MLIR 23.0.0git
GPUOpsLowering.cpp
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1//===- GPUOpsLowering.cpp - GPU FuncOp / ReturnOp lowering ----------------===//
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#include "GPUOpsLowering.h"
10
11#include "mlir/Conversion/GPUCommon/GPUCommonPass.h"
12#include "mlir/Conversion/LLVMCommon/VectorPattern.h"
13#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
14#include "mlir/IR/Attributes.h"
15#include "mlir/IR/Builders.h"
16#include "mlir/IR/BuiltinTypes.h"
17#include "mlir/IR/SymbolTable.h"
18#include "llvm/ADT/SmallVectorExtras.h"
19#include "llvm/ADT/StringSet.h"
20#include "llvm/Support/DebugLog.h"
21#include "llvm/Support/FormatVariadic.h"
22
23#define DEBUG_TYPE "gpu-lowering"
24
25using namespace mlir;
26
27LLVM::LLVMFuncOp mlir::getOrDefineFunction(Operation *moduleOp, Location loc,
28 OpBuilder &b, StringRef name,
29 LLVM::LLVMFunctionType type) {
30 auto existing = dyn_cast_or_null<LLVM::LLVMFuncOp>(
31 SymbolTable::lookupSymbolIn(moduleOp, name));
32 if (existing)
33 return existing;
34
35 OpBuilder::InsertionGuard guard(b);
36 b.setInsertionPointToStart(&moduleOp->getRegion(0).front());
37 return LLVM::LLVMFuncOp::create(b, loc, name, type, LLVM::Linkage::External);
38}
39
40static SmallString<16> getUniqueSymbolName(Operation *moduleOp,
41 StringRef prefix) {
42 // Get a unique global name.
43 unsigned stringNumber = 0;
44 SmallString<16> stringConstName;
45 do {
46 stringConstName.clear();
47 (prefix + Twine(stringNumber++)).toStringRef(stringConstName);
48 } while (SymbolTable::lookupSymbolIn(moduleOp, stringConstName));
49 return stringConstName;
50}
51
52LLVM::GlobalOp mlir::getOrCreateStringConstant(OpBuilder &b, Location loc,
53 Operation *moduleOp, Type llvmI8,
54 StringRef namePrefix,
55 StringRef str,
56 uint64_t alignment,
57 unsigned addrSpace) {
58 llvm::SmallString<20> nullTermStr(str);
59 nullTermStr.push_back('\0'); // Null terminate for C
60 auto globalType =
61 LLVM::LLVMArrayType::get(llvmI8, nullTermStr.size_in_bytes());
62 StringAttr attr = b.getStringAttr(nullTermStr);
63
64 // Try to find existing global.
65 for (auto globalOp : moduleOp->getRegion(0).getOps<LLVM::GlobalOp>())
66 if (globalOp.getGlobalType() == globalType && globalOp.getConstant() &&
67 globalOp.getValueAttr() == attr &&
68 globalOp.getAlignment().value_or(0) == alignment &&
69 globalOp.getAddrSpace() == addrSpace)
70 return globalOp;
71
72 // Not found: create new global.
73 OpBuilder::InsertionGuard guard(b);
74 b.setInsertionPointToStart(&moduleOp->getRegion(0).front());
75 SmallString<16> name = getUniqueSymbolName(moduleOp, namePrefix);
76 return LLVM::GlobalOp::create(b, loc, globalType,
77 /*isConstant=*/true, LLVM::Linkage::Internal,
78 name, attr, alignment, addrSpace);
79}
80
81FailureOr<LoweredLLVMFuncAttrs> GPUFuncOpLowering::buildLoweredGPULLVMFuncAttrs(
82 gpu::GPUFuncOp gpuFuncOp, Type llvmFuncType, OpBuilder &rewriter) const {
83 FailureOr<LoweredLLVMFuncAttrs> loweredAttrs =
84 lowerDiscardableAttrsForLLVMFunc(gpuFuncOp, llvmFuncType);
85 if (failed(loweredAttrs))
86 return failure();
87
88 MLIRContext *ctx = rewriter.getContext();
89 LLVM::LLVMFuncOp::Properties &props = loweredAttrs->properties;
90 props.sym_name = rewriter.getStringAttr(gpuFuncOp.getName());
91 props.function_type = TypeAttr::get(llvmFuncType);
92 const bool isKernelFunc = gpuFuncOp.isKernel();
93 props.setCConv(LLVM::CConvAttr::get(ctx, isKernelFunc
94 ? kernelCallingConvention
95 : nonKernelCallingConvention));
96
97 NamedAttrList &discardable = loweredAttrs->discardableAttrs;
98 auto *gpuDialect = cast<gpu::GPUDialect>(gpuFuncOp->getDialect());
99
100 auto appendIfNameAndValue = [&](StringAttr name, Attribute value) {
101 if (name && value)
102 discardable.append(name, value);
103 };
104
105 DenseI32ArrayAttr knownBlockSize = gpuFuncOp.getKnownBlockSizeAttr();
106 DenseI32ArrayAttr knownGridSize = gpuFuncOp.getKnownGridSizeAttr();
107 DenseI32ArrayAttr knownClusterSize = gpuFuncOp.getKnownClusterSizeAttr();
108
109 appendIfNameAndValue(gpuDialect->getKnownBlockSizeAttrHelper().getName(),
110 knownBlockSize);
111 appendIfNameAndValue(gpuDialect->getKnownGridSizeAttrHelper().getName(),
112 knownGridSize);
113 appendIfNameAndValue(gpuDialect->getKnownClusterSizeAttrHelper().getName(),
114 knownClusterSize);
115
116 if (isKernelFunc) {
117 discardable.append(gpuDialect->getKernelFuncAttrName(),
118 rewriter.getUnitAttr());
119 // Add a dialect specific kernel attribute in addition to GPU kernel
120 // attribute. The former is necessary for further translation while the
121 // latter is expected by gpu.launch_func.
