Chromium Code Reviews Chromium Code Reviews
Issue 791743003:
Remove GP from drawstate, revision of invariant output for GP (Closed)
Base URL: https://skia.googlesource.com/skia.git@color-to-gp| OLD | NEW |
|---|---|
| 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 GrInvariantOutput_DEFINED | 8 #ifndef GrInvariantOutput_DEFINED |
| 9 #define GrInvariantOutput_DEFINED | 9 #define GrInvariantOutput_DEFINED |
| 10 | 10 |
| 11 #include "GrColor.h" | 11 #include "GrColor.h" |
| 12 | 12 |
| 13 struct GrInitInvariantOutput { | |
| 14 GrInitInvariantOutput() | |
| 15 : fValidFlags(0) | |
| 16 , fColor(0) | |
| 17 , fIsSingleComponent(false) | |
| 18 , fIsLCDCoverage(false) {} | |
| 19 | |
| 20 void setKnownFourComponents(GrColor color) { | |
| 21 fColor = color; | |
| 22 fValidFlags = kRGBA_GrColorComponentFlags; | |
| 23 fIsSingleComponent = false; | |
| 24 } | |
| 25 | |
| 26 void setUnknownFourComponents() { | |
| 27 fValidFlags = 0; | |
| 28 fIsSingleComponent = false; | |
| 29 } | |
| 30 | |
| 31 void setUnknownOpaqueFourComponents() { | |
| 32 fColor = 0xff << GrColor_SHIFT_A; | |
| 33 fValidFlags = kA_GrColorComponentFlag; | |
| 34 fIsSingleComponent = false; | |
| 35 } | |
| 36 | |
| 37 void setKnownSingleComponent(uint8_t alpha) { | |
| 38 fColor = GrColorPackRGBA(alpha, alpha, alpha, alpha); | |
| 39 fValidFlags = kA_GrColorComponentFlag; | |
|
bsalomon
2014/12/10 18:44:31
kRGBA?
| |
| 40 fIsSingleComponent = true; | |
| 41 } | |
| 42 | |
| 43 void setUnknownSingleComponent() { | |
| 44 fValidFlags = 0; | |
| 45 fIsSingleComponent = true; | |
| 46 } | |
| 47 | |
| 48 void setUsingLCDCoverage() { fIsLCDCoverage = true; } | |
| 49 | |
| 50 uint32_t fValidFlags; | |
| 51 GrColor fColor; | |
| 52 bool fIsSingleComponent; | |
| 53 bool fIsLCDCoverage; // Temorary data member until texture pixel configs are updated | |
| 54 }; | |
| 55 | |
| 13 class GrInvariantOutput { | 56 class GrInvariantOutput { |
| 14 public: | 57 public: |
| 15 GrInvariantOutput(GrColor color, GrColorComponentFlags flags, bool isSingleC omponent) | 58 GrInvariantOutput(GrColor color, GrColorComponentFlags flags, bool isSingleC omponent) |
| 16 : fColor(color) | 59 : fColor(color) |
| 17 , fValidFlags(flags) | 60 , fValidFlags(flags) |
| 18 , fIsSingleComponent(isSingleComponent) | 61 , fIsSingleComponent(isSingleComponent) |
| 19 , fNonMulStageFound(false) | 62 , fNonMulStageFound(false) |
| 20 , fWillUseInputColor(true) | 63 , fWillUseInputColor(true) |
| 21 , fIsLCDCoverage(false) {} | 64 , fIsLCDCoverage(false) {} |
| 22 | 65 |
| 66 GrInvariantOutput(const GrInitInvariantOutput& io) | |
| 67 : fColor(io.fColor) | |
| 68 , fValidFlags(io.fValidFlags) | |
| 69 , fIsSingleComponent(io.fIsSingleComponent) | |
| 70 , fNonMulStageFound(false) | |
| 71 , fWillUseInputColor(false) | |
| 72 , fIsLCDCoverage(io.fIsLCDCoverage) {} | |
| 73 | |
| 23 virtual ~GrInvariantOutput() {} | 74 virtual ~GrInvariantOutput() {} |
| 24 | 75 |
| 25 enum ReadInput { | 76 enum ReadInput { |
| 26 kWill_ReadInput, | 77 kWill_ReadInput, |
| 27 kWillNot_ReadInput, | 78 kWillNot_ReadInput, |
| 28 }; | 79 }; |
| 29 | 80 |
| 30 void mulByUnknownOpaqueColor() { | 81 void mulByUnknownOpaqueFourComponents() { |
| 31 if (this->isOpaque()) { | 82 if (this->isOpaque()) { |
| 32 fValidFlags = kA_GrColorComponentFlag; | 83 fValidFlags = kA_GrColorComponentFlag; |
| 33 fIsSingleComponent = false; | 84 fIsSingleComponent = false; |
| 34 } else { | 85 } else { |
| 35 // Since the current state is not opaque we no longer care if the co lor being | 86 // Since the current state is not opaque we no longer care if the co lor being |
| 36 // multiplied is opaque. | 87 // multiplied is opaque. |
| 37 this->mulByUnknownColor(); | 88 this->mulByUnknownFourComponents(); |
| 38 } | 89 } |
| 39 } | 90 } |
| 40 | 91 |
| 41 void mulByUnknownColor() { | 92 void mulByUnknownFourComponents() { |
