src/gpu/GrUserStencilSettings.h - skia - 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 GrUserStencilSettings_DEFINED
 #define GrUserStencilSettings_DEFINED

 #include "include/gpu/GrTypes.h"

 /**
  * Gr uses the stencil buffer to implement complex clipping inside the
  * GrOpsTask class. The GrOpsTask makes a subset of the stencil buffer
  * bits available for other uses by external code (user bits). Client code can
  * modify these bits. GrOpsTask will ignore ref, mask, and writemask bits
  * provided by clients that fall outside the user range.
  *
  * When code outside the GrOpsTask class uses the stencil buffer the contract
  * is as follows:
  *
  * > Normal stencil funcs allow the client to pass / fail regardless of the
  *   reserved clip bits.
  * > Additional functions allow a test against the clip along with a limited
  *   set of tests against the user bits.
  * > Client can assume all user bits are zero initially.
  * > Client must ensure that after all its passes are finished it has only
  *   written to the color buffer in the region inside the clip. Furthermore, it
  *   must zero all user bits that were modifed (both inside and outside the
  *   clip).
  */

 enum GrStencilFlags : int {
     kDisabled_StencilFlag         = (1 << 0),
     kTestAlwaysPasses_StencilFlag = (1 << 1),
     kNoModifyStencil_StencilFlag  = (1 << 2),
     kNoWrapOps_StencilFlag        = (1 << 3),
     kSingleSided_StencilFlag      = (1 << 4),

     kLast_StencilFlag = kSingleSided_StencilFlag,
     kAll_StencilFlags = kLast_StencilFlag | (kLast_StencilFlag - 1)
 };

 template<typename TTest, typename TOp> struct GrTStencilFaceSettings {
     uint16_t   fRef;        // Reference value for stencil test and ops.
     TTest      fTest;       // Stencil test function, where fRef is on the left side.
     uint16_t   fTestMask;   // Bitwise "and" to perform on fRef and stencil values before testing.
                             // (e.g. (fRef & fTestMask) < (stencil & fTestMask))
     TOp        fPassOp;     // Op to perform when the test passes.
     TOp        fFailOp;     // Op to perform when the test fails.
     uint16_t   fWriteMask;  // Indicates which bits in the stencil buffer should be updated.
                             // (e.g. stencil = (newValue & fWriteMask) | (stencil & ~fWriteMask))
 };

 enum class GrUserStencilTest : uint16_t {
     // Tests that respect the clip bit. If a stencil clip is not in effect, the "IfInClip" is
     // ignored and these only act on user bits.
     kAlwaysIfInClip,
     kEqualIfInClip,
     kLessIfInClip,
     kLEqualIfInClip,

     // Tests that ignore the clip bit. The client is responsible to ensure no color write occurs
     // outside the clip if it is in use.
     kAlways,
     kNever,
     kGreater,
     kGEqual,
     kLess,
     kLEqual,
     kEqual,
     kNotEqual
 };
 constexpr static GrUserStencilTest kLastClippedStencilTest = GrUserStencilTest::kLEqualIfInClip;
 constexpr static int kGrUserStencilTestCount = 1 + (int)GrUserStencilTest::kNotEqual;

 enum class GrUserStencilOp : uint8_t {
     kKeep,

     // Ops that only modify user bits. These must not be paired with ops that modify the clip bit.
     kZero,
     kReplace, // Replace stencil value with fRef (only the bits enabled in fWriteMask).
     kInvert,
     kIncWrap,
     kDecWrap,
     // These two should only be used if wrap ops are not supported, or if the math is guaranteed
     // to not overflow. The user bits may or may not clamp, depending on the state of non-user bits.
     kIncMaybeClamp,
     kDecMaybeClamp,

     // Ops that only modify the clip bit. These must not be paired with ops that modify user bits.
     kZeroClipBit,
     kSetClipBit,
     kInvertClipBit,

     // Ops that modify both clip and user bits. These can only be paired with kKeep or each other.
     kSetClipAndReplaceUserBits,
     kZeroClipAndUserBits
 };
 constexpr static GrUserStencilOp kLastUserOnlyStencilOp = GrUserStencilOp::kDecMaybeClamp;
 constexpr static GrUserStencilOp kLastClipOnlyStencilOp = GrUserStencilOp::kInvertClipBit;
 constexpr static int kGrUserStencilOpCount = 1 + (int)GrUserStencilOp::kZeroClipAndUserBits;

