	}

	void extend(Cluster* cluster, size_t pos) {
	fEnd = ClusterPos(cluster, pos);
	if (auto r = cluster->runOrNull()) {
	fMetrics.add(r);
	}
	}

	void startFrom(Cluster* cluster, size_t pos) {
	fStart = ClusterPos(cluster, pos);
	fEnd = ClusterPos(cluster, pos);
	if (auto r = cluster->runOrNull()) {
	// In case of placeholder we should ignore the default text style -
	// we will pick up the correct one from the placeholder
	if (!r->isPlaceholder()) {
	fMetrics.add(r);
	}
	}
	fWidth = 0;
	}

	void saveBreak() {
	fWidthWithGhostSpaces = fWidth;
	fBreak = fEnd;
	}

	void restoreBreak() {
	fWidth = fWidthWithGhostSpaces;
	fEnd = fBreak;
	}

	void trim() {

	if (fEnd.cluster() != nullptr &&
	fEnd.cluster()->owner() != nullptr &&
	fEnd.cluster()->runOrNull() != nullptr &&
	fEnd.cluster()->run().placeholderStyle() == nullptr &&
	fWidth > 0) {
	fWidth -= (fEnd.cluster()->width() - fEnd.cluster()->trimmedWidth(fEnd.position()));
	}
	}

	void trim(Cluster* cluster) {
	SkASSERT(fEnd.cluster() == cluster);
	if (fEnd.cluster() > fStart.cluster()) {
	fEnd.move(false);
	fWidth -= cluster->width();
	} else {
	fEnd.setPosition(fStart.position());
	fWidth = 0;
	}
	}

	void clean() {
	fStart.clean();
	fEnd.clean();
	fWidth = 0;
	fMetrics.clean();
	}

	private:
	ClusterPos fStart;
	ClusterPos fEnd;
	ClusterPos fBreak;
	InternalLineMetrics fMetrics;
	SkScalar fWidth;
	SkScalar fWidthWithGhostSpaces;
	};

	public:
	TextWrapper() {
	fLineNumber = 1;
	fHardLineBreak = false;
	fExceededMaxLines = false;
	}

	using AddLineToParagraph = std::function<void(TextRange text,
	TextRange textWithSpaces,
	ClusterRange clusters,
	ClusterRange clustersWithGhosts,
	SkScalar AddLineToParagraph,
	size_t startClip,
	size_t endClip,
	SkVector offset,
	SkVector advance,
	InternalLineMetrics metrics,
	bool addEllipsis)>;
	void breakTextIntoLines(ParagraphImpl* parent,
	SkScalar maxWidth,
	const AddLineToParagraph& addLine);

	SkScalar height() const { return fHeight; }
	SkScalar minIntrinsicWidth() const { return fMinIntrinsicWidth; }
	SkScalar maxIntrinsicWidth() const { return fMaxIntrinsicWidth; }
	bool exceededMaxLines() const { return fExceededMaxLines; }

	private:
	TextStretch fWords;
	TextStretch fClusters;
	TextStretch fClip;
	TextStretch fEndLine;
	size_t fLineNumber;
	bool fTooLongWord;
	bool fTooLongCluster;

	bool fHardLineBreak;
	bool fExceededMaxLines;

	SkScalar fHeight;
	SkScalar fMinIntrinsicWidth;
	SkScalar fMaxIntrinsicWidth;

	void reset() {
	fWords.clean();
	fClusters.clean();
	fClip.clean();
	fTooLongCluster = false;
	fTooLongWord = false;
	}

	void lookAhead(SkScalar maxWidth, Cluster* endOfClusters);
	void moveForward(bool hasEllipsis);
	void trimEndSpaces(TextAlign align);
	std::tuple<Cluster, size_t, SkScalar> trimStartSpaces(Cluster endOfClusters);
	SkScalar getClustersTrimmedWidth();
	};
	} // namespace textlayout
	} // namespace skia

	#endif // TextWrapper_DEFINED