MLIR 22.0.0git
GPUToSPIRV.cpp
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1//===- GPUToSPIRV.cpp - GPU to SPIR-V Patterns ----------------------------===//
2//
3// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4// See https://llvm.org/LICENSE.txt for license information.
5// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6//
7//===----------------------------------------------------------------------===//
8//
9// This file implements patterns to convert GPU dialect to SPIR-V dialect.
10//
11//===----------------------------------------------------------------------===//
12
13#include "mlir/Conversion/GPUToSPIRV/GPUToSPIRV.h"
14#include "mlir/Dialect/GPU/IR/GPUDialect.h"
15#include "mlir/Dialect/SPIRV/IR/SPIRVAttributes.h"
16#include "mlir/Dialect/SPIRV/IR/SPIRVEnums.h"
17#include "mlir/Dialect/SPIRV/IR/SPIRVOps.h"
18#include "mlir/Dialect/SPIRV/IR/SPIRVTypes.h"
19#include "mlir/Dialect/SPIRV/IR/TargetAndABI.h"
20#include "mlir/Dialect/SPIRV/Transforms/SPIRVConversion.h"
21#include "mlir/IR/Matchers.h"
22#include "mlir/Transforms/DialectConversion.h"
23#include <optional>
24
25using namespace mlir;
26
27static constexpr const char kSPIRVModule[] = "__spv__";
28
29namespace {
30/// Pattern lowering GPU block/thread size/id to loading SPIR-V invocation
31/// builtin variables.
32template <typename SourceOp, spirv::BuiltIn builtin>
33class LaunchConfigConversion : public OpConversionPattern<SourceOp> {
34public:
35 using OpConversionPattern<SourceOp>::OpConversionPattern;
36
37 LogicalResult
38 matchAndRewrite(SourceOp op, typename SourceOp::Adaptor adaptor,
39 ConversionPatternRewriter &rewriter) const override;
40};
41
42/// Pattern lowering subgroup size/id to loading SPIR-V invocation
43/// builtin variables.
44template <typename SourceOp, spirv::BuiltIn builtin>
45class SingleDimLaunchConfigConversion : public OpConversionPattern<SourceOp> {
46public:
47 using OpConversionPattern<SourceOp>::OpConversionPattern;
48
49 LogicalResult
50 matchAndRewrite(SourceOp op, typename SourceOp::Adaptor adaptor,
51 ConversionPatternRewriter &rewriter) const override;
52};
53
54/// This is separate because in Vulkan workgroup size is exposed to shaders via
55/// a constant with WorkgroupSize decoration. So here we cannot generate a
56/// builtin variable; instead the information in the `spirv.entry_point_abi`
57/// attribute on the surrounding FuncOp is used to replace the gpu::BlockDimOp.
58class WorkGroupSizeConversion : public OpConversionPattern<gpu::BlockDimOp> {
59public:
60 WorkGroupSizeConversion(const TypeConverter &typeConverter,
61 MLIRContext *context)
62 : OpConversionPattern(typeConverter, context, /*benefit*/ 10) {}
63
64 LogicalResult
65 matchAndRewrite(gpu::BlockDimOp op, OpAdaptor adaptor,
66 ConversionPatternRewriter &rewriter) const override;
67};
68
69/// Pattern to convert a kernel function in GPU dialect within a spirv.module.
70class GPUFuncOpConversion final : public OpConversionPattern<gpu::GPUFuncOp> {
71public:
72 using Base::Base;
73
74 LogicalResult
75 matchAndRewrite(gpu::GPUFuncOp funcOp, OpAdaptor adaptor,
76 ConversionPatternRewriter &rewriter) const override;
77
78private:
79 SmallVector<int32_t, 3> workGroupSizeAsInt32;
80};
81
82/// Pattern to convert a gpu.module to a spirv.module.
83class GPUModuleConversion final : public OpConversionPattern<gpu::GPUModuleOp> {
84public:
85 using Base::Base;
86
87 LogicalResult
88 matchAndRewrite(gpu::GPUModuleOp moduleOp, OpAdaptor adaptor,
89 ConversionPatternRewriter &rewriter) const override;
90};
91
92/// Pattern to convert a gpu.return into a SPIR-V return.
93// TODO: This can go to DRR when GPU return has operands.
94class GPUReturnOpConversion final : public OpConversionPattern<gpu::ReturnOp> {
95public:
96 using Base::Base;
97
98 LogicalResult
99 matchAndRewrite(gpu::ReturnOp returnOp, OpAdaptor adaptor,
100 ConversionPatternRewriter &rewriter) const override;
101};
102
103/// Pattern to convert a gpu.barrier op into a spirv.ControlBarrier op.
104class GPUBarrierConversion final : public OpConversionPattern<gpu::BarrierOp> {
105public:
106 using Base::Base;
107
108 LogicalResult
109 matchAndRewrite(gpu::BarrierOp barrierOp, OpAdaptor adaptor,
110 ConversionPatternRewriter &rewriter) const override;
111};
112
113/// Pattern to convert a gpu.shuffle op into a spirv.GroupNonUniformShuffle op.
114class GPUShuffleConversion final : public OpConversionPattern<gpu::ShuffleOp> {
115public:
116 using Base::Base;
117
118 LogicalResult
119 matchAndRewrite(gpu::ShuffleOp shuffleOp, OpAdaptor adaptor,
120 ConversionPatternRewriter &rewriter) const override;
121};
122
123/// Pattern to convert a gpu.rotate op into a spirv.GroupNonUniformRotateKHROp.
124class GPURotateConversion final : public OpConversionPattern<gpu::RotateOp> {
125public:
126 using Base::Base;
127
128 LogicalResult
129 matchAndRewrite(gpu::RotateOp rotateOp, OpAdaptor adaptor,
130 ConversionPatternRewriter &rewriter) const override;
131};
132
133class GPUPrintfConversion final : public OpConversionPattern<gpu::PrintfOp> {
134public:
135 using Base::Base;
136
137 LogicalResult
138 matchAndRewrite(gpu::PrintfOp gpuPrintfOp, OpAdaptor adaptor,
139 ConversionPatternRewriter &rewriter) const override;
140};
141
142} // namespace
143
144//===----------------------------------------------------------------------===//
145// Builtins.
