src/third_party/skia/src/core/SkGlyph.h - cobalt - Git at Google

 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkGlyph_DEFINED
 #define SkGlyph_DEFINED

 #include "SkArenaAlloc.h"
 #include "SkChecksum.h"
 #include "SkFixed.h"
 #include "SkMask.h"
 #include "SkTypes.h"


 class SkPath;
 class SkGlyphCache;

 // needs to be != to any valid SkMask::Format
 #define MASK_FORMAT_UNKNOWN         (0xFF)
 #define MASK_FORMAT_JUST_ADVANCE    MASK_FORMAT_UNKNOWN

 #define kMaxGlyphWidth (1<<13)

 /** (glyph-index or unicode-point) + subpixel-pos */
 struct SkPackedID {
     static constexpr uint32_t kImpossibleID = ~0;
     enum {
         kSubBits = 2,
         kSubMask = ((1 << kSubBits) - 1),
         kSubShift = 24, // must be large enough for glyphs and unichars
         kCodeMask = ((1 << kSubShift) - 1),
         // relative offsets for X and Y subpixel bits
         kSubShiftX = kSubBits,
         kSubShiftY = 0
     };

     SkPackedID(uint32_t code) {
         SkASSERT(code <= kCodeMask);
         SkASSERT(code != kImpossibleID);
         fID = code;
     }

     SkPackedID(uint32_t code, SkFixed x, SkFixed y) {
         SkASSERT(code <= kCodeMask);
         x = FixedToSub(x);
         y = FixedToSub(y);
         uint32_t ID = (x << (kSubShift + kSubShiftX)) |
                       (y << (kSubShift + kSubShiftY)) |
                       code;
         SkASSERT(ID != kImpossibleID);
         fID = ID;
     }

     constexpr SkPackedID() : fID(kImpossibleID) {}

     bool operator==(const SkPackedID& that) const {
         return fID == that.fID;
     }
     bool operator!=(const SkPackedID& that) const {
         return !(*this == that);
     }

     uint32_t code() const {
         return fID & kCodeMask;
     }

     SkFixed getSubXFixed() const {
         return SubToFixed(ID2SubX(fID));
     }

     SkFixed getSubYFixed() const {
         return SubToFixed(ID2SubY(fID));
     }

     uint32_t hash() const {
         return SkChecksum::CheapMix(fID);
     }

 // FIXME - This is needed because the Android framework directly accesses fID.
 // Remove when fID accesses are cleaned up.
 #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
     operator uint32_t() const { return fID; }
 #endif

 private:
     static unsigned ID2SubX(uint32_t id) {
         return id >> (kSubShift + kSubShiftX);
     }

     static unsigned ID2SubY(uint32_t id) {
         return (id >> (kSubShift + kSubShiftY)) & kSubMask;
     }

     static unsigned FixedToSub(SkFixed n) {
         return (n >> (16 - kSubBits)) & kSubMask;
     }

     static SkFixed SubToFixed(unsigned sub) {
         SkASSERT(sub <= kSubMask);
         return sub << (16 - kSubBits);
     }

     uint32_t fID;
 };

 struct SkPackedGlyphID : public SkPackedID {
     SkPackedGlyphID(SkGlyphID code) : SkPackedID(code) { }
     SkPackedGlyphID(SkGlyphID code, SkFixed x, SkFixed y) : SkPackedID(code, x, y) { }
     SkPackedGlyphID() : SkPackedID() { }
     SkGlyphID code() const {
         return SkTo<SkGlyphID>(SkPackedID::code());
     }
 };

 struct SkPackedUnicharID : public SkPackedID {
     SkPackedUnicharID(SkUnichar code) : SkPackedID(code) { }
     SkPackedUnicharID(SkUnichar code, SkFixed x, SkFixed y) : SkPackedID(code, x, y) { }
     SkPackedUnicharID() : SkPackedID() { }
     SkUnichar code() const {
         return SkTo<SkUnichar>(SkPackedID::code());
     }
 };