122 appendIfNameAndValue(kernelAttributeName, rewriter.getUnitAttr());
123 appendIfNameAndValue(kernelBlockSizeAttributeName, knownBlockSize);
124 appendIfNameAndValue(kernelClusterSizeAttributeName, knownClusterSize);
125 }
126
127 return loweredAttrs;
128}
129
130LogicalResult
131GPUFuncOpLowering::matchAndRewrite(gpu::GPUFuncOp gpuFuncOp, OpAdaptor adaptor,
132 ConversionPatternRewriter &rewriter) const {
133 Location loc = gpuFuncOp.getLoc();
134
135 SmallVector<LLVM::GlobalOp, 3> workgroupBuffers;
136 if (encodeWorkgroupAttributionsAsArguments) {
137 // Append an `llvm.ptr` argument to the function signature to encode
138 // workgroup attributions.
139
140 ArrayRef<BlockArgument> workgroupAttributions =
141 gpuFuncOp.getWorkgroupAttributionBBArgs();
142 size_t numAttributions = workgroupAttributions.size();
143
144 // Insert all arguments at the end.
145 unsigned index = gpuFuncOp.getNumArguments();
146 SmallVector<unsigned> argIndices(numAttributions, index);
147
148 // New arguments will simply be `llvm.ptr` with the correct address space
149 Type workgroupPtrType =
150 rewriter.getType<LLVM::LLVMPointerType>(workgroupAddrSpace);
151 Repeated<Type> argTypes(numAttributions, workgroupPtrType);
152
153 // Attributes: noalias, llvm.mlir.workgroup_attribution(<size>, <type>)
154 std::array attrs{
155 rewriter.getNamedAttr(LLVM::LLVMDialect::getNoAliasAttrName(),
156 rewriter.getUnitAttr()),
157 rewriter.getNamedAttr(
158 getDialect().getWorkgroupAttributionAttrHelper().getName(),
159 rewriter.getUnitAttr()),
160 };
161 SmallVector<DictionaryAttr> argAttrs;
162 for (BlockArgument attribution : workgroupAttributions) {
163 auto attributionType = cast<MemRefType>(attribution.getType());
164 IntegerAttr numElements =
165 rewriter.getI64IntegerAttr(attributionType.getNumElements());
166 Type llvmElementType =
167 getTypeConverter()->convertType(attributionType.getElementType());
168 if (!llvmElementType)
169 return failure();
170 TypeAttr type = TypeAttr::get(llvmElementType);
171 attrs.back().setValue(
172 rewriter.getAttr<LLVM::WorkgroupAttributionAttr>(numElements, type));
173 argAttrs.push_back(rewriter.getDictionaryAttr(attrs));
174 }
175
176 // Location match function location
177 SmallVector<Location> argLocs(numAttributions, gpuFuncOp.getLoc());
178
179 // Perform signature modification
180 rewriter.modifyOpInPlace(
181 gpuFuncOp, [gpuFuncOp, &argIndices, &argTypes, &argAttrs, &argLocs]() {
182 LogicalResult inserted =
183 static_cast<FunctionOpInterface>(gpuFuncOp).insertArguments(
184 argIndices, argTypes, argAttrs, argLocs);
185 (void)inserted;
186 assert(succeeded(inserted) &&
187 "expected GPU funcs to support inserting any argument");
188 });
189 } else {
190 workgroupBuffers.reserve(gpuFuncOp.getNumWorkgroupAttributions());
191 for (auto [idx, attribution] :
192 llvm::enumerate(gpuFuncOp.getWorkgroupAttributionBBArgs())) {
193 auto type = dyn_cast<MemRefType>(attribution.getType());
194 assert(type && type.hasStaticShape() && "unexpected type in attribution");
195
196 uint64_t numElements = type.getNumElements();
197
198 auto elementType =
199 cast<Type>(typeConverter->convertType(type.getElementType()));
200 auto arrayType = LLVM::LLVMArrayType::get(elementType, numElements);
201 std::string name =
202 std::string(llvm::formatv("__wg_{0}_{1}", gpuFuncOp.getName(), idx));
203 uint64_t alignment = 0;
204 if (auto alignAttr = dyn_cast_or_null<IntegerAttr>(
205 gpuFuncOp.getWorkgroupAttributionAttr(
206 idx, LLVM::LLVMDialect::getAlignAttrName())))
207 alignment = alignAttr.getInt();
208 auto globalOp = LLVM::GlobalOp::create(
209 rewriter, gpuFuncOp.getLoc(), arrayType, /*isConstant=*/false,
210 LLVM::Linkage::Internal, name, /*value=*/Attribute(), alignment,
211 workgroupAddrSpace);
212 workgroupBuffers.push_back(globalOp);
213 }
214 }
215
216 // Remap proper input types.