146//===----------------------------------------------------------------------===//
147
148template <typename SourceOp, spirv::BuiltIn builtin>
149LogicalResult LaunchConfigConversion<SourceOp, builtin>::matchAndRewrite(
150 SourceOp op, typename SourceOp::Adaptor adaptor,
151 ConversionPatternRewriter &rewriter) const {
152 auto *typeConverter = this->template getTypeConverter<SPIRVTypeConverter>();
153 Type indexType = typeConverter->getIndexType();
154
155 // For Vulkan, these SPIR-V builtin variables are required to be a vector of
156 // type <3xi32> by the spec:
157 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/NumWorkgroups.html
158 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/WorkgroupId.html
159 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/WorkgroupSize.html
160 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/LocalInvocationId.html
161 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/LocalInvocationId.html
162 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/GlobalInvocationId.html
163 //
164 // For OpenCL, it depends on the Physical32/Physical64 addressing model:
165 // https://registry.khronos.org/OpenCL/specs/3.0-unified/html/OpenCL_Env.html#_built_in_variables
166 bool forShader =
167 typeConverter->getTargetEnv().allows(spirv::Capability::Shader);
168 Type builtinType = forShader ? rewriter.getIntegerType(32) : indexType;
169
170 Value vector =
171 spirv::getBuiltinVariableValue(op, builtin, builtinType, rewriter);
172 Value dim = spirv::CompositeExtractOp::create(
173 rewriter, op.getLoc(), builtinType, vector,
174 rewriter.getI32ArrayAttr({static_cast<int32_t>(op.getDimension())}));
175 if (forShader && builtinType != indexType)
176 dim = spirv::UConvertOp::create(rewriter, op.getLoc(), indexType, dim);
177 rewriter.replaceOp(op, dim);
178 return success();
179}
180
181template <typename SourceOp, spirv::BuiltIn builtin>
182LogicalResult
183SingleDimLaunchConfigConversion<SourceOp, builtin>::matchAndRewrite(
184 SourceOp op, typename SourceOp::Adaptor adaptor,
185 ConversionPatternRewriter &rewriter) const {
186 auto *typeConverter = this->template getTypeConverter<SPIRVTypeConverter>();
187 Type indexType = typeConverter->getIndexType();
188 Type i32Type = rewriter.getIntegerType(32);
189
190 // For Vulkan, these SPIR-V builtin variables are required to be a vector of
191 // type i32 by the spec:
192 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/NumSubgroups.html
193 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/SubgroupId.html
194 // https://registry.khronos.org/vulkan/specs/1.3-extensions/man/html/SubgroupSize.html
195 //
196 // For OpenCL, they are also required to be i32:
197 // https://registry.khronos.org/OpenCL/specs/3.0-unified/html/OpenCL_Env.html#_built_in_variables
198 Value builtinValue =
199 spirv::getBuiltinVariableValue(op, builtin, i32Type, rewriter);
200 if (i32Type != indexType)
201 builtinValue = spirv::UConvertOp::create(rewriter, op.getLoc(), indexType,
202 builtinValue);
203 rewriter.replaceOp(op, builtinValue);
204 return success();
205}
206
207LogicalResult WorkGroupSizeConversion::matchAndRewrite(
208 gpu::BlockDimOp op, OpAdaptor adaptor,
209 ConversionPatternRewriter &rewriter) const {
210 DenseI32ArrayAttr workGroupSizeAttr = spirv::lookupLocalWorkGroupSize(op);
211 if (!workGroupSizeAttr)
212 return failure();
213
214 int val =
215 workGroupSizeAttr.asArrayRef()[static_cast<int32_t>(op.getDimension())];
216 auto convertedType =
217 getTypeConverter()->convertType(op.getResult().getType());
218 if (!convertedType)
219 return failure();
220 rewriter.replaceOpWithNewOp<spirv::ConstantOp>(
221 op, convertedType, IntegerAttr::get(convertedType, val));
222 return success();
223}
224
225//===----------------------------------------------------------------------===//
226// GPUFuncOp
227//===----------------------------------------------------------------------===//
228
229// Legalizes a GPU function as an entry SPIR-V function.
230static spirv::FuncOp
231lowerAsEntryFunction(gpu::GPUFuncOp funcOp, const TypeConverter &typeConverter,
232 ConversionPatternRewriter &rewriter,
233 spirv::EntryPointABIAttr entryPointInfo,
234 ArrayRef<spirv::InterfaceVarABIAttr> argABIInfo) {
235 auto fnType = funcOp.getFunctionType();
236 if (fnType.getNumResults()) {
237 funcOp.emitError("SPIR-V lowering only supports entry functions"
238 "with no return values right now");
239 return nullptr;
240 }
241 if (!argABIInfo.empty() && fnType.getNumInputs() != argABIInfo.size()) {
242 funcOp.emitError(
243 "lowering as entry functions requires ABI info for all arguments "
244 "or none of them");
245 return nullptr;
246 }
247 // Update the signature to valid SPIR-V types and add the ABI
248 // attributes. These will be "materialized" by using the
249 // LowerABIAttributesPass.
250 TypeConverter::SignatureConversion signatureConverter(fnType.getNumInputs());
251 {
252 for (const auto &argType :
253 enumerate(funcOp.getFunctionType().getInputs())) {
254 auto convertedType = typeConverter.convertType(argType.value());
255 if (!convertedType)
256 return nullptr;
257 signatureConverter.addInputs(argType.index(), convertedType);
258 }
259 }
260 auto newFuncOp = spirv::FuncOp::create(
261 rewriter, funcOp.getLoc(), funcOp.getName(),
262 rewriter.getFunctionType(signatureConverter.getConvertedTypes(), {}));
263 for (const auto &namedAttr : funcOp->getAttrs()) {
264 if (namedAttr.getName() == funcOp.getFunctionTypeAttrName() ||
265 namedAttr.getName() == SymbolTable::getSymbolAttrName())
266 continue;
267 newFuncOp->setAttr(namedAttr.getName(), namedAttr.getValue());
268 }
269
270 rewriter.inlineRegionBefore(funcOp.getBody(), newFuncOp.getBody(),
271 newFuncOp.end());
272 if (failed(rewriter.convertRegionTypes(&newFuncOp.getBody(), typeConverter,
273 &signatureConverter)))
274 return nullptr;
275 rewriter.eraseOp(funcOp);
276
277 // Set the attributes for argument and the function.