 SK_BEGIN_REQUIRE_DENSE
 class SkGlyph {
     // Support horizontal and vertical skipping strike-through / underlines.
     // The caller walks the linked list looking for a match. For a horizontal underline,
     // the fBounds contains the top and bottom of the underline. The fInterval pair contains the
     // beginning and end of of the intersection of the bounds and the glyph's path.
     // If interval[0] >= interval[1], no intesection was found.
     struct Intercept {
         Intercept* fNext;
         SkScalar   fBounds[2];    // for horz underlines, the boundaries in Y
         SkScalar   fInterval[2];  // the outside intersections of the axis and the glyph
     };

     struct PathData {
         Intercept* fIntercept;
         SkPath*    fPath;
     };

 public:
     static const SkFixed kSubpixelRound = SK_FixedHalf >> SkPackedID::kSubBits;
     void*       fImage;
     PathData*   fPathData;
     float       fAdvanceX, fAdvanceY;

     uint16_t    fWidth, fHeight;
     int16_t     fTop, fLeft;

     uint8_t     fMaskFormat;
     int8_t      fRsbDelta, fLsbDelta;  // used by auto-kerning
     int8_t      fForceBW;

     void initWithGlyphID(SkPackedGlyphID glyph_id) {
         fID             = glyph_id;
         fImage          = nullptr;
         fPathData       = nullptr;
         fMaskFormat     = MASK_FORMAT_UNKNOWN;
         fForceBW        = 0;
     }

     static size_t BitsToBytes(size_t bits) {
         return (bits + 7) >> 3;
     }

     /**
      *  Compute the rowbytes for the specified width and mask-format.
      */
     static unsigned ComputeRowBytes(unsigned width, SkMask::Format format) {
         unsigned rb = width;
         if (SkMask::kBW_Format == format) {
             rb = BitsToBytes(rb);
         } else if (SkMask::kARGB32_Format == format) {
             rb <<= 2;
         } else if (SkMask::kLCD16_Format == format) {
             rb = SkAlign4(rb << 1);
         } else {
             rb = SkAlign4(rb);
         }
         return rb;
     }

     size_t allocImage(SkArenaAlloc* alloc) {
         size_t allocSize;
         if (SkMask::kBW_Format == fMaskFormat) {
             allocSize = BitsToBytes(fWidth) * fHeight;
             fImage = alloc->makeArrayDefault<char>(allocSize);
         } else if (SkMask::kARGB32_Format == fMaskFormat) {
             allocSize = fWidth * fHeight;
             fImage = alloc->makeArrayDefault<uint32_t>(fWidth * fHeight);
             allocSize *= sizeof(uint32_t);
         } else if (SkMask::kLCD16_Format == fMaskFormat) {
             allocSize = SkAlign2(fWidth) * fHeight;
             fImage = alloc->makeArrayDefault<uint16_t>(allocSize);
             allocSize *= sizeof(uint16_t);
         } else {
             allocSize = SkAlign4(fWidth) * fHeight;
             fImage = alloc->makeArrayDefault<char>(allocSize);
         }
         return allocSize;
     }

     unsigned rowBytes() const {
         return ComputeRowBytes(fWidth, (SkMask::Format)fMaskFormat);
     }

     bool isJustAdvance() const {
         return MASK_FORMAT_JUST_ADVANCE == fMaskFormat;
     }

     bool isFullMetrics() const {
         return MASK_FORMAT_JUST_ADVANCE != fMaskFormat;
     }

     SkGlyphID getGlyphID() const {
         return fID.code();
     }

     SkPackedGlyphID getPackedID() const {
         return fID;
     }

     SkFixed getSubXFixed() const {
         return fID.getSubXFixed();
     }

     SkFixed getSubYFixed() const {
         return fID.getSubYFixed();
     }

     size_t computeImageSize() const;

     /** Call this to set all of the metrics fields to 0 (e.g. if the scaler
         encounters an error measuring a glyph). Note: this does not alter the
         fImage, fPath, fID, fMaskFormat fields.
      */
     void zeroMetrics();

     void toMask(SkMask* mask) const;

     class HashTraits {
     public:
         static SkPackedGlyphID GetKey(const SkGlyph& glyph) {
             return glyph.fID;
         }
         static uint32_t Hash(SkPackedGlyphID glyphId) {
             return glyphId.hash();
         }
     };

  private:
     // TODO(herb) remove friend statement after SkGlyphCache cleanup.
     friend class SkGlyphCache;

 // FIXME - This is needed because the Android frame work directly accesses fID.
 // Remove when fID accesses are cleaned up.
 #ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
   public:
 #endif
     SkPackedGlyphID fID;
 };
 SK_END_REQUIRE_DENSE