| 42 if (this->hasZeroAlpha()) { | 93 if (this->hasZeroAlpha()) { |
| 43 this->internalSetToTransparentBlack(); | 94 this->internalSetToTransparentBlack(); |
| 44 } else { | 95 } else { |
| 45 this->internalSetToUnknown(); | 96 this->internalSetToUnknown(); |
| 46 } | 97 } |
| 47 } | 98 } |
| 48 | 99 |
| 49 void mulByUnknownAlpha() { | 100 void mulByUnknownSingleComponent() { |
| 50 if (this->hasZeroAlpha()) { | 101 if (this->hasZeroAlpha()) { |
| 51 this->internalSetToTransparentBlack(); | 102 this->internalSetToTransparentBlack(); |
| 52 } else { | 103 } else { |
| 53 // We don't need to change fIsSingleComponent in this case | 104 // We don't need to change fIsSingleComponent in this case |
| 54 fValidFlags = 0; | 105 fValidFlags = 0; |
| 55 } | 106 } |
| 56 } | 107 } |
| 57 | 108 |
| 58 void mulByKnownAlpha(uint8_t alpha) { | 109 void mulByKnownSingleComponent(uint8_t alpha) { |
| 59 if (this->hasZeroAlpha() || 0 == alpha) { | 110 if (this->hasZeroAlpha() || 0 == alpha) { |
| 60 this->internalSetToTransparentBlack(); | 111 this->internalSetToTransparentBlack(); |
| 61 } else { | 112 } else { |
| 62 if (alpha != 255) { | 113 if (alpha != 255) { |
| 63 // Multiply color by alpha | 114 // Multiply color by alpha |
| 64 fColor = GrColorPackRGBA(SkMulDiv255Round(GrColorUnpackR(fColor) , alpha), | 115 fColor = GrColorPackRGBA(SkMulDiv255Round(GrColorUnpackR(fColor) , alpha), |
| 65 SkMulDiv255Round(GrColorUnpackG(fColor) , alpha), | 116 SkMulDiv255Round(GrColorUnpackG(fColor) , alpha), |
| 66 SkMulDiv255Round(GrColorUnpackB(fColor) , alpha), | 117 SkMulDiv255Round(GrColorUnpackB(fColor) , alpha), |
| 67 SkMulDiv255Round(GrColorUnpackA(fColor) , alpha)); | 118 SkMulDiv255Round(GrColorUnpackA(fColor) , alpha)); |
| 68 } | 119 } |
| (...skipping 46 matching lines...) Expand 10 before | Expand all | Expand 10 after Loading... | |
| 115 friend class GrProcOptInfo; | 166 friend class GrProcOptInfo; |
| 116 | 167 |
| 117 void reset(GrColor color, GrColorComponentFlags flags, bool isSingleComponen t) { | 168 void reset(GrColor color, GrColorComponentFlags flags, bool isSingleComponen t) { |
| 118 fColor = color; | 169 fColor = color; |
| 119 fValidFlags = flags; | 170 fValidFlags = flags; |
| 120 fIsSingleComponent = isSingleComponent; | 171 fIsSingleComponent = isSingleComponent; |
| 121 fNonMulStageFound = false; | 172 fNonMulStageFound = false; |
| 122 fWillUseInputColor = true; | 173 fWillUseInputColor = true; |
| 123 } | 174 } |
| 124 | 175 |
| 176 void reset(const GrInitInvariantOutput& io) { | |
| 177 fColor = io.fColor; | |
| 178 fValidFlags = io.fValidFlags; | |
| 179 fIsSingleComponent = io.fIsSingleComponent; | |
| 180 fNonMulStageFound = false; | |
| 181 fWillUseInputColor = true; | |
| 182 fIsLCDCoverage = io.fIsLCDCoverage; | |
| 183 } | |
| 184 | |
| 125 void internalSetToTransparentBlack() { | 185 void internalSetToTransparentBlack() { |
| 126 fValidFlags = kRGBA_GrColorComponentFlags; | 186 fValidFlags = kRGBA_GrColorComponentFlags; |
| 127 fColor = 0; | 187 fColor = 0; |
| 128 fIsSingleComponent = true; | 188 fIsSingleComponent = true; |
| 129 } | 189 } |
| 130 | 190 |
| 131 void internalSetToUnknown() { | 191 void internalSetToUnknown() { |
| 132 fValidFlags = 0; | 192 fValidFlags = 0; |
| 133 fIsSingleComponent = false; | 193 fIsSingleComponent = false; |
| 134 } | 194 } |
| (...skipping 29 matching lines...) Expand all Loading... | |
| 164 uint32_t fValidFlags; | 224 uint32_t fValidFlags; |
| 165 bool fIsSingleComponent; | 225 bool fIsSingleComponent; |
| 166 bool fNonMulStageFound; | 226 bool fNonMulStageFound; |
| 167 bool fWillUseInputColor; | 227 bool fWillUseInputColor; |
| 168 bool fIsLCDCoverage; // Temorary data member until texture pixel configs are updated | 228 bool fIsLCDCoverage; // Temorary data member until texture pixel configs are updated |
| 169 | 229 |
| 170 }; | 230 }; |
| 171 | 231 |
| 172 #endif | 232 #endif |
| 173 | 233 |
| OLD | NEW |
