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1 /* | 1 /* |
2 * Copyright 2016 Google Inc. | 2 * Copyright 2016 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 #include "InstanceProcessor.h" | 8 #include "InstanceProcessor.h" |
9 | 9 |
10 #include "GrContext.h" | 10 #include "GrContext.h" |
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100 | 100 |
101 class GLSLInstanceProcessor::VertexInputs { | 101 class GLSLInstanceProcessor::VertexInputs { |
102 public: | 102 public: |
103 VertexInputs(const InstanceProcessor& instProc, GrGLSLVertexBuilder* vertexB
uilder) | 103 VertexInputs(const InstanceProcessor& instProc, GrGLSLVertexBuilder* vertexB
uilder) |
104 : fInstProc(instProc), | 104 : fInstProc(instProc), |
105 fVertexBuilder(vertexBuilder) { | 105 fVertexBuilder(vertexBuilder) { |
106 } | 106 } |
107 | 107 |
108 void initParams(const SamplerHandle paramsBuffer) { | 108 void initParams(const SamplerHandle paramsBuffer) { |
109 fParamsBuffer = paramsBuffer; | 109 fParamsBuffer = paramsBuffer; |
| 110 fVertexBuilder->definef("PARAMS_IDX_MASK", "0x%xu", kParamsIdx_InfoMask)
; |
110 fVertexBuilder->appendPrecisionModifier(kHigh_GrSLPrecision); | 111 fVertexBuilder->appendPrecisionModifier(kHigh_GrSLPrecision); |
111 fVertexBuilder->codeAppendf("int paramsIdx = int(%s & 0x%x);", | 112 fVertexBuilder->codeAppendf("int paramsIdx = int(%s & PARAMS_IDX_MASK);"
, |
112 this->attr(Attrib::kInstanceInfo), | 113 this->attr(Attrib::kInstanceInfo)); |
113 kParamsIdx_InfoMask); | |
114 } | 114 } |
115 | 115 |
116 const char* attr(Attrib attr) const { return fInstProc.getAttrib((int)attr).
fName; } | 116 const char* attr(Attrib attr) const { return fInstProc.getAttrib((int)attr).
fName; } |
117 | 117 |
118 void fetchNextParam(GrSLType type = kVec4f_GrSLType) const { | 118 void fetchNextParam(GrSLType type = kVec4f_GrSLType) const { |
119 SkASSERT(fParamsBuffer.isValid()); | 119 SkASSERT(fParamsBuffer.isValid()); |
120 if (type != kVec4f_GrSLType) { | 120 if (type != kVec4f_GrSLType) { |
121 fVertexBuilder->codeAppendf("%s(", GrGLSLTypeString(type)); | 121 fVertexBuilder->codeAppendf("%s(", GrGLSLTypeString(type)); |
122 } | 122 } |
123 fVertexBuilder->appendTexelFetch(fParamsBuffer, "paramsIdx++"); | 123 fVertexBuilder->appendTexelFetch(fParamsBuffer, "paramsIdx++"); |
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217 VertexInputs inputs(ip, v); | 217 VertexInputs inputs(ip, v); |
218 if (ip.batchInfo().fHasParams) { | 218 if (ip.batchInfo().fHasParams) { |
219 SkASSERT(1 == ip.numBuffers()); | 219 SkASSERT(1 == ip.numBuffers()); |
220 inputs.initParams(args.fBufferSamplers[0]); | 220 inputs.initParams(args.fBufferSamplers[0]); |
221 } | 221 } |
222 | 222 |
223 if (!ip.batchInfo().fHasPerspective) { | 223 if (!ip.batchInfo().fHasPerspective) { |
224 v->codeAppendf("mat2x3 shapeMatrix = mat2x3(%s, %s);", | 224 v->codeAppendf("mat2x3 shapeMatrix = mat2x3(%s, %s);", |
225 inputs.attr(Attrib::kShapeMatrixX), inputs.attr(Attrib::k
ShapeMatrixY)); | 225 inputs.attr(Attrib::kShapeMatrixX), inputs.attr(Attrib::k
ShapeMatrixY)); |
226 } else { | 226 } else { |
227 v->defineConstantf("int", "PERSPECTIVE_FLAG", "0x%x", kPerspective_InfoF