 #endif
	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkGlyph_DEFINED
	#define SkGlyph_DEFINED

	#include "SkArenaAlloc.h"
	#include "SkChecksum.h"
	#include "SkFixed.h"
	#include "SkMask.h"
	#include "SkTypes.h"


	class SkPath;
	class SkGlyphCache;

	// needs to be != to any valid SkMask::Format
	#define MASK_FORMAT_UNKNOWN (0xFF)
	#define MASK_FORMAT_JUST_ADVANCE MASK_FORMAT_UNKNOWN

	#define kMaxGlyphWidth (1<<13)

	/** (glyph-index or unicode-point) + subpixel-pos */
	struct SkPackedID {
	static constexpr uint32_t kImpossibleID = ~0;
	enum {
	kSubBits = 2,
	kSubMask = ((1 << kSubBits) - 1),
	kSubShift = 24, // must be large enough for glyphs and unichars
	kCodeMask = ((1 << kSubShift) - 1),
	// relative offsets for X and Y subpixel bits
	kSubShiftX = kSubBits,
	kSubShiftY = 0
	};

	SkPackedID(uint32_t code) {
	SkASSERT(code <= kCodeMask);
	SkASSERT(code != kImpossibleID);
	fID = code;
	}

	SkPackedID(uint32_t code, SkFixed x, SkFixed y) {
	SkASSERT(code <= kCodeMask);
	x = FixedToSub(x);
	y = FixedToSub(y);
	uint32_t ID = (x << (kSubShift + kSubShiftX)) \|
	(y << (kSubShift + kSubShiftY)) \|
	code;
	SkASSERT(ID != kImpossibleID);
	fID = ID;
	}

	constexpr SkPackedID() : fID(kImpossibleID) {}

	bool operator==(const SkPackedID& that) const {
	return fID == that.fID;
	}
	bool operator!=(const SkPackedID& that) const {
	return !(*this == that);
	}

	uint32_t code() const {
	return fID & kCodeMask;
	}

	SkFixed getSubXFixed() const {
	return SubToFixed(ID2SubX(fID));
	}

	SkFixed getSubYFixed() const {
	return SubToFixed(ID2SubY(fID));
	}

	uint32_t hash() const {
	return SkChecksum::CheapMix(fID);
	}

	// FIXME - This is needed because the Android framework directly accesses fID.
	// Remove when fID accesses are cleaned up.
	#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
	operator uint32_t() const { return fID; }
	#endif

	private:
	static unsigned ID2SubX(uint32_t id) {
	return id >> (kSubShift + kSubShiftX);
	}

	static unsigned ID2SubY(uint32_t id) {
	return (id >> (kSubShift + kSubShiftY)) & kSubMask;
	}

	static unsigned FixedToSub(SkFixed n) {
	return (n >> (16 - kSubBits)) & kSubMask;
	}

	static SkFixed SubToFixed(unsigned sub) {
	SkASSERT(sub <= kSubMask);
	return sub << (16 - kSubBits);
	}

	uint32_t fID;
	};

	struct SkPackedGlyphID : public SkPackedID {
	SkPackedGlyphID(SkGlyphID code) : SkPackedID(code) { }
	SkPackedGlyphID(SkGlyphID code, SkFixed x, SkFixed y) : SkPackedID(code, x, y) { }
	SkPackedGlyphID() : SkPackedID() { }
	SkGlyphID code() const {
	return SkTo<SkGlyphID>(SkPackedID::code());
	}
	};

	struct SkPackedUnicharID : public SkPackedID {
	SkPackedUnicharID(SkUnichar code) : SkPackedID(code) { }
	SkPackedUnicharID(SkUnichar code, SkFixed x, SkFixed y) : SkPackedID(code, x, y) { }
	SkPackedUnicharID() : SkPackedID() { }
	SkUnichar code() const {
	return SkTo<SkUnichar>(SkPackedID::code());
	}
	};