278 StringRef argABIAttrName = spirv::getInterfaceVarABIAttrName();
279 for (auto argIndex : llvm::seq<unsigned>(0, argABIInfo.size())) {
280 newFuncOp.setArgAttr(argIndex, argABIAttrName, argABIInfo[argIndex]);
281 }
282 newFuncOp->setAttr(spirv::getEntryPointABIAttrName(), entryPointInfo);
283
284 return newFuncOp;
285}
286
287/// Populates `argABI` with spirv.interface_var_abi attributes for lowering
288/// gpu.func to spirv.func if no arguments have the attributes set
289/// already. Returns failure if any argument has the ABI attribute set already.
290static LogicalResult
291getDefaultABIAttrs(const spirv::TargetEnv &targetEnv, gpu::GPUFuncOp funcOp,
292 SmallVectorImpl<spirv::InterfaceVarABIAttr> &argABI) {
293 if (!spirv::needsInterfaceVarABIAttrs(targetEnv))
294 return success();
295
296 for (auto argIndex : llvm::seq<unsigned>(0, funcOp.getNumArguments())) {
297 if (funcOp.getArgAttrOfType<spirv::InterfaceVarABIAttr>(
298 argIndex, spirv::getInterfaceVarABIAttrName()))
299 return failure();
300 // Vulkan's interface variable requirements needs scalars to be wrapped in a
301 // struct. The struct held in storage buffer.
302 std::optional<spirv::StorageClass> sc;
303 if (funcOp.getArgument(argIndex).getType().isIntOrIndexOrFloat())
304 sc = spirv::StorageClass::StorageBuffer;
305 argABI.push_back(
306 spirv::getInterfaceVarABIAttr(0, argIndex, sc, funcOp.getContext()));
307 }
308 return success();
309}
310
311LogicalResult GPUFuncOpConversion::matchAndRewrite(
312 gpu::GPUFuncOp funcOp, OpAdaptor adaptor,
313 ConversionPatternRewriter &rewriter) const {
314 if (!gpu::GPUDialect::isKernel(funcOp))
315 return failure();
316
317 auto *typeConverter = getTypeConverter<SPIRVTypeConverter>();
318 SmallVector<spirv::InterfaceVarABIAttr, 4> argABI;
319 if (failed(
320 getDefaultABIAttrs(typeConverter->getTargetEnv(), funcOp, argABI))) {
321 argABI.clear();
322 for (auto argIndex : llvm::seq<unsigned>(0, funcOp.getNumArguments())) {
323 // If the ABI is already specified, use it.
324 auto abiAttr = funcOp.getArgAttrOfType<spirv::InterfaceVarABIAttr>(
325 argIndex, spirv::getInterfaceVarABIAttrName());
326 if (!abiAttr) {
327 funcOp.emitRemark(
328 "match failure: missing 'spirv.interface_var_abi' attribute at "
329 "argument ")
330 << argIndex;
331 return failure();
332 }
333 argABI.push_back(abiAttr);
334 }
335 }
336
337 auto entryPointAttr = spirv::lookupEntryPointABI(funcOp);
338 if (!entryPointAttr) {
339 funcOp.emitRemark(
340 "match failure: missing 'spirv.entry_point_abi' attribute");
341 return failure();
342 }
343 spirv::FuncOp newFuncOp = lowerAsEntryFunction(
344 funcOp, *getTypeConverter(), rewriter, entryPointAttr, argABI);
345 if (!newFuncOp)
346 return failure();
347 newFuncOp->removeAttr(
348 rewriter.getStringAttr(gpu::GPUDialect::getKernelFuncAttrName()));
349 return success();
350}
351
352//===----------------------------------------------------------------------===//
353// ModuleOp with gpu.module.
354//===----------------------------------------------------------------------===//
355
356LogicalResult GPUModuleConversion::matchAndRewrite(
357 gpu::GPUModuleOp moduleOp, OpAdaptor adaptor,
358 ConversionPatternRewriter &rewriter) const {
359 auto *typeConverter = getTypeConverter<SPIRVTypeConverter>();
360 const spirv::TargetEnv &targetEnv = typeConverter->getTargetEnv();
361 spirv::AddressingModel addressingModel = spirv::getAddressingModel(
362 targetEnv, typeConverter->getOptions().use64bitIndex);
363 FailureOr<spirv::MemoryModel> memoryModel = spirv::getMemoryModel(targetEnv);
364 if (failed(memoryModel))
365 return moduleOp.emitRemark(
366 "cannot deduce memory model from 'spirv.target_env'");
367
368 // Add a keyword to the module name to avoid symbolic conflict.
369 std::string spvModuleName = (kSPIRVModule + moduleOp.getName()).str();
370 auto spvModule = spirv::ModuleOp::create(
371 rewriter, moduleOp.getLoc(), addressingModel, *memoryModel, std::nullopt,
372 StringRef(spvModuleName));
373
374 // Move the region from the module op into the SPIR-V module.
375 Region &spvModuleRegion = spvModule.getRegion();
376 rewriter.inlineRegionBefore(moduleOp.getBodyRegion(), spvModuleRegion,
377 spvModuleRegion.begin());
378 // The spirv.module build method adds a block. Remove that.
379 rewriter.eraseBlock(&spvModuleRegion.back());
380
381 // Some of the patterns call `lookupTargetEnv` during conversion and they
382 // will fail if called after GPUModuleConversion and we don't preserve
383 // `TargetEnv` attribute.
384 // Copy TargetEnvAttr only if it is attached directly to the GPUModuleOp.