217 TypeConverter::SignatureConversion signatureConversion(
218 gpuFuncOp.front().getNumArguments());
219
220 Type funcType = getTypeConverter()->convertFunctionSignature(
221 gpuFuncOp.getFunctionType(), /*isVariadic=*/false,
222 getTypeConverter()->getOptions().useBarePtrCallConv, signatureConversion);
223 if (!funcType) {
224 return rewriter.notifyMatchFailure(gpuFuncOp, [&](Diagnostic &diag) {
225 diag << "failed to convert function signature type for: "
226 << gpuFuncOp.getFunctionType();
227 });
228 }
229
230 ArrayAttr argAttrs = gpuFuncOp.getArgAttrsAttr();
231
232 FailureOr<LoweredLLVMFuncAttrs> loweredAttrs =
233 buildLoweredGPULLVMFuncAttrs(gpuFuncOp, funcType, rewriter);
234 if (failed(loweredAttrs))
235 return rewriter.notifyMatchFailure(gpuFuncOp,
236 "failed to lower func attributes");
237
238 auto llvmFuncOp = LLVM::LLVMFuncOp::create(rewriter, gpuFuncOp.getLoc(),
239 loweredAttrs->properties,
240 loweredAttrs->discardableAttrs);
241
242 {
243 // Insert operations that correspond to converted workgroup and private
244 // memory attributions to the body of the function. This must operate on
245 // the original function, before the body region is inlined in the new
246 // function to maintain the relation between block arguments and the
247 // parent operation that assigns their semantics.
248 OpBuilder::InsertionGuard guard(rewriter);
249
250 // Rewrite workgroup memory attributions to addresses of global buffers.
251 rewriter.setInsertionPointToStart(&gpuFuncOp.front());
252 unsigned numProperArguments = gpuFuncOp.getNumArguments();
253
254 if (encodeWorkgroupAttributionsAsArguments) {
255 // Build a MemRefDescriptor with each of the arguments added above.
256
257 unsigned numAttributions = gpuFuncOp.getNumWorkgroupAttributions();
258 assert(numProperArguments >= numAttributions &&
259 "Expecting attributions to be encoded as arguments already");
260
261 // Arguments encoding workgroup attributions will be in positions
262 // [numProperArguments, numProperArguments+numAttributions)
263 ArrayRef<BlockArgument> attributionArguments =
264 gpuFuncOp.getArguments().slice(numProperArguments - numAttributions,
265 numAttributions);
266 for (auto [idx, vals] : llvm::enumerate(
267 llvm::zip_equal(gpuFuncOp.getWorkgroupAttributionBBArgs(),
268 attributionArguments))) {
269 auto [attribution, arg] = vals;
270 auto type = cast<MemRefType>(attribution.getType());
271
272 // Arguments are of llvm.ptr type and attributions are of memref type:
273 // we need to wrap them in memref descriptors.
274 Value descr = MemRefDescriptor::fromStaticShape(
275 rewriter, loc, *getTypeConverter(), type, arg);
276
277 // And remap the arguments
278 signatureConversion.remapInput(numProperArguments + idx, descr);
279 }
280 } else {
281 for (const auto [idx, global] : llvm::enumerate(workgroupBuffers)) {
282 auto ptrType = LLVM::LLVMPointerType::get(rewriter.getContext(),
283 global.getAddrSpace());
284 Value address = LLVM::AddressOfOp::create(rewriter, loc, ptrType,
285 global.getSymNameAttr());
286 Value memory =
287 LLVM::GEPOp::create(rewriter, loc, ptrType, global.getType(),
288 address, ArrayRef<LLVM::GEPArg>{0, 0});
289
290 // Build a memref descriptor pointing to the buffer to plug with the
291 // existing memref infrastructure. This may use more registers than
292 // otherwise necessary given that memref sizes are fixed, but we can try
293 // and canonicalize that away later.
294 Value attribution = gpuFuncOp.getWorkgroupAttributionBBArgs()[idx];
295 auto type = cast<MemRefType>(attribution.getType());
296 Value descr = MemRefDescriptor::fromStaticShape(
297 rewriter, loc, *getTypeConverter(), type, memory);
298 signatureConversion.remapInput(numProperArguments + idx, descr);
299 }
300 }
301
302 // Rewrite private memory attributions to alloca'ed buffers.