lag); | 227 v->definef("PERSPECTIVE_FLAG", "0x%xu", kPerspective_InfoFlag); |
228 v->codeAppendf("mat3 shapeMatrix = mat3(%s, %s, vec3(0, 0, 1));", | 228 v->codeAppendf("mat3 shapeMatrix = mat3(%s, %s, vec3(0, 0, 1));", |
229 inputs.attr(Attrib::kShapeMatrixX), inputs.attr(Attrib::k
ShapeMatrixY)); | 229 inputs.attr(Attrib::kShapeMatrixX), inputs.attr(Attrib::k
ShapeMatrixY)); |
230 v->codeAppendf("if (0 != (%s & PERSPECTIVE_FLAG)) {", | 230 v->codeAppendf("if (0u != (%s & PERSPECTIVE_FLAG)) {", |
231 inputs.attr(Attrib::kInstanceInfo)); | 231 inputs.attr(Attrib::kInstanceInfo)); |
232 v->codeAppend ( "shapeMatrix[2] = "); | 232 v->codeAppend ( "shapeMatrix[2] = "); |
233 inputs.fetchNextParam(kVec3f_GrSLType); | 233 inputs.fetchNextParam(kVec3f_GrSLType); |
234 v->codeAppend ( ";"); | 234 v->codeAppend ( ";"); |
235 v->codeAppend ("}"); | 235 v->codeAppend ("}"); |
236 } | 236 } |
237 | 237 |
238 bool hasSingleShapeType = SkIsPow2(ip.batchInfo().fShapeTypes); | 238 bool hasSingleShapeType = SkIsPow2(ip.batchInfo().fShapeTypes); |
239 if (!hasSingleShapeType) { | 239 if (!hasSingleShapeType) { |
240 v->defineConstant("SHAPE_TYPE_BIT", kShapeType_InfoBit); | 240 v->define("SHAPE_TYPE_BIT", kShapeType_InfoBit); |
241 v->codeAppendf("uint shapeType = %s >> SHAPE_TYPE_BIT;", | 241 v->codeAppendf("uint shapeType = %s >> SHAPE_TYPE_BIT;", |
242 inputs.attr(Attrib::kInstanceInfo)); | 242 inputs.attr(Attrib::kInstanceInfo)); |
243 } | 243 } |
244 | 244 |
245 SkAutoTDelete<Backend> backend(Backend::Create(pipeline, ip.batchInfo(), inp
uts)); | 245 SkAutoTDelete<Backend> backend(Backend::Create(pipeline, ip.batchInfo(), inp
uts)); |
246 backend->init(varyingHandler, v); | 246 backend->init(varyingHandler, v); |
247 | 247 |
248 int usedShapeDefinitions = 0; | 248 int usedShapeDefinitions = 0; |
249 | 249 |
250 if (hasSingleShapeType || !(ip.batchInfo().fShapeTypes & ~kRRect_ShapesMask)
) { | 250 if (hasSingleShapeType || !(ip.batchInfo().fShapeTypes & ~kRRect_ShapesMask)
) { |
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278 if (ip.batchInfo().fShapeTypes & kRect_ShapeFlag) { | 278 if (ip.batchInfo().fShapeTypes & kRect_ShapeFlag) { |
279 v->codeAppend ("else {"); | 279 v->codeAppend ("else {"); |
280 backend->setupRect(v); | 280 backend->setupRect(v); |
281 v->codeAppend ("}"); | 281 v->codeAppend ("}"); |
282 } | 282 } |
283 } | 283 } |
284 | 284 |
285 if (ip.batchInfo().fInnerShapeTypes) { | 285 if (ip.batchInfo().fInnerShapeTypes) { |
286 bool hasSingleInnerShapeType = SkIsPow2(ip.batchInfo().fInnerShapeTypes)
; | 286 bool hasSingleInnerShapeType = SkIsPow2(ip.batchInfo().fInnerShapeTypes)
; |
287 if (!hasSingleInnerShapeType) { | 287 if (!hasSingleInnerShapeType) { |
288 v->defineConstantf("int", "INNER_SHAPE_TYPE_MASK", "0x%x", kInnerSha
peType_InfoMask); | 288 v->definef("INNER_SHAPE_TYPE_MASK", "0x%xu", kInnerShapeType_InfoMas
k); |
289 v->defineConstant("INNER_SHAPE_TYPE_BIT", kInnerShapeType_InfoBit); | 289 v->define("INNER_SHAPE_TYPE_BIT", kInnerShapeType_InfoBit); |
290 v->codeAppendf("uint innerShapeType = ((%s & INNER_SHAPE_TYPE_MASK)
