include/gpu/GrXferProcessor.h - Issue 1037123003: Implement support for KHR_blend_equation_advanced

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Issue 1037123003: Implement support for KHR_blend_equation_advanced (Closed) Base URL: https://skia.googlesource.com/skia.git@upload_zzz2_barriers

Patch Set: Properly track the previous patch Created 5 years, 8 months ago

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1 /*	1 /*

2 * Copyright 2014 Google Inc.	2 * Copyright 2014 Google Inc.

3 *	3 *

4 * Use of this source code is governed by a BSD-style license that can be	4 * Use of this source code is governed by a BSD-style license that can be

5 * found in the LICENSE file.	5 * found in the LICENSE file.

6 */	6 */

7	7

8 #ifndef GrXferProcessor_DEFINED	8 #ifndef GrXferProcessor_DEFINED

9 #define GrXferProcessor_DEFINED	9 #define GrXferProcessor_DEFINED

10	10

11 #include "GrColor.h"	11 #include "GrColor.h"

12 #include "GrProcessor.h"	12 #include "GrProcessor.h"

13 #include "GrTexture.h"	13 #include "GrTexture.h"

14 #include "GrTypes.h"	14 #include "GrTypes.h"

15 #include "SkXfermode.h"	15 #include "SkXfermode.h"

16	16

17 class GrDrawTargetCaps;	17 class GrDrawTargetCaps;

18 class GrGLCaps;	18 class GrGLCaps;

19 class GrGLXferProcessor;	19 class GrGLXferProcessor;

20 class GrProcOptInfo;	20 class GrProcOptInfo;

21	21

22 /**	22 /**

	23 * Equations for alpha-blending.

	24 */

	25 enum GrBlendEquation {

	26 kInvalid_GrBlendEquation = -1,

	27

	28 // Basic blend equations.

	29 kAdd_GrBlendEquation, //<! CsS + CdD

	30 kSubtract_GrBlendEquation, //<! CsS - CdD

	31 kReverseSubtract_GrBlendEquation, //<! CdD - CsS

	32

	33 kLastBasicGrBlendEquation = kReverseSubtract_GrBlendEquation,

	34

	35 // Advanced blend equations. These are described in the SVG and PDF specs.

	36 kScreen_GrBlendEquation,

	37 kOverlay_GrBlendEquation,

	38 kDarken_GrBlendEquation,

	39 kLighten_GrBlendEquation,

	40 kColorDodge_GrBlendEquation,

	41 kColorBurn_GrBlendEquation,

	42 kHardLight_GrBlendEquation,

	43 kSoftLight_GrBlendEquation,

	44 kDifference_GrBlendEquation,

	45 kExclusion_GrBlendEquation,

	46 kMultiply_GrBlendEquation,

	47 kHSLHue_GrBlendEquation,

	48 kHSLSaturation_GrBlendEquation,

	49 kHSLColor_GrBlendEquation,

	50 kHSLLuminosity_GrBlendEquation,

	51

	52 kTotalGrBlendEquationCount

	53 };

	54

	55 bool constexpr GrBlendEquationIsAdvanced(GrBlendEquation equation) {

	56 return equation > kLastBasicGrBlendEquation;

	57 }

	58

	59 /**

23 * Coeffecients for alpha-blending.	60 * Coeffecients for alpha-blending.

24 */	61 */

25 enum GrBlendCoeff {	62 enum GrBlendCoeff {

26 kInvalid_GrBlendCoeff = -1,	63 kInvalid_GrBlendCoeff = -1,

27	64

28 kZero_GrBlendCoeff, //<! 0	65 kZero_GrBlendCoeff, //<! 0

29 kOne_GrBlendCoeff, //<! 1	66 kOne_GrBlendCoeff, //<! 1

30 kSC_GrBlendCoeff, //<! src color	67 kSC_GrBlendCoeff, //<! src color

31 kISC_GrBlendCoeff, //<! one minus src color	68 kISC_GrBlendCoeff, //<! one minus src color

32 kDC_GrBlendCoeff, //<! dst color	69 kDC_GrBlendCoeff, //<! dst color

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46	83

47 kTotalGrBlendCoeffCount	84 kTotalGrBlendCoeffCount

48 };	85 };

49	86

50 /**	87 /**

51 * Barriers for blending. When a shader reads the dst directly, an Xfer barrier is sometimes	88 * Barriers for blending. When a shader reads the dst directly, an Xfer barrier is sometimes

52 * required after a pixel has been written, before it can be safely read again.	89 * required after a pixel has been written, before it can be safely read again.