303 unsigned numWorkgroupAttributions = gpuFuncOp.getNumWorkgroupAttributions();
304 auto int64Ty = IntegerType::get(rewriter.getContext(), 64);
305 for (const auto [idx, attribution] :
306 llvm::enumerate(gpuFuncOp.getPrivateAttributions())) {
307 auto type = cast<MemRefType>(attribution.getType());
308 assert(type && type.hasStaticShape() && "unexpected type in attribution");
309
310 // Explicitly drop memory space when lowering private memory
311 // attributions since NVVM models it as `alloca`s in the default
312 // memory space and does not support `alloca`s with addrspace(5).
313 Type elementType = typeConverter->convertType(type.getElementType());
314 auto ptrType =
315 LLVM::LLVMPointerType::get(rewriter.getContext(), allocaAddrSpace);
316 Value numElements = LLVM::ConstantOp::create(
317 rewriter, gpuFuncOp.getLoc(), int64Ty, type.getNumElements());
318 uint64_t alignment = 0;
319 if (auto alignAttr =
320 dyn_cast_or_null<IntegerAttr>(gpuFuncOp.getPrivateAttributionAttr(
321 idx, LLVM::LLVMDialect::getAlignAttrName())))
322 alignment = alignAttr.getInt();
323 Value allocated =
324 LLVM::AllocaOp::create(rewriter, gpuFuncOp.getLoc(), ptrType,
325 elementType, numElements, alignment);
326 Value descr = MemRefDescriptor::fromStaticShape(
327 rewriter, loc, *getTypeConverter(), type, allocated);
328 signatureConversion.remapInput(
329 numProperArguments + numWorkgroupAttributions + idx, descr);
330 }
331 }
332
333 // Move the region to the new function, update the entry block signature.
334 rewriter.inlineRegionBefore(gpuFuncOp.getBody(), llvmFuncOp.getBody(),
335 llvmFuncOp.end());
336 if (failed(rewriter.convertRegionTypes(&llvmFuncOp.getBody(), *typeConverter,
337 &signatureConversion)))
338 return failure();
339
340 // Get memref type from function arguments and set the noalias to
341 // pointer arguments.
342 for (const auto [idx, argTy] :
343 llvm::enumerate(gpuFuncOp.getArgumentTypes())) {
344 auto remapping = signatureConversion.getInputMapping(idx);
345 NamedAttrList argAttr =
346 argAttrs ? cast<DictionaryAttr>(argAttrs[idx]) : NamedAttrList();
347 auto copyAttribute = [&](StringRef attrName) {
348 Attribute attr = argAttr.erase(attrName);
349 if (!attr)
350 return;
351 for (size_t i = 0, e = remapping->size; i < e; ++i)
352 llvmFuncOp.setArgAttr(remapping->inputNo + i, attrName, attr);
353 };
354 auto copyPointerAttribute = [&](StringRef attrName) {
355 Attribute attr = argAttr.erase(attrName);
356
357 if (!attr)
358 return;
359 if (remapping->size > 1 &&
360 attrName == LLVM::LLVMDialect::getNoAliasAttrName()) {
361 emitWarning(llvmFuncOp.getLoc(),
362 "Cannot copy noalias with non-bare pointers.\n");
363 return;
364 }
365 for (size_t i = 0, e = remapping->size; i < e; ++i) {
366 if (isa<LLVM::LLVMPointerType>(
367 llvmFuncOp.getArgument(remapping->inputNo + i).getType())) {
368 llvmFuncOp.setArgAttr(remapping->inputNo + i, attrName, attr);
369 }
370 }
371 };
372
373 if (argAttr.empty())
374 continue;
375
376 copyAttribute(LLVM::LLVMDialect::getReturnedAttrName());
377 copyAttribute(LLVM::LLVMDialect::getNoUndefAttrName());
378 copyAttribute(LLVM::LLVMDialect::getInRegAttrName());
379 bool lowersToPointer = false;
380 for (size_t i = 0, e = remapping->size; i < e; ++i) {
381 lowersToPointer |= isa<LLVM::LLVMPointerType>(
382 llvmFuncOp.getArgument(remapping->inputNo + i).getType());
383 }
384
385 if (lowersToPointer) {
386 copyPointerAttribute(LLVM::LLVMDialect::getNoAliasAttrName());
387 copyPointerAttribute(LLVM::LLVMDialect::getNoCaptureAttrName());
388 copyPointerAttribute(LLVM::LLVMDialect::getNoFreeAttrName());
389 copyPointerAttribute(LLVM::LLVMDialect::getAlignAttrName());
390 copyPointerAttribute(LLVM::LLVMDialect::getReadonlyAttrName());
391 copyPointerAttribute(LLVM::LLVMDialect::getWriteOnlyAttrName());
392 copyPointerAttribute(LLVM::LLVMDialect::getReadnoneAttrName());
393 copyPointerAttribute(LLVM::LLVMDialect::getNonNullAttrName());
394 copyPointerAttribute(LLVM::LLVMDialect::getDereferenceableAttrName());
395 copyPointerAttribute(