 /**
  * This struct is a compile-time constant representation of user stencil settings. It describes in
  * abstract terms how a draw will use the stencil buffer. It gets ODR-used at runtime to define a
  * draw's stencil settings, and is later translated into concrete settings when the pipeline is
  * finalized.
  */
 struct GrUserStencilSettings {
     typedef GrTStencilFaceSettings<GrUserStencilTest, GrUserStencilOp> Face;

     template<GrUserStencilTest, GrUserStencilOp PassOp, GrUserStencilOp FailOp> struct Attrs;

     // Unfortunately, this is the only way to pass template arguments to a constructor.
     template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
              GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask> struct Init {};

     template<uint16_t CWRef,            uint16_t CCWRef,
              GrUserStencilTest CWTest,  GrUserStencilTest CCWTest,
              uint16_t CWTestMask,       uint16_t CCWTestMask,
              GrUserStencilOp CWPassOp,  GrUserStencilOp CCWPassOp,
              GrUserStencilOp CWFailOp,  GrUserStencilOp CCWFailOp,
              uint16_t CWWriteMask,      uint16_t CCWWriteMask> struct InitSeparate {};

     template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
              GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask>
     constexpr static Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask> StaticInit() {
         return Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask>();
     }

     template<uint16_t CWRef,            uint16_t CCWRef,
              GrUserStencilTest CWTest,  GrUserStencilTest CCWTest,
              uint16_t CWTestMask,       uint16_t CCWTestMask,
              GrUserStencilOp CWPassOp,  GrUserStencilOp CCWPassOp,
              GrUserStencilOp CWFailOp,  GrUserStencilOp CCWFailOp,
              uint16_t CWWriteMask,      uint16_t CCWWriteMask>
     constexpr static InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
                                   CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask,
                                   CCWWriteMask> StaticInitSeparate() {
         return InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
                             CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask, CCWWriteMask>();
     }

     // We construct with template arguments in order to enforce that the struct be compile-time
     // constant and to make use of static asserts.
     template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
              GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask,
              typename Attrs = Attrs<Test, PassOp, FailOp> >
     constexpr explicit GrUserStencilSettings(
             const Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask>&)
         : fCWFlags{(uint16_t)(Attrs::Flags(false) | kSingleSided_StencilFlag),
                       (uint16_t)(Attrs::Flags(true) | kSingleSided_StencilFlag)}
         , fCWFace{Ref, Test, Attrs::EffectiveTestMask(TestMask), PassOp, FailOp,
                  Attrs::EffectiveWriteMask(WriteMask)}
         , fCCWFlags{(uint16_t)(Attrs::Flags(false) | kSingleSided_StencilFlag),
                      (uint16_t)(Attrs::Flags(true) | kSingleSided_StencilFlag)}
         , fCCWFace{Ref, Test, Attrs::EffectiveTestMask(TestMask), PassOp, FailOp,
                 Attrs::EffectiveWriteMask(WriteMask)} {
     }

     template<uint16_t CWRef,            uint16_t CCWRef,
              GrUserStencilTest CWTest,  GrUserStencilTest CCWTest,
              uint16_t CWTestMask,       uint16_t CCWTestMask,
              GrUserStencilOp CWPassOp,  GrUserStencilOp CCWPassOp,
              GrUserStencilOp CWFailOp,  GrUserStencilOp CCWFailOp,
              uint16_t CWWriteMask,      uint16_t CCWWriteMask,
              typename CWAttrs = Attrs<CWTest, CWPassOp, CWFailOp>,
              typename CCWAttrs = Attrs<CCWTest, CCWPassOp, CCWFailOp> >
     constexpr explicit GrUserStencilSettings(
             const InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
                                CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask,
                                CCWWriteMask>&)
         : fCWFlags{CWAttrs::Flags(false), CWAttrs::Flags(true)}
         , fCWFace{CWRef, CWTest, CWAttrs::EffectiveTestMask(CWTestMask), CWPassOp, CWFailOp,
                  CWAttrs::EffectiveWriteMask(CWWriteMask)}
         , fCCWFlags{CCWAttrs::Flags(false), CCWAttrs::Flags(true)}
         , fCCWFace{CCWRef, CCWTest, CCWAttrs::EffectiveTestMask(CCWTestMask), CCWPassOp, CCWFailOp,
                 CCWAttrs::EffectiveWriteMask(CCWWriteMask)} {}