>> " | 290 v->codeAppendf("uint innerShapeType = ((%s & INNER_SHAPE_TYPE_MASK)
>> " |
291 "INNER_SHAPE_TYPE_BIT);", | 291 "INNER_SHAPE_TYPE_BIT);", |
292 inputs.attr(Attrib::kInstanceInfo)); | 292 inputs.attr(Attrib::kInstanceInfo)); |
293 } | 293 } |
294 // Here we take advantage of the fact that outerRect == localRect in rec
ordDRRect. | 294 // Here we take advantage of the fact that outerRect == localRect in rec
ordDRRect. |
295 v->codeAppendf("vec4 outer = %s;", inputs.attr(Attrib::kLocalRect)); | 295 v->codeAppendf("vec4 outer = %s;", inputs.attr(Attrib::kLocalRect)); |
296 v->codeAppend ("vec4 inner = "); | 296 v->codeAppend ("vec4 inner = "); |
297 inputs.fetchNextParam(); | 297 inputs.fetchNextParam(); |
298 v->codeAppend (";"); | 298 v->codeAppend (";"); |
299 // outer2Inner is a transform from shape coords to inner shape coords: | 299 // outer2Inner is a transform from shape coords to inner shape coords: |
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339 } | 339 } |
340 if (ip.batchInfo().fInnerShapeTypes & kRect_ShapeFlag) { | 340 if (ip.batchInfo().fInnerShapeTypes & kRect_ShapeFlag) { |
341 v->codeAppend("else {"); | 341 v->codeAppend("else {"); |
342 backend->setupInnerRect(v); | 342 backend->setupInnerRect(v); |
343 v->codeAppend("}"); | 343 v->codeAppend("}"); |
344 } | 344 } |
345 } | 345 } |
346 } | 346 } |
347 | 347 |
348 if (usedShapeDefinitions & kOval_ShapeFlag) { | 348 if (usedShapeDefinitions & kOval_ShapeFlag) { |
349 v->defineConstant("OVAL_SHAPE_TYPE", (int)ShapeType::kOval); | 349 v->definef("OVAL_SHAPE_TYPE", "%du", (int)ShapeType::kOval); |
350 } | 350 } |
351 if (usedShapeDefinitions & kSimpleRRect_ShapeFlag) { | 351 if (usedShapeDefinitions & kSimpleRRect_ShapeFlag) { |
352 v->defineConstant("SIMPLE_R_RECT_SHAPE_TYPE", (int)ShapeType::kSimpleRRe
ct); | 352 v->definef("SIMPLE_R_RECT_SHAPE_TYPE", "%du", (int)ShapeType::kSimpleRRe
ct); |
353 } | 353 } |
354 if (usedShapeDefinitions & kNinePatch_ShapeFlag) { | 354 if (usedShapeDefinitions & kNinePatch_ShapeFlag) { |
355 v->defineConstant("NINE_PATCH_SHAPE_TYPE", (int)ShapeType::kNinePatch); | 355 v->definef("NINE_PATCH_SHAPE_TYPE", "%du", (int)ShapeType::kNinePatch); |
356 } | 356 } |
357 SkASSERT(!(usedShapeDefinitions & (kRect_ShapeFlag | kComplexRRect_ShapeFlag
))); | 357 SkASSERT(!(usedShapeDefinitions & (kRect_ShapeFlag | kComplexRRect_ShapeFlag
))); |
358 | 358 |
359 backend->emitCode(v, f, pipeline.ignoresCoverage() ? nullptr : args.fOutputC
overage, | 359 backend->emitCode(v, f, pipeline.ignoresCoverage() ? nullptr : args.fOutputC
overage, |
360 args.fOutputColor); | 360 args.fOutputColor); |
361 | 361 |
362 const char* localCoords = nullptr; | 362 const char* localCoords = nullptr; |
363 if (ip.batchInfo().fUsesLocalCoords) { | 363 if (ip.batchInfo().fUsesLocalCoords) { |
364 localCoords = "localCoords"; | 364 localCoords = "localCoords"; |
365 v->codeAppendf("vec2 t = 0.5 * (%s + vec2(1));", backend->outShapeCoords
()); | 365 v->codeAppendf("vec2 t = 0.5 * (%s + vec2(1));", backend->outShapeCoords
()); |
366 v->codeAppendf("vec2 localCoords = (1.0 - t) * %s.xy + t * %s.zw;", | 366 v->codeAppendf("vec2 localCoords = (1.0 - t) * %s.xy + t * %s.zw;", |