396 LLVM::LLVMDialect::getDereferenceableOrNullAttrName());
397 copyPointerAttribute(
398 LLVM::LLVMDialect::WorkgroupAttributionAttrHelper::getNameStr());
399 }
400 }
401 rewriter.eraseOp(gpuFuncOp);
402 return success();
403}
404
405LogicalResult GPUPrintfOpToHIPLowering::matchAndRewrite(
406 gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor,
407 ConversionPatternRewriter &rewriter) const {
408 Location loc = gpuPrintfOp->getLoc();
409
410 mlir::Type llvmI8 = typeConverter->convertType(rewriter.getI8Type());
411 auto ptrType = LLVM::LLVMPointerType::get(rewriter.getContext());
412 mlir::Type llvmI32 = typeConverter->convertType(rewriter.getI32Type());
413 mlir::Type llvmI64 = typeConverter->convertType(rewriter.getI64Type());
414
415 Operation *moduleOp = gpuPrintfOp->getParentWithTrait<OpTrait::SymbolTable>();
416 if (!moduleOp)
417 return rewriter.notifyMatchFailure(gpuPrintfOp,
418 "Couldn't find a parent module");
419
420 auto ocklBegin =
421 getOrDefineFunction(moduleOp, loc, rewriter, "__ockl_printf_begin",
422 LLVM::LLVMFunctionType::get(llvmI64, {llvmI64}));
423 LLVM::LLVMFuncOp ocklAppendArgs;
424 if (!adaptor.getArgs().empty()) {
425 ocklAppendArgs = getOrDefineFunction(
426 moduleOp, loc, rewriter, "__ockl_printf_append_args",
427 LLVM::LLVMFunctionType::get(
428 llvmI64, {llvmI64, /*numArgs*/ llvmI32, llvmI64, llvmI64, llvmI64,
429 llvmI64, llvmI64, llvmI64, llvmI64, /*isLast*/ llvmI32}));
430 }
431 auto ocklAppendStringN = getOrDefineFunction(
432 moduleOp, loc, rewriter, "__ockl_printf_append_string_n",
433 LLVM::LLVMFunctionType::get(
434 llvmI64,
435 {llvmI64, ptrType, /*length (bytes)*/ llvmI64, /*isLast*/ llvmI32}));
436
437 /// Start the printf hostcall
438 Value zeroI64 = LLVM::ConstantOp::create(rewriter, loc, llvmI64, 0);
439 auto printfBeginCall =
440 LLVM::CallOp::create(rewriter, loc, ocklBegin, zeroI64);
441 Value printfDesc = printfBeginCall.getResult();
442
443 // Create the global op or find an existing one.
444 LLVM::GlobalOp global = getOrCreateStringConstant(
445 rewriter, loc, moduleOp, llvmI8, "printfFormat_", adaptor.getFormat());
446
447 // Get a pointer to the format string's first element and pass it to printf()
448 Value globalPtr = LLVM::AddressOfOp::create(
449 rewriter, loc,
450 LLVM::LLVMPointerType::get(rewriter.getContext(), global.getAddrSpace()),
451 global.getSymNameAttr());
452 Value stringStart =
453 LLVM::GEPOp::create(rewriter, loc, ptrType, global.getGlobalType(),
454 globalPtr, ArrayRef<LLVM::GEPArg>{0, 0});
455 Value stringLen = LLVM::ConstantOp::create(
456 rewriter, loc, llvmI64, cast<StringAttr>(global.getValueAttr()).size());
457
458 Value oneI32 = LLVM::ConstantOp::create(rewriter, loc, llvmI32, 1);
459 Value zeroI32 = LLVM::ConstantOp::create(rewriter, loc, llvmI32, 0);
460
461 auto appendFormatCall = LLVM::CallOp::create(
462 rewriter, loc, ocklAppendStringN,
463 ValueRange{printfDesc, stringStart, stringLen,
464 adaptor.getArgs().empty() ? oneI32 : zeroI32});
465 printfDesc = appendFormatCall.getResult();
466
467 // __ockl_printf_append_args takes 7 values per append call
468 constexpr size_t argsPerAppend = 7;
469 size_t nArgs = adaptor.getArgs().size();
470 for (size_t group = 0; group < nArgs; group += argsPerAppend) {
471 size_t bound = std::min(group + argsPerAppend, nArgs);
472 size_t numArgsThisCall = bound - group;
473
474 SmallVector<mlir::Value, 2 + argsPerAppend + 1> arguments;
475 arguments.push_back(printfDesc);
476 arguments.push_back(
477 LLVM::ConstantOp::create(rewriter, loc, llvmI32, numArgsThisCall));
478 for (size_t i = group; i < bound; ++i) {
479 Value arg = adaptor.getArgs()[i];
480 if (auto floatType = dyn_cast<FloatType>(arg.getType())) {
481 if (!floatType.isF64())
482 arg = LLVM::FPExtOp::create(
483 rewriter, loc, typeConverter->convertType(rewriter.getF64Type()),
484 arg);
485 arg = LLVM::BitcastOp::create(rewriter, loc, llvmI64, arg);
486 }
487 if (arg.getType().getIntOrFloatBitWidth() != 64)
488 arg = LLVM::ZExtOp::create(rewriter, loc, llvmI64, arg);
489
490 arguments.push_back(arg);