     // This struct can only be constructed with static initializers.
     GrUserStencilSettings() = delete;
     GrUserStencilSettings(const GrUserStencilSettings&) = delete;

     uint16_t flags(bool hasStencilClip) const {
         return fCWFlags[hasStencilClip] & fCCWFlags[hasStencilClip];
     }
     bool isDisabled(bool hasStencilClip) const {
         return this->flags(hasStencilClip) & kDisabled_StencilFlag;
     }
     bool testAlwaysPasses(bool hasStencilClip) const {
         return this->flags(hasStencilClip) & kTestAlwaysPasses_StencilFlag;
     }
     bool isTwoSided(bool hasStencilClip) const {
         return !(this->flags(hasStencilClip) & kSingleSided_StencilFlag);
     }
     bool usesWrapOp(bool hasStencilClip) const {
         return !(this->flags(hasStencilClip) & kNoWrapOps_StencilFlag);
     }

     const uint16_t   fCWFlags[2]; // cwFlagsForDraw = fCWFlags[hasStencilClip].
     const Face       fCWFace;
     const uint16_t   fCCWFlags[2]; // ccwFlagsForDraw = fCCWFlags[hasStencilClip].
     const Face       fCCWFace;

     static const GrUserStencilSettings& kUnused;

     bool isUnused() const { return this == &kUnused; }
 };

 template<GrUserStencilTest Test, GrUserStencilOp PassOp, GrUserStencilOp FailOp>
 struct GrUserStencilSettings::Attrs {
     // Ensure an op that only modifies user bits isn't paired with one that modifies clip bits.
     static_assert(GrUserStencilOp::kKeep == PassOp || GrUserStencilOp::kKeep == FailOp ||
                   (PassOp <= kLastUserOnlyStencilOp) == (FailOp <= kLastUserOnlyStencilOp));
     // Ensure an op that only modifies clip bits isn't paired with one that modifies clip and user.
     static_assert(GrUserStencilOp::kKeep == PassOp || GrUserStencilOp::kKeep == FailOp ||
                   (PassOp <= kLastClipOnlyStencilOp) == (FailOp <= kLastClipOnlyStencilOp));

     constexpr static bool TestAlwaysPasses(bool hasStencilClip) {
         return (!hasStencilClip && GrUserStencilTest::kAlwaysIfInClip == Test) ||
                 GrUserStencilTest::kAlways == Test;
     }
     constexpr static bool DoesNotModifyStencil(bool hasStencilClip) {
         return (GrUserStencilTest::kNever == Test || GrUserStencilOp::kKeep == PassOp) &&
                 (TestAlwaysPasses(hasStencilClip) || GrUserStencilOp::kKeep == FailOp);
     }
     constexpr static bool IsDisabled(bool hasStencilClip) {
         return TestAlwaysPasses(hasStencilClip) && DoesNotModifyStencil(hasStencilClip);
     }
     constexpr static bool UsesWrapOps() {
         return GrUserStencilOp::kIncWrap == PassOp || GrUserStencilOp::kDecWrap == PassOp ||
                GrUserStencilOp::kIncWrap == FailOp || GrUserStencilOp::kDecWrap == FailOp;
     }
     constexpr static bool TestIgnoresRef() {
         return (GrUserStencilTest::kAlwaysIfInClip == Test || GrUserStencilTest::kAlways == Test ||
                 GrUserStencilTest::kNever == Test);
     }
     constexpr static uint16_t Flags(bool hasStencilClip) {
         return (IsDisabled(hasStencilClip) ? kDisabled_StencilFlag : 0) |
                (TestAlwaysPasses(hasStencilClip) ? kTestAlwaysPasses_StencilFlag : 0) |
                (DoesNotModifyStencil(hasStencilClip) ? kNoModifyStencil_StencilFlag : 0) |
                (UsesWrapOps() ? 0 : kNoWrapOps_StencilFlag);
     }
     constexpr static uint16_t EffectiveTestMask(uint16_t testMask) {
         return TestIgnoresRef() ? 0 : testMask;
     }
     constexpr static uint16_t EffectiveWriteMask(uint16_t writeMask) {
         // We don't modify the mask differently when hasStencilClip=false because either the entire
         // face gets disabled in that case (e.g. Test=kAlwaysIfInClip, PassOp=kKeep), or else the
         // effective mask stays the same either way.
         return DoesNotModifyStencil(true) ? 0 : writeMask;
     }
 };

 #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 GrUserStencilSettings_DEFINED
	#define GrUserStencilSettings_DEFINED

	#include "include/gpu/GrTypes.h"