367 inputs.attr(Attrib::kLocalRect), inputs.attr(Attrib::kLoc
alRect)); | 367 inputs.attr(Attrib::kLocalRect), inputs.attr(Attrib::kLoc
alRect)); |
368 } | 368 } |
369 if (ip.batchInfo().fHasLocalMatrix && ip.batchInfo().fHasParams) { | 369 if (ip.batchInfo().fHasLocalMatrix && ip.batchInfo().fHasParams) { |
370 v->defineConstantf("int", "LOCAL_MATRIX_FLAG", "0x%x", kLocalMatrix_Info
Flag); | 370 v->definef("LOCAL_MATRIX_FLAG", "0x%xu", kLocalMatrix_InfoFlag); |
371 v->codeAppendf("if (0 != (%s & LOCAL_MATRIX_FLAG)) {", | 371 v->codeAppendf("if (0u != (%s & LOCAL_MATRIX_FLAG)) {", |
372 inputs.attr(Attrib::kInstanceInfo)); | 372 inputs.attr(Attrib::kInstanceInfo)); |
373 if (!ip.batchInfo().fUsesLocalCoords) { | 373 if (!ip.batchInfo().fUsesLocalCoords) { |
374 inputs.skipParams(2); | 374 inputs.skipParams(2); |
375 } else { | 375 } else { |
376 v->codeAppendf( "mat2x3 localMatrix;"); | 376 v->codeAppendf( "mat2x3 localMatrix;"); |
377 v->codeAppend ( "localMatrix[0] = "); | 377 v->codeAppend ( "localMatrix[0] = "); |
378 inputs.fetchNextParam(kVec3f_GrSLType); | 378 inputs.fetchNextParam(kVec3f_GrSLType); |
379 v->codeAppend ( ";"); | 379 v->codeAppend ( ";"); |
380 v->codeAppend ( "localMatrix[1] = "); | 380 v->codeAppend ( "localMatrix[1] = "); |
381 inputs.fetchNextParam(kVec3f_GrSLType); | 381 inputs.fetchNextParam(kVec3f_GrSLType); |
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1172 } else if (fBatchInfo.fShapeTypes & kOval_ShapeFlag) { | 1172 } else if (fBatchInfo.fShapeTypes & kOval_ShapeFlag) { |
1173 fArcCoords = fShapeCoords; | 1173 fArcCoords = fShapeCoords; |
1174 fArcInverseMatrix = fShapeInverseMatrix; | 1174 fArcInverseMatrix = fShapeInverseMatrix; |
1175 fFragArcHalfSpan = fFragShapeHalfSpan; | 1175 fFragArcHalfSpan = fFragShapeHalfSpan; |
1176 if (fBatchInfo.fShapeTypes & kRect_ShapeFlag) { | 1176 if (fBatchInfo.fShapeTypes & kRect_ShapeFlag) { |
1177 varyingHandler->addFlatVarying("triangleIsArc", &fTriangleIsArc, | 1177 varyingHandler->addFlatVarying("triangleIsArc", &fTriangleIsArc, |
1178 kLow_GrSLPrecision); | 1178 kLow_GrSLPrecision); |
1179 } | 1179 } |
1180 } | 1180 } |
1181 if (kRect_ShapeFlag != fBatchInfo.fShapeTypes) { | 1181 if (kRect_ShapeFlag != fBatchInfo.fShapeTypes) { |
1182 v->defineConstantf("int", "SAMPLE_MASK_ALL", "0x%x", (1 << fEffective
SampleCnt) - 1); | 1182 v->definef("SAMPLE_MASK_ALL", "0x%x", (1 << fEffectiveSampleCnt) - 1)
; |
1183 varyingHandler->addFlatVarying("earlyAccept", &fEarlyAccept, kHigh_Gr
SLPrecision); | 1183 varyingHandler->addFlatVarying("earlyAccept", &fEarlyAccept, kHigh_Gr
SLPrecision); |
1184 } | 1184 } |
1185 } | 1185 } |
1186 if (!fBatchInfo.fHasPerspective) { | 1186 if (!fBatchInfo.fHasPerspective) { |
1187 v->codeAppend("mat2 shapeInverseMatrix = inverse(mat2(shapeMatrix));"); | 1187 v->codeAppend("mat2 shapeInverseMatrix = inverse(mat2(shapeMatrix));"); |
1188 v->codeAppend("vec2 fragShapeSpan = abs(vec4(shapeInverseMatrix).xz) + " | 1188 v->codeAppend("vec2 fragShapeSpan = abs(vec4(shapeInverseMatrix).xz) + " |
1189 "abs(vec4(shapeInverseMatrix).yw);"); | 1189 "abs(vec4(shapeInverseMatrix).yw);"); |
1190 } | 1190 } |
