src/third_party/skia/src/gpu/GrStencilSettings.h - cobalt - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef GrStencilSettings_DEFINED
 #define GrStencilSettings_DEFINED

 #include "GrUserStencilSettings.h"
 #include "SkRegion.h"

 class GrProcessorKeyBuilder;

 enum class GrStencilTest : uint16_t {
     kAlways,
     kNever,
     kGreater,
     kGEqual,
     kLess,
     kLEqual,
     kEqual,
     kNotEqual
 };
 static constexpr int kGrStencilTestCount = 1 + (int)GrStencilTest::kNotEqual;

 enum class GrStencilOp : uint8_t {
     kKeep,
     kZero,
     kReplace, // Replace stencil value with fRef (only the bits enabled in fWriteMask).
     kInvert,
     kIncWrap,
     kDecWrap,
     // NOTE: clamping occurs before the write mask. So if the MSB is zero and masked out, stencil
     // values will still wrap when using clamping ops.
     kIncClamp,
     kDecClamp
 };
 static constexpr int kGrStencilOpCount = 1 + (int)GrStencilOp::kDecClamp;

 /**
  * This class defines concrete stencil settings that map directly to the underlying hardware. It
  * is deduced from user stencil settings, stencil clip status, and the number of bits in the
  * target stencil buffer.
  */
 class GrStencilSettings {
 public:
     GrStencilSettings() { this->setDisabled(); }
     GrStencilSettings(const GrUserStencilSettings& user, bool hasStencilClip, int numStencilBits) {
         this->reset(user, hasStencilClip, numStencilBits);
     }
     GrStencilSettings(const GrStencilSettings& that) { this->reset(that); }
     GrStencilSettings& operator=(const GrStencilSettings& that) { this->reset(that); return *this; }

     void invalidate() { fFlags |= kInvalid_PrivateFlag; }
     void setDisabled() { fFlags = kAll_StencilFlags; }
     void reset(const GrUserStencilSettings&, bool hasStencilClip, int numStencilBits);
     void reset(const GrStencilSettings&);

     bool isValid() const { return !(fFlags & kInvalid_PrivateFlag); }
     bool isDisabled() const { SkASSERT(this->isValid()); return fFlags & kDisabled_StencilFlag; }
     bool doesWrite() const { SkASSERT(this->isValid());
                              return !(fFlags & kNoModifyStencil_StencilFlag); }
     bool isTwoSided() const { SkASSERT(this->isValid());
                               return !(fFlags & kSingleSided_StencilFlag); }
     bool usesWrapOp() const { SkASSERT(this->isValid());
                               return !(fFlags & kNoWrapOps_StencilFlag); }

     void genKey(GrProcessorKeyBuilder* b) const;

     bool operator!=(const GrStencilSettings& that) const { return !(*this == that); }
     bool operator==(const GrStencilSettings&) const;

     struct Face : public GrTStencilFaceSettings<GrStencilTest, GrStencilOp> {
         void reset(const GrUserStencilSettings::Face&, bool useStencilClip, int numStencilBits);
         void setDisabled();
     };

     const Face& front() const { SkASSERT(!this->isDisabled()); return fFront; }
     const Face& back() const { SkASSERT(this->isTwoSided()); return fBack; }

     /**
      * Given a thing to draw into the stencil clip, a fill type, and a set op
      * this function determines:
      *      1. Whether the thing can be draw directly to the stencil clip or
      *      needs to be drawn to the client portion of the stencil first.
      *      2. How many passes are needed.
      *      3. What those passes are.
      *
      * @param op                the set op to combine this element with the existing clip
      * @param canBeDirect       can the caller draw this element directly (without using stencil)?
      * @param invertedFill      is this path inverted
      * @param drawDirectToClip  out: true if caller should draw the element directly, false if it
      *                          should draw it into the user stencil bits first.
      *
      * @return a null-terminated array of settings for stencil passes.
      *
      *         If drawDirectToClip is false, the caller must first draw the element into the user
      *         stencil bits, and then cover the clip area with multiple passes using the returned
      *         stencil settings.
      *
      *         If drawDirectToClip is true, the returned array will only have one pass and the
      *         caller should use those stencil settings while drawing the element directly.
      */
     static GrUserStencilSettings const* const* GetClipPasses(SkRegion::Op op,
                                                              bool canBeDirect,
                                                              bool invertedFill,
                                                              bool* drawDirectToClip);

     /** Gets the user stencil settings to directly set the clip bit. */
     static const GrUserStencilSettings* SetClipBitSettings(bool setToInside);

 private:
     // Internal flag for backends to optionally mark their tracked stencil state as invalid.
     enum { kInvalid_PrivateFlag = (kLast_StencilFlag << 1) };

     uint32_t   fFlags;
     Face       fFront;
     Face       fBack;
 };