491 }
492 // Pad out to 7 arguments since the hostcall always needs 7
493 for (size_t extra = numArgsThisCall; extra < argsPerAppend; ++extra) {
494 arguments.push_back(zeroI64);
495 }
496
497 auto isLast = (bound == nArgs) ? oneI32 : zeroI32;
498 arguments.push_back(isLast);
499 auto call = LLVM::CallOp::create(rewriter, loc, ocklAppendArgs, arguments);
500 printfDesc = call.getResult();
501 }
502 rewriter.eraseOp(gpuPrintfOp);
503 return success();
504}
505
506LogicalResult GPUPrintfOpToLLVMCallLowering::matchAndRewrite(
507 gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor,
508 ConversionPatternRewriter &rewriter) const {
509 Location loc = gpuPrintfOp->getLoc();
510
511 mlir::Type llvmI8 = typeConverter->convertType(rewriter.getIntegerType(8));
512 mlir::Type ptrType =
513 LLVM::LLVMPointerType::get(rewriter.getContext(), addressSpace);
514
515 Operation *moduleOp = gpuPrintfOp->getParentWithTrait<OpTrait::SymbolTable>();
516 if (!moduleOp)
517 return rewriter.notifyMatchFailure(gpuPrintfOp,
518 "Couldn't find a parent module");
519
520 auto printfType =
521 LLVM::LLVMFunctionType::get(rewriter.getI32Type(), {ptrType},
522 /*isVarArg=*/true);
523 LLVM::LLVMFuncOp printfDecl =
524 getOrDefineFunction(moduleOp, loc, rewriter, funcName, printfType);
525 printfDecl.setCConv(callingConvention);
526
527 // Create the global op or find an existing one.
528 LLVM::GlobalOp global = getOrCreateStringConstant(
529 rewriter, loc, moduleOp, llvmI8, "printfFormat_", adaptor.getFormat(),
530 /*alignment=*/0, addressSpace);
531
532 // Get a pointer to the format string's first element
533 Value globalPtr = LLVM::AddressOfOp::create(
534 rewriter, loc,
535 LLVM::LLVMPointerType::get(rewriter.getContext(), global.getAddrSpace()),
536 global.getSymNameAttr());
537 Value stringStart =
538 LLVM::GEPOp::create(rewriter, loc, ptrType, global.getGlobalType(),
539 globalPtr, ArrayRef<LLVM::GEPArg>{0, 0});
540
541 // Construct arguments and function call
542 auto argsRange = adaptor.getArgs();
543 SmallVector<Value, 4> printfArgs;
544 printfArgs.reserve(argsRange.size() + 1);
545 printfArgs.push_back(stringStart);
546 printfArgs.append(argsRange.begin(), argsRange.end());
547
548 auto call = LLVM::CallOp::create(rewriter, loc, printfDecl, printfArgs);
549 call.setCConv(callingConvention);
550 rewriter.eraseOp(gpuPrintfOp);
551 return success();
552}
553
554LogicalResult GPUPrintfOpToVPrintfLowering::matchAndRewrite(
555 gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor,
556 ConversionPatternRewriter &rewriter) const {
557 Location loc = gpuPrintfOp->getLoc();
558
559 mlir::Type llvmI8 = typeConverter->convertType(rewriter.getIntegerType(8));
560 mlir::Type ptrType = LLVM::LLVMPointerType::get(rewriter.getContext());
561
562 Operation *moduleOp = gpuPrintfOp->getParentWithTrait<OpTrait::SymbolTable>();
563 if (!moduleOp)
564 return rewriter.notifyMatchFailure(gpuPrintfOp,
565 "Couldn't find a parent module");
566
567 // Create a valid global location removing any metadata attached to the
568 // location as debug info metadata inside of a function cannot be used outside
569 // of that function.
570 Location globalLoc = loc->findInstanceOfOrUnknown<FileLineColLoc>();
571
572 auto vprintfType =
573 LLVM::LLVMFunctionType::get(rewriter.getI32Type(), {ptrType, ptrType});
574 LLVM::LLVMFuncOp vprintfDecl = getOrDefineFunction(
575 moduleOp, globalLoc, rewriter, "vprintf", vprintfType);
576
577 // Create the global op or find an existing one.
578 LLVM::GlobalOp global =
579 getOrCreateStringConstant(rewriter, globalLoc, moduleOp, llvmI8,
580 "printfFormat_", adaptor.getFormat());
581
582 // Get a pointer to the format string's first element
583 Value globalPtr = LLVM::AddressOfOp::create(rewriter, loc, global);
584 Value stringStart =
585 LLVM::GEPOp::create(rewriter, loc, ptrType, global.getGlobalType(),
586 globalPtr, ArrayRef<LLVM::GEPArg>{0, 0});
587 SmallVector<Type> types;
588 SmallVector<Value> args;
589 // Promote and pack the arguments into a stack allocation.