	/**
	* Gr uses the stencil buffer to implement complex clipping inside the
	* GrOpsTask class. The GrOpsTask makes a subset of the stencil buffer
	* bits available for other uses by external code (user bits). Client code can
	* modify these bits. GrOpsTask will ignore ref, mask, and writemask bits
	* provided by clients that fall outside the user range.
	*
	* When code outside the GrOpsTask class uses the stencil buffer the contract
	* is as follows:
	*
	* > Normal stencil funcs allow the client to pass / fail regardless of the
	* reserved clip bits.
	* > Additional functions allow a test against the clip along with a limited
	* set of tests against the user bits.
	* > Client can assume all user bits are zero initially.
	* > Client must ensure that after all its passes are finished it has only
	* written to the color buffer in the region inside the clip. Furthermore, it
	* must zero all user bits that were modifed (both inside and outside the
	* clip).
	*/

	enum GrStencilFlags : int {
	kDisabled_StencilFlag = (1 << 0),
	kTestAlwaysPasses_StencilFlag = (1 << 1),
	kNoModifyStencil_StencilFlag = (1 << 2),
	kNoWrapOps_StencilFlag = (1 << 3),
	kSingleSided_StencilFlag = (1 << 4),

	kLast_StencilFlag = kSingleSided_StencilFlag,
	kAll_StencilFlags = kLast_StencilFlag \| (kLast_StencilFlag - 1)
	};

	template<typename TTest, typename TOp> struct GrTStencilFaceSettings {
	uint16_t fRef; // Reference value for stencil test and ops.
	TTest fTest; // Stencil test function, where fRef is on the left side.
	uint16_t fTestMask; // Bitwise "and" to perform on fRef and stencil values before testing.
	// (e.g. (fRef & fTestMask) < (stencil & fTestMask))
	TOp fPassOp; // Op to perform when the test passes.
	TOp fFailOp; // Op to perform when the test fails.
	uint16_t fWriteMask; // Indicates which bits in the stencil buffer should be updated.
	// (e.g. stencil = (newValue & fWriteMask) \| (stencil & ~fWriteMask))
	};

	enum class GrUserStencilTest : uint16_t {
	// Tests that respect the clip bit. If a stencil clip is not in effect, the "IfInClip" is
	// ignored and these only act on user bits.
	kAlwaysIfInClip,
	kEqualIfInClip,
	kLessIfInClip,
	kLEqualIfInClip,

	// Tests that ignore the clip bit. The client is responsible to ensure no color write occurs
	// outside the clip if it is in use.
	kAlways,
	kNever,
	kGreater,
	kGEqual,
	kLess,
	kLEqual,
	kEqual,
	kNotEqual
	};
	constexpr static GrUserStencilTest kLastClippedStencilTest = GrUserStencilTest::kLEqualIfInClip;
	constexpr static int kGrUserStencilTestCount = 1 + (int)GrUserStencilTest::kNotEqual;

	enum class GrUserStencilOp : uint8_t {
	kKeep,

	// Ops that only modify user bits. These must not be paired with ops that modify the clip bit.
	kZero,
	kReplace, // Replace stencil value with fRef (only the bits enabled in fWriteMask).
	kInvert,
	kIncWrap,
	kDecWrap,
	// These two should only be used if wrap ops are not supported, or if the math is guaranteed
	// to not overflow. The user bits may or may not clamp, depending on the state of non-user bits.
	kIncMaybeClamp,
	kDecMaybeClamp,

	// Ops that only modify the clip bit. These must not be paired with ops that modify user bits.
	kZeroClipBit,
	kSetClipBit,
	kInvertClipBit,

	// Ops that modify both clip and user bits. These can only be paired with kKeep or each other.
	kSetClipAndReplaceUserBits,
	kZeroClipAndUserBits
	};
	constexpr static GrUserStencilOp kLastUserOnlyStencilOp = GrUserStencilOp::kDecMaybeClamp;
	constexpr static GrUserStencilOp kLastClipOnlyStencilOp = GrUserStencilOp::kInvertClipBit;
	constexpr static int kGrUserStencilOpCount = 1 + (int)GrUserStencilOp::kZeroClipAndUserBits;

	/**
	* This struct is a compile-time constant representation of user stencil settings. It describes in
	* abstract terms how a draw will use the stencil buffer. It gets ODR-used at runtime to define a
	* draw's stencil settings, and is later translated into concrete settings when the pipeline is
	* finalized.
	*/
	struct GrUserStencilSettings {
	typedef GrTStencilFaceSettings<GrUserStencilTest, GrUserStencilOp> Face;

	template<GrUserStencilTest, GrUserStencilOp PassOp, GrUserStencilOp FailOp> struct Attrs;