385 if (auto attr = moduleOp->getAttrOfType<spirv::TargetEnvAttr>(
386 spirv::getTargetEnvAttrName()))
387 spvModule->setAttr(spirv::getTargetEnvAttrName(), attr);
388 if (ArrayAttr targets = moduleOp.getTargetsAttr()) {
389 for (Attribute targetAttr : targets)
390 if (auto spirvTargetEnvAttr =
391 dyn_cast<spirv::TargetEnvAttr>(targetAttr)) {
392 spvModule->setAttr(spirv::getTargetEnvAttrName(), spirvTargetEnvAttr);
393 break;
394 }
395 }
396
397 rewriter.eraseOp(moduleOp);
398 return success();
399}
400
401//===----------------------------------------------------------------------===//
402// GPU return inside kernel functions to SPIR-V return.
403//===----------------------------------------------------------------------===//
404
405LogicalResult GPUReturnOpConversion::matchAndRewrite(
406 gpu::ReturnOp returnOp, OpAdaptor adaptor,
407 ConversionPatternRewriter &rewriter) const {
408 if (!adaptor.getOperands().empty())
409 return failure();
410
411 rewriter.replaceOpWithNewOp<spirv::ReturnOp>(returnOp);
412 return success();
413}
414
415//===----------------------------------------------------------------------===//
416// Barrier.
417//===----------------------------------------------------------------------===//
418
419LogicalResult GPUBarrierConversion::matchAndRewrite(
420 gpu::BarrierOp barrierOp, OpAdaptor adaptor,
421 ConversionPatternRewriter &rewriter) const {
422 MLIRContext *context = getContext();
423 // Both execution and memory scope should be workgroup.
424 auto scope = spirv::ScopeAttr::get(context, spirv::Scope::Workgroup);
425 // Require acquire and release memory semantics for workgroup memory.
426 auto memorySemantics = spirv::MemorySemanticsAttr::get(
427 context, spirv::MemorySemantics::WorkgroupMemory |
428 spirv::MemorySemantics::AcquireRelease);
429 rewriter.replaceOpWithNewOp<spirv::ControlBarrierOp>(barrierOp, scope, scope,
430 memorySemantics);
431 return success();
432}
433
434//===----------------------------------------------------------------------===//
435// Shuffle
436//===----------------------------------------------------------------------===//
437
438LogicalResult GPUShuffleConversion::matchAndRewrite(
439 gpu::ShuffleOp shuffleOp, OpAdaptor adaptor,
440 ConversionPatternRewriter &rewriter) const {
441 // Require the shuffle width to be the same as the target's subgroup size,
442 // given that for SPIR-V non-uniform subgroup ops, we cannot select
443 // participating invocations.
444 auto targetEnv = getTypeConverter<SPIRVTypeConverter>()->getTargetEnv();
445 unsigned subgroupSize =
446 targetEnv.getAttr().getResourceLimits().getSubgroupSize();
447 IntegerAttr widthAttr;
448 if (!matchPattern(shuffleOp.getWidth(), m_Constant(&widthAttr)) ||
449 widthAttr.getValue().getZExtValue() != subgroupSize)
450 return rewriter.notifyMatchFailure(
451 shuffleOp, "shuffle width and target subgroup size mismatch");
452
453 assert(!adaptor.getOffset().getType().isSignedInteger() &&
454 "shuffle offset must be a signless/unsigned integer");
455
456 Location loc = shuffleOp.getLoc();
457 auto scope = rewriter.getAttr<spirv::ScopeAttr>(spirv::Scope::Subgroup);
458 Value result;
459 Value validVal;
460
461 switch (shuffleOp.getMode()) {
462 case gpu::ShuffleMode::XOR: {
463 result = spirv::GroupNonUniformShuffleXorOp::create(
464 rewriter, loc, scope, adaptor.getValue(), adaptor.getOffset());
465 validVal = spirv::ConstantOp::getOne(rewriter.getI1Type(),
466 shuffleOp.getLoc(), rewriter);
467 break;
468 }
469 case gpu::ShuffleMode::IDX: {
470 result = spirv::GroupNonUniformShuffleOp::create(
471 rewriter, loc, scope, adaptor.getValue(), adaptor.getOffset());
472 validVal = spirv::ConstantOp::getOne(rewriter.getI1Type(),
473 shuffleOp.getLoc(), rewriter);
474 break;
475 }
476 case gpu::ShuffleMode::DOWN: {
477 result = spirv::GroupNonUniformShuffleDownOp::create(
478 rewriter, loc, scope, adaptor.getValue(), adaptor.getOffset());
479
480 Value laneId = gpu::LaneIdOp::create(rewriter, loc, widthAttr);
481 Value resultLaneId =
482 arith::AddIOp::create(rewriter, loc, laneId, adaptor.getOffset());
483 validVal = arith::CmpIOp::create(rewriter, loc, arith::CmpIPredicate::ult,
484 resultLaneId, adaptor.getWidth());
485 break;
486 }
487 case gpu::ShuffleMode::UP: {
488 result = spirv::GroupNonUniformShuffleUpOp::create(
489 rewriter, loc, scope, adaptor.getValue(), adaptor.getOffset());
490
491 Value laneId = gpu::LaneIdOp::create(rewriter, loc, widthAttr);
492 Value resultLaneId =
493 arith::SubIOp::create(rewriter, loc, laneId, adaptor.getOffset());
494 auto i32Type = rewriter.getIntegerType(32);
495 validVal = arith::CmpIOp::create(
496 rewriter, loc, arith::CmpIPredicate::sge, resultLaneId,
497 arith::ConstantOp::create(rewriter, loc, i32Type,
498 rewriter.getIntegerAttr(i32Type, 0)));
499 break;
500 }
501 }
502
503 rewriter.replaceOp(shuffleOp, {result, validVal});
504 return success();
505}
506
507//===----------------------------------------------------------------------===//
508// Rotate
509//===----------------------------------------------------------------------===//
510
511LogicalResult GPURotateConversion::matchAndRewrite(
512 gpu::RotateOp rotateOp, OpAdaptor adaptor,
513 ConversionPatternRewriter &rewriter) const {
514 const spirv::TargetEnv &targetEnv =
515 getTypeConverter<SPIRVTypeConverter>()->getTargetEnv();
516 unsigned subgroupSize =