1191 } | 1191 } |
1192 | 1192 |
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1353 v->codeAppendf("innerRadii = max(innerRadii, 2e-1 * %s);", fFragInnerSha
peHalfSpan.vsOut()); | 1353 v->codeAppendf("innerRadii = max(innerRadii, 2e-1 * %s);", fFragInnerSha
peHalfSpan.vsOut()); |
1354 } else { | 1354 } else { |
1355 v->codeAppend ("innerRadii = max(innerRadii, vec2(1e-4));"); | 1355 v->codeAppend ("innerRadii = max(innerRadii, vec2(1e-4));"); |
1356 } | 1356 } |
1357 v->codeAppendf("%s = vec4(1.0 - innerRadii, 1.0 / innerRadii);", fInnerRRect
.vsOut()); | 1357 v->codeAppendf("%s = vec4(1.0 - innerRadii, 1.0 / innerRadii);", fInnerRRect
.vsOut()); |
1358 } | 1358 } |
1359 | 1359 |
1360 void GLSLInstanceProcessor::BackendMultisample::onEmitCode(GrGLSLVertexBuilder*, | 1360 void GLSLInstanceProcessor::BackendMultisample::onEmitCode(GrGLSLVertexBuilder*, |
1361 GrGLSLPPFragmentBuild
er* f, | 1361 GrGLSLPPFragmentBuild
er* f, |
1362 const char*, const ch
ar*) { | 1362 const char*, const ch
ar*) { |
1363 f->defineConstant("SAMPLE_COUNT", fEffectiveSampleCnt); | 1363 f->define("SAMPLE_COUNT", fEffectiveSampleCnt); |
1364 if (this->isMixedSampled()) { | 1364 if (this->isMixedSampled()) { |
1365 f->defineConstantf("int", "SAMPLE_MASK_ALL", "0x%x", (1 << fEffectiveSam
pleCnt) - 1); | 1365 f->definef("SAMPLE_MASK_ALL", "0x%x", (1 << fEffectiveSampleCnt) - 1); |
1366 f->defineConstantf("int", "SAMPLE_MASK_MSB", "0x%x", 1 << (fEffectiveSam
pleCnt - 1)); | 1366 f->definef("SAMPLE_MASK_MSB", "0x%x", 1 << (fEffectiveSampleCnt - 1)); |
1367 } | 1367 } |
1368 | 1368 |
1369 if (kRect_ShapeFlag != (fBatchInfo.fShapeTypes | fBatchInfo.fInnerShapeTypes
)) { | 1369 if (kRect_ShapeFlag != (fBatchInfo.fShapeTypes | fBatchInfo.fInnerShapeTypes
)) { |
1370 GrGLSLShaderVar x("x", kVec2f_GrSLType, GrGLSLShaderVar::kNonArray, kHig
h_GrSLPrecision); | 1370 GrGLSLShaderVar x("x", kVec2f_GrSLType, GrGLSLShaderVar::kNonArray, kHig
h_GrSLPrecision); |
1371 f->emitFunction(kFloat_GrSLType, "square", 1, &x, "return dot(x, x);", &
fSquareFun); | 1371 f->emitFunction(kFloat_GrSLType, "square", 1, &x, "return dot(x, x);", &
fSquareFun); |
1372 } | 1372 } |
1373 | 1373 |
1374 EmitShapeCoords shapeCoords; | 1374 EmitShapeCoords shapeCoords; |
1375 shapeCoords.fVarying = &fShapeCoords; | 1375 shapeCoords.fVarying = &fShapeCoords; |
1376 shapeCoords.fInverseMatrix = fShapeInverseMatrix.fsIn(); | 1376 shapeCoords.fInverseMatrix = fShapeInverseMatrix.fsIn(); |
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2114 | 2114 |
2115 case kCorneredRect_FirstIndex: return "basic_round_rect"; | 2115 case kCorneredRect_FirstIndex: return "basic_round_rect"; |
2116 case kCorneredFramedRect_FirstIndex: return "coverage_round_rect"; | 2116 case kCorneredFramedRect_FirstIndex: return "coverage_round_rect"; |
2117 case kCorneredRectFanned_FirstIndex: return "mixed_samples_round_rect"; | 2117 case kCorneredRectFanned_FirstIndex: return "mixed_samples_round_rect"; |
2118 | 2118 |
2119 default: return "unknown"; | 2119 default: return "unknown"; |
2120 } | 2120 } |
2121 } | 2121 } |
2122 | 2122 |
2123 } | 2123 } |
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