	// Unfortunately, this is the only way to pass template arguments to a constructor.
	template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
	GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask> struct Init {};

	template<uint16_t CWRef, uint16_t CCWRef,
	GrUserStencilTest CWTest, GrUserStencilTest CCWTest,
	uint16_t CWTestMask, uint16_t CCWTestMask,
	GrUserStencilOp CWPassOp, GrUserStencilOp CCWPassOp,
	GrUserStencilOp CWFailOp, GrUserStencilOp CCWFailOp,
	uint16_t CWWriteMask, uint16_t CCWWriteMask> struct InitSeparate {};

	template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
	GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask>
	constexpr static Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask> StaticInit() {
	return Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask>();
	}

	template<uint16_t CWRef, uint16_t CCWRef,
	GrUserStencilTest CWTest, GrUserStencilTest CCWTest,
	uint16_t CWTestMask, uint16_t CCWTestMask,
	GrUserStencilOp CWPassOp, GrUserStencilOp CCWPassOp,
	GrUserStencilOp CWFailOp, GrUserStencilOp CCWFailOp,
	uint16_t CWWriteMask, uint16_t CCWWriteMask>
	constexpr static InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
	CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask,
	CCWWriteMask> StaticInitSeparate() {
	return InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
	CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask, CCWWriteMask>();
	}

	// We construct with template arguments in order to enforce that the struct be compile-time
	// constant and to make use of static asserts.
	template<uint16_t Ref, GrUserStencilTest Test, uint16_t TestMask,
	GrUserStencilOp PassOp, GrUserStencilOp FailOp, uint16_t WriteMask,
	typename Attrs = Attrs<Test, PassOp, FailOp> >
	constexpr explicit GrUserStencilSettings(
	const Init<Ref, Test, TestMask, PassOp, FailOp, WriteMask>&)
	: fCWFlags{(uint16_t)(Attrs::Flags(false) \| kSingleSided_StencilFlag),
	(uint16_t)(Attrs::Flags(true) \| kSingleSided_StencilFlag)}
	, fCWFace{Ref, Test, Attrs::EffectiveTestMask(TestMask), PassOp, FailOp,
	Attrs::EffectiveWriteMask(WriteMask)}
	, fCCWFlags{(uint16_t)(Attrs::Flags(false) \| kSingleSided_StencilFlag),
	(uint16_t)(Attrs::Flags(true) \| kSingleSided_StencilFlag)}
	, fCCWFace{Ref, Test, Attrs::EffectiveTestMask(TestMask), PassOp, FailOp,
	Attrs::EffectiveWriteMask(WriteMask)} {
	}

	template<uint16_t CWRef, uint16_t CCWRef,
	GrUserStencilTest CWTest, GrUserStencilTest CCWTest,
	uint16_t CWTestMask, uint16_t CCWTestMask,
	GrUserStencilOp CWPassOp, GrUserStencilOp CCWPassOp,
	GrUserStencilOp CWFailOp, GrUserStencilOp CCWFailOp,
	uint16_t CWWriteMask, uint16_t CCWWriteMask,
	typename CWAttrs = Attrs<CWTest, CWPassOp, CWFailOp>,
	typename CCWAttrs = Attrs<CCWTest, CCWPassOp, CCWFailOp> >
	constexpr explicit GrUserStencilSettings(
	const InitSeparate<CWRef, CCWRef, CWTest, CCWTest, CWTestMask, CCWTestMask,
	CWPassOp, CCWPassOp, CWFailOp, CCWFailOp, CWWriteMask,
	CCWWriteMask>&)
	: fCWFlags{CWAttrs::Flags(false), CWAttrs::Flags(true)}
	, fCWFace{CWRef, CWTest, CWAttrs::EffectiveTestMask(CWTestMask), CWPassOp, CWFailOp,
	CWAttrs::EffectiveWriteMask(CWWriteMask)}
	, fCCWFlags{CCWAttrs::Flags(false), CCWAttrs::Flags(true)}
	, fCCWFace{CCWRef, CCWTest, CCWAttrs::EffectiveTestMask(CCWTestMask), CCWPassOp, CCWFailOp,
	CCWAttrs::EffectiveWriteMask(CCWWriteMask)} {}