517 targetEnv.getAttr().getResourceLimits().getSubgroupSize();
518 unsigned width = rotateOp.getWidth();
519 if (width > subgroupSize)
520 return rewriter.notifyMatchFailure(
521 rotateOp, "rotate width is larger than target subgroup size");
522
523 Location loc = rotateOp.getLoc();
524 auto scope = rewriter.getAttr<spirv::ScopeAttr>(spirv::Scope::Subgroup);
525 Value offsetVal =
526 arith::ConstantOp::create(rewriter, loc, adaptor.getOffsetAttr());
527 Value widthVal =
528 arith::ConstantOp::create(rewriter, loc, adaptor.getWidthAttr());
529 Value rotateResult = spirv::GroupNonUniformRotateKHROp::create(
530 rewriter, loc, scope, adaptor.getValue(), offsetVal, widthVal);
531 Value validVal;
532 if (width == subgroupSize) {
533 validVal = spirv::ConstantOp::getOne(rewriter.getI1Type(), loc, rewriter);
534 } else {
535 IntegerAttr widthAttr = adaptor.getWidthAttr();
536 Value laneId = gpu::LaneIdOp::create(rewriter, loc, widthAttr);
537 validVal = arith::CmpIOp::create(rewriter, loc, arith::CmpIPredicate::ult,
538 laneId, widthVal);
539 }
540
541 rewriter.replaceOp(rotateOp, {rotateResult, validVal});
542 return success();
543}
544
545//===----------------------------------------------------------------------===//
546// Group ops
547//===----------------------------------------------------------------------===//
548
549template <typename UniformOp, typename NonUniformOp>
550static Value createGroupReduceOpImpl(OpBuilder &builder, Location loc,
551 Value arg, bool isGroup, bool isUniform,
552 std::optional<uint32_t> clusterSize) {
553 Type type = arg.getType();
554 auto scope = mlir::spirv::ScopeAttr::get(builder.getContext(),
555 isGroup ? spirv::Scope::Workgroup
556 : spirv::Scope::Subgroup);
557 auto groupOp = spirv::GroupOperationAttr::get(
558 builder.getContext(), clusterSize.has_value()
559 ? spirv::GroupOperation::ClusteredReduce
560 : spirv::GroupOperation::Reduce);
561 if (isUniform) {
562 return UniformOp::create(builder, loc, type, scope, groupOp, arg)
563 .getResult();
564 }
565
566 Value clusterSizeValue;
567 if (clusterSize.has_value())
568 clusterSizeValue = spirv::ConstantOp::create(
569 builder, loc, builder.getI32Type(),
570 builder.getIntegerAttr(builder.getI32Type(), *clusterSize));
571
572 return NonUniformOp::create(builder, loc, type, scope, groupOp, arg,
573 clusterSizeValue)
574 .getResult();
575}
576
577static std::optional<Value>
578createGroupReduceOp(OpBuilder &builder, Location loc, Value arg,
579 gpu::AllReduceOperation opType, bool isGroup,
580 bool isUniform, std::optional<uint32_t> clusterSize) {
581 enum class ElemType { Float, Boolean, Integer };
582 using FuncT = Value (*)(OpBuilder &, Location, Value, bool, bool,
583 std::optional<uint32_t>);
584 struct OpHandler {
585 gpu::AllReduceOperation kind;
586 ElemType elemType;
587 FuncT func;
588 };
589
590 Type type = arg.getType();
591 ElemType elementType;
592 if (isa<FloatType>(type)) {
593 elementType = ElemType::Float;
594 } else if (auto intTy = dyn_cast<IntegerType>(type)) {
595 elementType = (intTy.getIntOrFloatBitWidth() == 1) ? ElemType::Boolean
596 : ElemType::Integer;
597 } else {
598 return std::nullopt;
599 }
600
601 // TODO(https://github.com/llvm/llvm-project/issues/73459): The SPIR-V spec
602 // does not specify how -0.0 / +0.0 and NaN values are handled in *FMin/*FMax
603 // reduction ops. We should account possible precision requirements in this
604 // conversion.
605
606 using ReduceType = gpu::AllReduceOperation;
607 const OpHandler handlers[] = {
608 {ReduceType::ADD, ElemType::Integer,
609 &createGroupReduceOpImpl<spirv::GroupIAddOp,
610 spirv::GroupNonUniformIAddOp>},
611 {ReduceType::ADD, ElemType::Float,
612 &createGroupReduceOpImpl<spirv::GroupFAddOp,
613 spirv::GroupNonUniformFAddOp>},
614 {ReduceType::MUL, ElemType::Integer,
615 &createGroupReduceOpImpl<spirv::GroupIMulKHROp,
616 spirv::GroupNonUniformIMulOp>},
617 {ReduceType::MUL, ElemType::Float,
618 &createGroupReduceOpImpl<spirv::GroupFMulKHROp,
619 spirv::GroupNonUniformFMulOp>},
620 {ReduceType::MINUI, ElemType::Integer,
621 &createGroupReduceOpImpl<spirv::GroupUMinOp,
622 spirv::GroupNonUniformUMinOp>},
623 {ReduceType::MINSI, ElemType::Integer,
624 &createGroupReduceOpImpl<spirv::GroupSMinOp,
625 spirv::GroupNonUniformSMinOp>},
626 {ReduceType::MINNUMF, ElemType::Float,
627 &createGroupReduceOpImpl<spirv::GroupFMinOp,
628 spirv::GroupNonUniformFMinOp>},
629 {ReduceType::MAXUI, ElemType::Integer,
630 &createGroupReduceOpImpl<spirv::GroupUMaxOp,
631 spirv::GroupNonUniformUMaxOp>},
632 {ReduceType::MAXSI, ElemType::Integer,
633 &createGroupReduceOpImpl<spirv::GroupSMaxOp,
634 spirv::GroupNonUniformSMaxOp>},
635 {ReduceType::MAXNUMF, ElemType::Float,
636 &createGroupReduceOpImpl<spirv::GroupFMaxOp,
637 spirv::GroupNonUniformFMaxOp>},
638 {ReduceType::MINIMUMF, ElemType::Float,
639 &createGroupReduceOpImpl<spirv::GroupFMinOp,
640 spirv::GroupNonUniformFMinOp>},
641 {ReduceType::MAXIMUMF, ElemType::Float,
642 &createGroupReduceOpImpl<spirv::GroupFMaxOp,
643 spirv::GroupNonUniformFMaxOp>}};
644
645 for (const OpHandler &handler : handlers)
646 if (handler.kind == opType && elementType == handler.elemType)
647 return handler.func(builder, loc, arg, isGroup, isUniform, clusterSize);
648
649 return std::nullopt;
650}
651
652/// Pattern to convert a gpu.all_reduce op into a SPIR-V group op.