53 */	90 */

54 enum GrXferBarrierType {	91 enum GrXferBarrierType {

55 kTexture_GrXferBarrierType, //<! Required when a shader reads and renders to the same texture.	92 kTexture_GrXferBarrierType, //<! Required when a shader reads and renders to the same texture.

	93 kBlend_GrXferBarrierType, //<! Required by certain blend extensions.

56 };	94 };

57	95

58 /**	96 /**

59 * GrXferProcessor is responsible for implementing the xfer mode that blends the src color and dst	97 * GrXferProcessor is responsible for implementing the xfer mode that blends the src color and dst

60 * color. It does this by emitting fragment shader code and controlling the fixe d-function blend	98 * color. It does this by emitting fragment shader code and controlling the fixe d-function blend

61 * state. The inputs to its shader code are the final computed src color and fra ctional pixel	99 * state. The inputs to its shader code are the final computed src color and fra ctional pixel

62 * coverage. The GrXferProcessor's shader code writes the fragment shader output color that goes	100 * coverage. The GrXferProcessor's shader code writes the fragment shader output color that goes

63 * into the fixed-function blend. When dual-source blending is available, it may also write a	101 * into the fixed-function blend. When dual-source blending is available, it may also write a

64 * seconday fragment shader output color. When allowed by the backend API, the G rXferProcessor may	102 * seconday fragment shader output color. When allowed by the backend API, the G rXferProcessor may

65 * read the destination color. The GrXferProcessor is responsible for setting th e blend coefficients	103 * read the destination color. The GrXferProcessor is responsible for setting th e blend coefficients

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134	172

135 /**	173 /**

136 * Returns whether this XP will require an Xfer barrier on the given rt. If true, outBarrierType	174 * Returns whether this XP will require an Xfer barrier on the given rt. If true, outBarrierType

137 * is updated to contain the type of barrier needed.	175 * is updated to contain the type of barrier needed.

138 */	176 */

139 virtual bool willNeedXferBarrier(const GrRenderTarget* rt,	177 virtual bool willNeedXferBarrier(const GrRenderTarget* rt,

140 const GrDrawTargetCaps& caps,	178 const GrDrawTargetCaps& caps,

141 GrXferBarrierType* outBarrierType) const;	179 GrXferBarrierType* outBarrierType) const;

142	180

143 struct BlendInfo {	181 struct BlendInfo {

144 GrBlendCoeff fSrcBlend;	182 GrBlendEquation fEquation;

145 GrBlendCoeff fDstBlend;	183 GrBlendCoeff fSrcBlend;

146 GrColor fBlendConstant;	184 GrBlendCoeff fDstBlend;

147 bool fWriteColor;	185 GrColor fBlendConstant;

	186 bool fWriteColor;

148 };	187 };

149	188

150 void getBlendInfo(BlendInfo* blendInfo) const {	189 void getBlendInfo(BlendInfo* blendInfo) const {

	190 blendInfo->fEquation = kAdd_GrBlendEquation;

151 blendInfo->fSrcBlend = kOne_GrBlendCoeff;	191 blendInfo->fSrcBlend = kOne_GrBlendCoeff;

152 blendInfo->fDstBlend = kZero_GrBlendCoeff;	192 blendInfo->fDstBlend = kZero_GrBlendCoeff;

153 blendInfo->fBlendConstant = 0;	193 blendInfo->fBlendConstant = 0;

154 blendInfo->fWriteColor = true;	194 blendInfo->fWriteColor = true;

155 this->onGetBlendInfo(blendInfo);	195 this->onGetBlendInfo(blendInfo);

156 }	196 }

157	197

158 bool willReadDstColor() const { return fWillReadDstColor; }	198 bool willReadDstColor() const { return fWillReadDstColor; }

159	199

160 /**	200 /**

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337 enum {	377 enum {

338 kIllegalXPFClassID = 0,	378 kIllegalXPFClassID = 0,

339 };	379 };

340 static int32_t gCurrXPFClassID;	380 static int32_t gCurrXPFClassID;

341	381

342 typedef GrProgramElement INHERITED;	382 typedef GrProgramElement INHERITED;

343 };	383 };

344	384

345 #endif	385 #endif

346	386

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