	// This struct can only be constructed with static initializers.
	GrUserStencilSettings() = delete;
	GrUserStencilSettings(const GrUserStencilSettings&) = delete;

	uint16_t flags(bool hasStencilClip) const {
	return fCWFlags[hasStencilClip] & fCCWFlags[hasStencilClip];
	}
	bool isDisabled(bool hasStencilClip) const {
	return this->flags(hasStencilClip) & kDisabled_StencilFlag;
	}
	bool testAlwaysPasses(bool hasStencilClip) const {
	return this->flags(hasStencilClip) & kTestAlwaysPasses_StencilFlag;
	}
	bool isTwoSided(bool hasStencilClip) const {
	return !(this->flags(hasStencilClip) & kSingleSided_StencilFlag);
	}
	bool usesWrapOp(bool hasStencilClip) const {
	return !(this->flags(hasStencilClip) & kNoWrapOps_StencilFlag);
	}

	const uint16_t fCWFlags[2]; // cwFlagsForDraw = fCWFlags[hasStencilClip].
	const Face fCWFace;
	const uint16_t fCCWFlags[2]; // ccwFlagsForDraw = fCCWFlags[hasStencilClip].
	const Face fCCWFace;

	static const GrUserStencilSettings& kUnused;

	bool isUnused() const { return this == &kUnused; }
	};

	template<GrUserStencilTest Test, GrUserStencilOp PassOp, GrUserStencilOp FailOp>
	struct GrUserStencilSettings::Attrs {
	// Ensure an op that only modifies user bits isn't paired with one that modifies clip bits.
	static_assert(GrUserStencilOp::kKeep == PassOp \|\| GrUserStencilOp::kKeep == FailOp \|\|
	(PassOp <= kLastUserOnlyStencilOp) == (FailOp <= kLastUserOnlyStencilOp));
	// Ensure an op that only modifies clip bits isn't paired with one that modifies clip and user.
	static_assert(GrUserStencilOp::kKeep == PassOp \|\| GrUserStencilOp::kKeep == FailOp \|\|
	(PassOp <= kLastClipOnlyStencilOp) == (FailOp <= kLastClipOnlyStencilOp));

	constexpr static bool TestAlwaysPasses(bool hasStencilClip) {
	return (!hasStencilClip && GrUserStencilTest::kAlwaysIfInClip == Test) \|\|
	GrUserStencilTest::kAlways == Test;
	}
	constexpr static bool DoesNotModifyStencil(bool hasStencilClip) {
	return (GrUserStencilTest::kNever == Test \|\| GrUserStencilOp::kKeep == PassOp) &&
	(TestAlwaysPasses(hasStencilClip) \|\| GrUserStencilOp::kKeep == FailOp);
	}
	constexpr static bool IsDisabled(bool hasStencilClip) {
	return TestAlwaysPasses(hasStencilClip) && DoesNotModifyStencil(hasStencilClip);
	}
	constexpr static bool UsesWrapOps() {
	return GrUserStencilOp::kIncWrap == PassOp \|\| GrUserStencilOp::kDecWrap == PassOp \|\|
	GrUserStencilOp::kIncWrap == FailOp \|\| GrUserStencilOp::kDecWrap == FailOp;
	}
	constexpr static bool TestIgnoresRef() {
	return (GrUserStencilTest::kAlwaysIfInClip == Test \|\| GrUserStencilTest::kAlways == Test \|\|
	GrUserStencilTest::kNever == Test);
	}
	constexpr static uint16_t Flags(bool hasStencilClip) {
	return (IsDisabled(hasStencilClip) ? kDisabled_StencilFlag : 0) \|
	(TestAlwaysPasses(hasStencilClip) ? kTestAlwaysPasses_StencilFlag : 0) \|
	(DoesNotModifyStencil(hasStencilClip) ? kNoModifyStencil_StencilFlag : 0) \|
	(UsesWrapOps() ? 0 : kNoWrapOps_StencilFlag);
	}
	constexpr static uint16_t EffectiveTestMask(uint16_t testMask) {
	return TestIgnoresRef() ? 0 : testMask;
	}
	constexpr static uint16_t EffectiveWriteMask(uint16_t writeMask) {
	// We don't modify the mask differently when hasStencilClip=false because either the entire
	// face gets disabled in that case (e.g. Test=kAlwaysIfInClip, PassOp=kKeep), or else the
	// effective mask stays the same either way.
	return DoesNotModifyStencil(true) ? 0 : writeMask;
	}
	};

	#endif