 #endif
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef GrStencilSettings_DEFINED
	#define GrStencilSettings_DEFINED

	#include "GrUserStencilSettings.h"
	#include "SkRegion.h"

	class GrProcessorKeyBuilder;

	enum class GrStencilTest : uint16_t {
	kAlways,
	kNever,
	kGreater,
	kGEqual,
	kLess,
	kLEqual,
	kEqual,
	kNotEqual
	};
	static constexpr int kGrStencilTestCount = 1 + (int)GrStencilTest::kNotEqual;

	enum class GrStencilOp : uint8_t {
	kKeep,
	kZero,
	kReplace, // Replace stencil value with fRef (only the bits enabled in fWriteMask).
	kInvert,
	kIncWrap,
	kDecWrap,
	// NOTE: clamping occurs before the write mask. So if the MSB is zero and masked out, stencil
	// values will still wrap when using clamping ops.
	kIncClamp,
	kDecClamp
	};
	static constexpr int kGrStencilOpCount = 1 + (int)GrStencilOp::kDecClamp;

	/**
	* This class defines concrete stencil settings that map directly to the underlying hardware. It
	* is deduced from user stencil settings, stencil clip status, and the number of bits in the
	* target stencil buffer.
	*/
	class GrStencilSettings {
	public:
	GrStencilSettings() { this->setDisabled(); }
	GrStencilSettings(const GrUserStencilSettings& user, bool hasStencilClip, int numStencilBits) {
	this->reset(user, hasStencilClip, numStencilBits);
	}
	GrStencilSettings(const GrStencilSettings& that) { this->reset(that); }
	GrStencilSettings& operator=(const GrStencilSettings& that) { this->reset(that); return *this; }

	void invalidate() { fFlags \|= kInvalid_PrivateFlag; }
	void setDisabled() { fFlags = kAll_StencilFlags; }
	void reset(const GrUserStencilSettings&, bool hasStencilClip, int numStencilBits);
	void reset(const GrStencilSettings&);

	bool isValid() const { return !(fFlags & kInvalid_PrivateFlag); }
	bool isDisabled() const { SkASSERT(this->isValid()); return fFlags & kDisabled_StencilFlag; }
	bool doesWrite() const { SkASSERT(this->isValid());
	return !(fFlags & kNoModifyStencil_StencilFlag); }
	bool isTwoSided() const { SkASSERT(this->isValid());
	return !(fFlags & kSingleSided_StencilFlag); }
	bool usesWrapOp() const { SkASSERT(this->isValid());
	return !(fFlags & kNoWrapOps_StencilFlag); }

	void genKey(GrProcessorKeyBuilder* b) const;

	bool operator!=(const GrStencilSettings& that) const { return !(*this == that); }
	bool operator==(const GrStencilSettings&) const;

	struct Face : public GrTStencilFaceSettings<GrStencilTest, GrStencilOp> {
	void reset(const GrUserStencilSettings::Face&, bool useStencilClip, int numStencilBits);
	void setDisabled();
	};

	const Face& front() const { SkASSERT(!this->isDisabled()); return fFront; }
	const Face& back() const { SkASSERT(this->isTwoSided()); return fBack; }

	/**
	* Given a thing to draw into the stencil clip, a fill type, and a set op
	* this function determines:
	* 1. Whether the thing can be draw directly to the stencil clip or
	* needs to be drawn to the client portion of the stencil first.
	* 2. How many passes are needed.
	* 3. What those passes are.
	*
	* @param op the set op to combine this element with the existing clip
	* @param canBeDirect can the caller draw this element directly (without using stencil)?
	* @param invertedFill is this path inverted
	* @param drawDirectToClip out: true if caller should draw the element directly, false if it
	* should draw it into the user stencil bits first.
	*
	* @return a null-terminated array of settings for stencil passes.
	*
	* If drawDirectToClip is false, the caller must first draw the element into the user
	* stencil bits, and then cover the clip area with multiple passes using the returned
	* stencil settings.
	*
	* If drawDirectToClip is true, the returned array will only have one pass and the
	* caller should use those stencil settings while drawing the element directly.
	*/
	static GrUserStencilSettings const* const* GetClipPasses(SkRegion::Op op,
	bool canBeDirect,
	bool invertedFill,
	bool* drawDirectToClip);

	/** Gets the user stencil settings to directly set the clip bit. */
	static const GrUserStencilSettings* SetClipBitSettings(bool setToInside);

	private:
	// Internal flag for backends to optionally mark their tracked stencil state as invalid.
	enum { kInvalid_PrivateFlag = (kLast_StencilFlag << 1) };

	uint32_t fFlags;
	Face fFront;
	Face fBack;
	};

	#endif