590 for (Value arg : adaptor.getArgs()) {
591 Type type = arg.getType();
592 Value promotedArg = arg;
593 assert(type.isIntOrFloat());
594 if (isa<FloatType>(type)) {
595 type = rewriter.getF64Type();
596 promotedArg = LLVM::FPExtOp::create(rewriter, loc, type, arg);
597 }
598 types.push_back(type);
599 args.push_back(promotedArg);
600 }
601 Type structType =
602 LLVM::LLVMStructType::getLiteral(gpuPrintfOp.getContext(), types);
603 Value one = LLVM::ConstantOp::create(rewriter, loc, rewriter.getI64Type(),
604 rewriter.getIndexAttr(1));
605 Value tempAlloc =
606 LLVM::AllocaOp::create(rewriter, loc, ptrType, structType, one,
607 /*alignment=*/0);
608 for (auto [index, arg] : llvm::enumerate(args)) {
609 Value ptr = LLVM::GEPOp::create(
610 rewriter, loc, ptrType, structType, tempAlloc,
611 ArrayRef<LLVM::GEPArg>{0, static_cast<int32_t>(index)});
612 LLVM::StoreOp::create(rewriter, loc, arg, ptr);
613 }
614 std::array<Value, 2> printfArgs = {stringStart, tempAlloc};
615
616 LLVM::CallOp::create(rewriter, loc, vprintfDecl, printfArgs);
617 rewriter.eraseOp(gpuPrintfOp);
618 return success();
619}
620
621/// Helper for impl::scalarizeVectorOp. Scalarizes vectors to elements.
622/// Used either directly (for ops on 1D vectors) or as the callback passed to
623/// detail::handleMultidimensionalVectors (for ops on higher-rank vectors).
624static Value scalarizeVectorOpHelper(Operation *op, ValueRange operands,
625 Type llvm1DVectorTy,
626 ConversionPatternRewriter &rewriter,
627 const LLVMTypeConverter &converter) {
628 TypeRange operandTypes(operands);
629 VectorType vectorType = cast<VectorType>(llvm1DVectorTy);
630 Location loc = op->getLoc();
631 Value result = LLVM::PoisonOp::create(rewriter, loc, vectorType);
632 Type indexType = converter.convertType(rewriter.getIndexType());
633 StringAttr name = op->getName().getIdentifier();
634 Type elementType = vectorType.getElementType();
635
636 for (int64_t i = 0; i < vectorType.getNumElements(); ++i) {
637 Value index = LLVM::ConstantOp::create(rewriter, loc, indexType, i);
638 auto extractElement = [&](Value operand) -> Value {
639 if (!isa<VectorType>(operand.getType()))
640 return operand;
641 return LLVM::ExtractElementOp::create(rewriter, loc, operand, index);
642 };
643 auto scalarOperands = llvm::map_to_vector(operands, extractElement);
644 Operation *scalarOp =
645 rewriter.create(loc, name, scalarOperands, elementType, op->getAttrs());
646 result = LLVM::InsertElementOp::create(rewriter, loc, result,
647 scalarOp->getResult(0), index);
648 }
649 return result;
650}
651
652/// Unrolls op to array/vector elements.
653LogicalResult impl::scalarizeVectorOp(Operation *op, ValueRange operands,
654 ConversionPatternRewriter &rewriter,
655 const LLVMTypeConverter &converter) {
656 TypeRange operandTypes(operands);
657 if (llvm::any_of(operandTypes, llvm::IsaPred<VectorType>)) {
658 VectorType vectorType =
659 cast<VectorType>(converter.convertType(op->getResultTypes()[0]));
660 rewriter.replaceOp(op, scalarizeVectorOpHelper(op, operands, vectorType,
661 rewriter, converter));
662 return success();
663 }
664
665 if (llvm::any_of(operandTypes, llvm::IsaPred<LLVM::LLVMArrayType>)) {
666 return LLVM::detail::handleMultidimensionalVectors(
667 op, operands, converter,
668 [&](Type llvm1DVectorTy, ValueRange operands) -> Value {
669 return scalarizeVectorOpHelper(op, operands, llvm1DVectorTy, rewriter,
670 converter);
671 },
672 rewriter);
673 }
674
675 return rewriter.notifyMatchFailure(op, "no llvm.array or vector to unroll");
676}
677
678static IntegerAttr wrapNumericMemorySpace(MLIRContext *ctx, unsigned space) {
679 return IntegerAttr::get(IntegerType::get(ctx, 64), space);
680}
681
682/// Generates a symbol with 0-sized array type for dynamic shared memory usage,
683/// or uses existing symbol.
684static LLVM::GlobalOp getDynamicSharedMemorySymbol(
685 ConversionPatternRewriter &rewriter, gpu::GPUModuleOp moduleOp,
686 gpu::DynamicSharedMemoryOp op, const LLVMTypeConverter *typeConverter,
687 MemRefType memrefType, unsigned alignmentBit) {
688 uint64_t alignmentByte = alignmentBit / memrefType.getElementTypeBitWidth();
689
690 FailureOr<unsigned> addressSpace =
691 typeConverter->getMemRefAddressSpace(memrefType);
692 if (failed(addressSpace)) {
693 op->emitError() << "conversion of memref memory space "
694 << memrefType.getMemorySpace()
695 << " to integer address space "
696 "failed. Consider adding memory space conversions.";
697 }
698
699 // Step 1. Collect symbol names of LLVM::GlobalOp Ops. Also if any of
700 // LLVM::GlobalOp is suitable for shared memory, return it.