653class GPUAllReduceConversion final
654 : public OpConversionPattern<gpu::AllReduceOp> {
655public:
656 using Base::Base;
657
658 LogicalResult
659 matchAndRewrite(gpu::AllReduceOp op, OpAdaptor adaptor,
660 ConversionPatternRewriter &rewriter) const override {
661 auto opType = op.getOp();
662
663 // gpu.all_reduce can have either reduction op attribute or reduction
664 // region. Only attribute version is supported.
665 if (!opType)
666 return failure();
667
668 auto result =
669 createGroupReduceOp(rewriter, op.getLoc(), adaptor.getValue(), *opType,
670 /*isGroup*/ true, op.getUniform(), std::nullopt);
671 if (!result)
672 return failure();
673
674 rewriter.replaceOp(op, *result);
675 return success();
676 }
677};
678
679/// Pattern to convert a gpu.subgroup_reduce op into a SPIR-V group op.
680class GPUSubgroupReduceConversion final
681 : public OpConversionPattern<gpu::SubgroupReduceOp> {
682public:
683 using Base::Base;
684
685 LogicalResult
686 matchAndRewrite(gpu::SubgroupReduceOp op, OpAdaptor adaptor,
687 ConversionPatternRewriter &rewriter) const override {
688 if (op.getClusterStride() > 1) {
689 return rewriter.notifyMatchFailure(
690 op, "lowering for cluster stride > 1 is not implemented");
691 }
692
693 if (!isa<spirv::ScalarType>(adaptor.getValue().getType()))
694 return rewriter.notifyMatchFailure(op, "reduction type is not a scalar");
695
696 auto result = createGroupReduceOp(
697 rewriter, op.getLoc(), adaptor.getValue(), adaptor.getOp(),
698 /*isGroup=*/false, adaptor.getUniform(), op.getClusterSize());
699 if (!result)
700 return failure();
701
702 rewriter.replaceOp(op, *result);
703 return success();
704 }
705};
706
707// Formulate a unique variable/constant name after
708// searching in the module for existing variable/constant names.
709// This is to avoid name collision with existing variables.
710// Example: printfMsg0, printfMsg1, printfMsg2, ...
711static std::string makeVarName(spirv::ModuleOp moduleOp, llvm::Twine prefix) {
712 std::string name;
713 unsigned number = 0;
714
715 do {
716 name.clear();
717 name = (prefix + llvm::Twine(number++)).str();
718 } while (moduleOp.lookupSymbol(name));
719
720 return name;
721}
722
723/// Pattern to convert a gpu.printf op into a SPIR-V CLPrintf op.
724
725LogicalResult GPUPrintfConversion::matchAndRewrite(
726 gpu::PrintfOp gpuPrintfOp, OpAdaptor adaptor,
727 ConversionPatternRewriter &rewriter) const {
728
729 Location loc = gpuPrintfOp.getLoc();
730
731 auto moduleOp = gpuPrintfOp->getParentOfType<spirv::ModuleOp>();
732 if (!moduleOp)
733 return failure();
734
735 // SPIR-V global variable is used to initialize printf
736 // format string value, if there are multiple printf messages,
737 // each global var needs to be created with a unique name.
738 std::string globalVarName = makeVarName(moduleOp, llvm::Twine("printfMsg"));
739 spirv::GlobalVariableOp globalVar;
740
741 IntegerType i8Type = rewriter.getI8Type();
742 IntegerType i32Type = rewriter.getI32Type();
743
744 // Each character of printf format string is
745 // stored as a spec constant. We need to create
746 // unique name for this spec constant like
747 // @printfMsg0_sc0, @printfMsg0_sc1, ... by searching in the module
748 // for existing spec constant names.
749 auto createSpecConstant = [&](unsigned value) {
750 auto attr = rewriter.getI8IntegerAttr(value);
751 std::string specCstName =
752 makeVarName(moduleOp, llvm::Twine(globalVarName) + "_sc");
753
754 return spirv::SpecConstantOp::create(
755 rewriter, loc, rewriter.getStringAttr(specCstName), attr);
756 };
757 {
758 Operation *parent =
759 SymbolTable::getNearestSymbolTable(gpuPrintfOp->getParentOp());
760
761 ConversionPatternRewriter::InsertionGuard guard(rewriter);
762
763 Block &entryBlock = *parent->getRegion(0).begin();
764 rewriter.setInsertionPointToStart(
765 &entryBlock); // insertion point at module level
766
767 // Create Constituents with SpecConstant by scanning format string
768 // Each character of format string is stored as a spec constant
769 // and then these spec constants are used to create a
770 // SpecConstantCompositeOp.
771 llvm::SmallString<20> formatString(adaptor.getFormat());
772 formatString.push_back('\0'); // Null terminate for C.
773 SmallVector<Attribute, 4> constituents;
774 for (char c : formatString) {
775 spirv::SpecConstantOp cSpecConstantOp = createSpecConstant(c);
776 constituents.push_back(SymbolRefAttr::get(cSpecConstantOp));
777 }
778
779 // Create SpecConstantCompositeOp to initialize the global variable
780 size_t contentSize = constituents.size();
781 auto globalType = spirv::ArrayType::get(i8Type, contentSize);
782 spirv::SpecConstantCompositeOp specCstComposite;
783 // There will be one SpecConstantCompositeOp per printf message/global var,
784 // so no need do lookup for existing ones.