	SK_BEGIN_REQUIRE_DENSE
	class SkGlyph {
	// Support horizontal and vertical skipping strike-through / underlines.
	// The caller walks the linked list looking for a match. For a horizontal underline,
	// the fBounds contains the top and bottom of the underline. The fInterval pair contains the
	// beginning and end of of the intersection of the bounds and the glyph's path.
	// If interval[0] >= interval[1], no intesection was found.
	struct Intercept {
	Intercept* fNext;
	SkScalar fBounds[2]; // for horz underlines, the boundaries in Y
	SkScalar fInterval[2]; // the outside intersections of the axis and the glyph
	};

	struct PathData {
	Intercept* fIntercept;
	SkPath* fPath;
	};

	public:
	static const SkFixed kSubpixelRound = SK_FixedHalf >> SkPackedID::kSubBits;
	void* fImage;
	PathData* fPathData;
	float fAdvanceX, fAdvanceY;

	uint16_t fWidth, fHeight;
	int16_t fTop, fLeft;

	uint8_t fMaskFormat;
	int8_t fRsbDelta, fLsbDelta; // used by auto-kerning
	int8_t fForceBW;

	void initWithGlyphID(SkPackedGlyphID glyph_id) {
	fID = glyph_id;
	fImage = nullptr;
	fPathData = nullptr;
	fMaskFormat = MASK_FORMAT_UNKNOWN;
	fForceBW = 0;
	}

	static size_t BitsToBytes(size_t bits) {
	return (bits + 7) >> 3;
	}

	/**
	* Compute the rowbytes for the specified width and mask-format.
	*/
	static unsigned ComputeRowBytes(unsigned width, SkMask::Format format) {
	unsigned rb = width;
	if (SkMask::kBW_Format == format) {
	rb = BitsToBytes(rb);
	} else if (SkMask::kARGB32_Format == format) {
	rb <<= 2;
	} else if (SkMask::kLCD16_Format == format) {
	rb = SkAlign4(rb << 1);
	} else {
	rb = SkAlign4(rb);
	}
	return rb;
	}

	size_t allocImage(SkArenaAlloc* alloc) {
	size_t allocSize;
	if (SkMask::kBW_Format == fMaskFormat) {
	allocSize = BitsToBytes(fWidth) * fHeight;
	fImage = alloc->makeArrayDefault<char>(allocSize);
	} else if (SkMask::kARGB32_Format == fMaskFormat) {
	allocSize = fWidth * fHeight;
	fImage = alloc->makeArrayDefault<uint32_t>(fWidth * fHeight);
	allocSize *= sizeof(uint32_t);
	} else if (SkMask::kLCD16_Format == fMaskFormat) {
	allocSize = SkAlign2(fWidth) * fHeight;
	fImage = alloc->makeArrayDefault<uint16_t>(allocSize);
	allocSize *= sizeof(uint16_t);
	} else {
	allocSize = SkAlign4(fWidth) * fHeight;
	fImage = alloc->makeArrayDefault<char>(allocSize);
	}
	return allocSize;
	}

	unsigned rowBytes() const {
	return ComputeRowBytes(fWidth, (SkMask::Format)fMaskFormat);
	}

	bool isJustAdvance() const {
	return MASK_FORMAT_JUST_ADVANCE == fMaskFormat;
	}

	bool isFullMetrics() const {
	return MASK_FORMAT_JUST_ADVANCE != fMaskFormat;
	}

	SkGlyphID getGlyphID() const {
	return fID.code();
	}

	SkPackedGlyphID getPackedID() const {
	return fID;
	}

	SkFixed getSubXFixed() const {
	return fID.getSubXFixed();
	}

	SkFixed getSubYFixed() const {
	return fID.getSubYFixed();
	}

	size_t computeImageSize() const;

	/** Call this to set all of the metrics fields to 0 (e.g. if the scaler
	encounters an error measuring a glyph). Note: this does not alter the
	fImage, fPath, fID, fMaskFormat fields.
	*/
	void zeroMetrics();

	void toMask(SkMask* mask) const;

	class HashTraits {
	public:
	static SkPackedGlyphID GetKey(const SkGlyph& glyph) {
	return glyph.fID;
	}
	static uint32_t Hash(SkPackedGlyphID glyphId) {
	return glyphId.hash();
	}
	};

	private:
	// TODO(herb) remove friend statement after SkGlyphCache cleanup.
	friend class SkGlyphCache;

	// FIXME - This is needed because the Android frame work directly accesses fID.
	// Remove when fID accesses are cleaned up.
	#ifdef SK_BUILD_FOR_ANDROID_FRAMEWORK
	public:
	#endif
	SkPackedGlyphID fID;
	};
	SK_END_REQUIRE_DENSE

	#endif