785 std::string specCstCompositeName =
786 (llvm::Twine(globalVarName) + "_scc").str();
787
788 specCstComposite = spirv::SpecConstantCompositeOp::create(
789 rewriter, loc, TypeAttr::get(globalType),
790 rewriter.getStringAttr(specCstCompositeName),
791 rewriter.getArrayAttr(constituents));
792
793 auto ptrType = spirv::PointerType::get(
794 globalType, spirv::StorageClass::UniformConstant);
795
796 // Define a GlobalVarOp initialized using specialized constants
797 // that is used to specify the printf format string
798 // to be passed to the SPIRV CLPrintfOp.
799 globalVar = spirv::GlobalVariableOp::create(
800 rewriter, loc, ptrType, globalVarName,
801 FlatSymbolRefAttr::get(specCstComposite));
802
803 globalVar->setAttr("Constant", rewriter.getUnitAttr());
804 }
805 // Get SSA value of Global variable and create pointer to i8 to point to
806 // the format string.
807 Value globalPtr = spirv::AddressOfOp::create(rewriter, loc, globalVar);
808 Value fmtStr = spirv::BitcastOp::create(
809 rewriter, loc,
810 spirv::PointerType::get(i8Type, spirv::StorageClass::UniformConstant),
811 globalPtr);
812
813 // Get printf arguments.
814 auto printfArgs = llvm::to_vector_of<Value, 4>(adaptor.getArgs());
815
816 spirv::CLPrintfOp::create(rewriter, loc, i32Type, fmtStr, printfArgs);
817
818 // Need to erase the gpu.printf op as gpu.printf does not use result vs
819 // spirv::CLPrintfOp has i32 resultType so cannot replace with new SPIR-V
820 // printf op.
821 rewriter.eraseOp(gpuPrintfOp);
822
823 return success();
824}
825
826//===----------------------------------------------------------------------===//
827// GPU To SPIRV Patterns.
828//===----------------------------------------------------------------------===//
829
830void mlir::populateGPUToSPIRVPatterns(const SPIRVTypeConverter &typeConverter,
831 RewritePatternSet &patterns) {
832 patterns.add<
833 GPUBarrierConversion, GPUFuncOpConversion, GPUModuleConversion,
834 GPUReturnOpConversion, GPUShuffleConversion, GPURotateConversion,
835 LaunchConfigConversion<gpu::BlockIdOp, spirv::BuiltIn::WorkgroupId>,
836 LaunchConfigConversion<gpu::GridDimOp, spirv::BuiltIn::NumWorkgroups>,
837 LaunchConfigConversion<gpu::BlockDimOp, spirv::BuiltIn::WorkgroupSize>,
838 LaunchConfigConversion<gpu::ThreadIdOp,
839 spirv::BuiltIn::LocalInvocationId>,
840 LaunchConfigConversion<gpu::GlobalIdOp,
841 spirv::BuiltIn::GlobalInvocationId>,
842 SingleDimLaunchConfigConversion<gpu::SubgroupIdOp,
843 spirv::BuiltIn::SubgroupId>,
844 SingleDimLaunchConfigConversion<gpu::NumSubgroupsOp,
845 spirv::BuiltIn::NumSubgroups>,
846 SingleDimLaunchConfigConversion<gpu::SubgroupSizeOp,
847 spirv::BuiltIn::SubgroupSize>,
848 SingleDimLaunchConfigConversion<
849 gpu::LaneIdOp, spirv::BuiltIn::SubgroupLocalInvocationId>,
850 WorkGroupSizeConversion, GPUAllReduceConversion,
851 GPUSubgroupReduceConversion, GPUPrintfConversion>(typeConverter,
852 patterns.getContext());
853}
success
return success()
createGroupReduceOp
static std::optional< Value > createGroupReduceOp(OpBuilder &builder, Location loc, Value arg, gpu::AllReduceOperation opType, bool isGroup, bool isUniform, std::optional< uint32_t > clusterSize)
Definition GPUToSPIRV.cpp:578
getDefaultABIAttrs
static LogicalResult getDefaultABIAttrs(const spirv::TargetEnv &targetEnv, gpu::GPUFuncOp funcOp, SmallVectorImpl< spirv::InterfaceVarABIAttr > &argABI)
Populates argABI with spirv.interface_var_abi attributes for lowering gpu.func to spirv....
Definition GPUToSPIRV.cpp:291
kSPIRVModule
static constexpr const char kSPIRVModule[]
Definition GPUToSPIRV.cpp:27
createGroupReduceOpImpl
static Value createGroupReduceOpImpl(OpBuilder &builder, Location loc, Value arg, bool isGroup, bool isUniform, std::optional< uint32_t > clusterSize)
Definition GPUToSPIRV.cpp:550
lowerAsEntryFunction
static spirv::FuncOp lowerAsEntryFunction(gpu::GPUFuncOp funcOp, const TypeConverter &typeConverter, ConversionPatternRewriter &rewriter, spirv::EntryPointABIAttr entryPointInfo, ArrayRef< spirv::InterfaceVarABIAttr > argABIInfo)
Definition GPUToSPIRV.cpp:231
makeVarName
static std::string makeVarName(spirv::ModuleOp moduleOp, llvm::Twine prefix)
Definition GPUToSPIRV.cpp:711
ArrayAttr
ArrayAttr()
getContext
b getContext())
GPUAllReduceConversion
Pattern to convert a gpu.all_reduce op into a SPIR-V group op.
Definition GPUToSPIRV.cpp:654
GPUAllReduceConversion::matchAndRewrite
LogicalResult matchAndRewrite(gpu::AllReduceOp op, OpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUToSPIRV.cpp:659
GPUSubgroupReduceConversion
Pattern to convert a gpu.subgroup_reduce op into a SPIR-V group op.
Definition GPUToSPIRV.cpp:681
GPUSubgroupReduceConversion::matchAndRewrite
LogicalResult matchAndRewrite(gpu::SubgroupReduceOp op, OpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUToSPIRV.cpp:686
mlir::Builder::getIntegerAttr
IntegerAttr getIntegerAttr(Type type, int64_t value)
Definition Builders.cpp:228
mlir::Builder::getI32Type
IntegerType getI32Type()
Definition Builders.cpp:63
mlir::Builder::getContext
MLIRContext * getContext() const
Definition Builders.h:56
mlir::FlatSymbolRefAttr::get
static FlatSymbolRefAttr get(StringAttr value)
Construct a symbol reference for the given value name.
Definition BuiltinAttributes.h:877
mlir::Location
This class defines the main interface for locations in MLIR and acts as a non-nullable wrapper around...
Definition Location.h:76
mlir::MLIRContext
MLIRContext is the top-level object for a collection of MLIR operations.
Definition MLIRContext.h:63
mlir::OpBuilder
This class helps build Operations.
Definition Builders.h:207
mlir::Operation::getRegion
Region & getRegion(unsigned index)
Returns the region held by this operation at position 'index'.
Definition Operation.h:686
mlir::Region::back
Block & back()
Definition Region.h:64
mlir::Region::begin
iterator begin()
Definition Region.h:55
mlir::SPIRVTypeConverter
Type conversion from builtin types to SPIR-V types for shader interface.
Definition SPIRVConversion.h:74
mlir::SymbolTable::getSymbolAttrName
static StringRef getSymbolAttrName()
Return the name of the attribute used for symbol names.
Definition SymbolTable.h:76
mlir::SymbolTable::getNearestSymbolTable
static Operation * getNearestSymbolTable(Operation *from)
Returns the nearest symbol table from a given operation from.
Definition SymbolTable.cpp:336
mlir::Type
Instances of the Type class are uniqued, have an immutable identifier and an optional mutable compone...
Definition Types.h:74
mlir::Value
This class represents an instance of an SSA value in the MLIR system, representing a computable value...
Definition Value.h:96
mlir::Value::getType
Type getType() const
Return the type of this value.
Definition Value.h:105
mlir::spirv::ArrayType::get
static ArrayType get(Type elementType, unsigned elementCount)
Definition SPIRVTypes.cpp:158
mlir::spirv::InterfaceVarABIAttr
An attribute that specifies the information regarding the interface variable: descriptor set,...
Definition SPIRVAttributes.h:56
mlir::spirv::PointerType::get
static PointerType get(Type pointeeType, StorageClass storageClass)
Definition SPIRVTypes.cpp:451
mlir::spirv::TargetEnvAttr::getResourceLimits
ResourceLimitsAttr getResourceLimits() const
Returns the target resource limits.
Definition SPIRVAttributes.cpp:341
mlir::spirv::TargetEnv
A wrapper class around a spirv::TargetEnvAttr to provide query methods for allowed version/capabiliti...
Definition TargetAndABI.h:29
mlir::spirv::TargetEnv::getAttr
TargetEnvAttr getAttr() const
Definition TargetAndABI.h:62
mlir::remark::failed
detail::InFlightRemark failed(Location loc, RemarkOpts opts)
Report an optimization remark that failed.
Definition Remarks.h:561
mlir::spirv::getInterfaceVarABIAttrName
StringRef getInterfaceVarABIAttrName()
Returns the attribute name for specifying argument ABI information.
Definition TargetAndABI.cpp:95
mlir::spirv::needsInterfaceVarABIAttrs
bool needsInterfaceVarABIAttrs(TargetEnvAttr targetAttr)
Returns whether the given SPIR-V target (described by TargetEnvAttr) needs ABI attributes for interfa...
Definition TargetAndABI.cpp:107
mlir::spirv::getInterfaceVarABIAttr
InterfaceVarABIAttr getInterfaceVarABIAttr(unsigned descriptorSet, unsigned binding, std::optional< StorageClass > storageClass, MLIRContext *context)
Gets the InterfaceVarABIAttr given its fields.
mlir::spirv::getBuiltinVariableValue
Value getBuiltinVariableValue(Operation *op, BuiltIn builtin, Type integerType, OpBuilder &builder, StringRef prefix="__builtin__", StringRef suffix="__")
Returns the value for the given builtin variable.
mlir::spirv::lookupEntryPointABI
EntryPointABIAttr lookupEntryPointABI(Operation *op)
Queries the entry point ABI on the nearest function-like op containing the given op.
Definition TargetAndABI.cpp:131
mlir::spirv::getTargetEnvAttrName
StringRef getTargetEnvAttrName()
Returns the attribute name for specifying SPIR-V target environment.
Definition TargetAndABI.cpp:168
mlir::spirv::lookupLocalWorkGroupSize
DenseI32ArrayAttr lookupLocalWorkGroupSize(Operation *op)
Queries the local workgroup size from entry point ABI on the nearest function-like op containing the ...
Definition TargetAndABI.cpp:144
mlir::spirv::getAddressingModel
AddressingModel getAddressingModel(TargetEnvAttr targetAttr, bool use64bitAddress)
Returns addressing model selected based on target environment.
Definition TargetAndABI.cpp:204
mlir::spirv::getMemoryModel
FailureOr< MemoryModel > getMemoryModel(TargetEnvAttr targetAttr)
Returns memory model selected based on target environment.
Definition TargetAndABI.cpp:232
mlir::spirv::getEntryPointABIAttrName
StringRef getEntryPointABIAttrName()
Returns the attribute name for specifying entry point information.
Definition TargetAndABI.cpp:117
mlir
Include the generated interface declarations.
Definition AliasAnalysis.h:19
mlir::matchPattern
bool matchPattern(Value value, const Pattern &pattern)
Entry point for matching a pattern over a Value.
Definition Matchers.h:490
mlir::patterns
const FrozenRewritePatternSet & patterns
Definition GreedyPatternRewriteDriver.h:283
mlir::DenseI32ArrayAttr
detail::DenseArrayAttrImpl< int32_t > DenseI32ArrayAttr
Definition BuiltinAttributes.h:769
mlir::populateGPUToSPIRVPatterns
void populateGPUToSPIRVPatterns(const SPIRVTypeConverter &typeConverter, RewritePatternSet &patterns)
Appends to a pattern list additional patterns for translating GPU Ops to SPIR-V ops.
Definition GPUToSPIRV.cpp:830
mlir::m_Constant
detail::constant_op_matcher m_Constant()
Matches a constant foldable operation.
Definition Matchers.h:369
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