701 llvm::StringSet<> existingGlobalNames;
702 for (auto globalOp : moduleOp.getBody()->getOps<LLVM::GlobalOp>()) {
703 existingGlobalNames.insert(globalOp.getSymName());
704 if (auto arrayType = dyn_cast<LLVM::LLVMArrayType>(globalOp.getType())) {
705 if (globalOp.getAddrSpace() == addressSpace.value() &&
706 arrayType.getNumElements() == 0 &&
707 globalOp.getAlignment().value_or(0) == alignmentByte) {
708 return globalOp;
709 }
710 }
711 }
712
713 // Step 2. Find a unique symbol name
714 unsigned uniquingCounter = 0;
715 SmallString<128> symName = SymbolTable::generateSymbolName<128>(
716 "__dynamic_shmem_",
717 [&](StringRef candidate) {
718 return existingGlobalNames.contains(candidate);
719 },
720 uniquingCounter);
721
722 // Step 3. Generate a global op
723 OpBuilder::InsertionGuard guard(rewriter);
724 rewriter.setInsertionPointToStart(moduleOp.getBody());
725
726 auto zeroSizedArrayType = LLVM::LLVMArrayType::get(
727 typeConverter->convertType(memrefType.getElementType()), 0);
728
729 return LLVM::GlobalOp::create(rewriter, op->getLoc(), zeroSizedArrayType,
730 /*isConstant=*/false, LLVM::Linkage::Internal,
731 symName, /*value=*/Attribute(), alignmentByte,
732 addressSpace.value());
733}
734
735LogicalResult GPUDynamicSharedMemoryOpLowering::matchAndRewrite(
736 gpu::DynamicSharedMemoryOp op, OpAdaptor adaptor,
737 ConversionPatternRewriter &rewriter) const {
738 Location loc = op.getLoc();
739 MemRefType memrefType = op.getResultMemref().getType();
740 Type elementType = typeConverter->convertType(memrefType.getElementType());
741
742 // Step 1: Generate a memref<0xi8> type
743 MemRefLayoutAttrInterface layout = {};
744 auto memrefType0sz =
745 MemRefType::get({0}, elementType, layout, memrefType.getMemorySpace());
746
747 // Step 2: Generate a global symbol or existing for the dynamic shared
748 // memory with memref<0xi8> type
749 auto moduleOp = op->getParentOfType<gpu::GPUModuleOp>();
750 LLVM::GlobalOp shmemOp = getDynamicSharedMemorySymbol(
751 rewriter, moduleOp, op, getTypeConverter(), memrefType0sz, alignmentBit);
752
753 // Step 3. Get address of the global symbol
754 OpBuilder::InsertionGuard guard(rewriter);
755 rewriter.setInsertionPoint(op);
756 auto basePtr = LLVM::AddressOfOp::create(rewriter, loc, shmemOp);
757 Type baseType = basePtr->getResultTypes().front();
758
759 // Step 4. Generate GEP using offsets
760 SmallVector<LLVM::GEPArg> gepArgs = {0};
761 Value shmemPtr = LLVM::GEPOp::create(rewriter, loc, baseType, elementType,
762 basePtr, gepArgs);
763 // Step 5. Create a memref descriptor
764 SmallVector<Value> shape, strides;
765 Value sizeBytes;
766 getMemRefDescriptorSizes(loc, memrefType0sz, {}, rewriter, shape, strides,
767 sizeBytes);
768 auto memRefDescriptor = this->createMemRefDescriptor(
769 loc, memrefType0sz, shmemPtr, shmemPtr, shape, strides, rewriter);
770
771 // Step 5. Replace the op with memref descriptor
772 rewriter.replaceOp(op, {memRefDescriptor});
773 return success();
774}
775
776LogicalResult GPUReturnOpLowering::matchAndRewrite(
777 gpu::ReturnOp op, OpAdaptor adaptor,
778 ConversionPatternRewriter &rewriter) const {
779 Location loc = op.getLoc();
780 unsigned numArguments = op.getNumOperands();
781 SmallVector<Value, 4> updatedOperands;
782
783 bool useBarePtrCallConv = getTypeConverter()->getOptions().useBarePtrCallConv;
784 if (useBarePtrCallConv) {
785 // For the bare-ptr calling convention, extract the aligned pointer to
786 // be returned from the memref descriptor.
787 for (auto it : llvm::zip(op->getOperands(), adaptor.getOperands())) {
788 Type oldTy = std::get<0>(it).getType();
789 Value newOperand = std::get<1>(it);
790 if (isa<MemRefType>(oldTy) && getTypeConverter()->canConvertToBarePtr(
791 cast<BaseMemRefType>(oldTy))) {
792 MemRefDescriptor memrefDesc(newOperand);
793 newOperand = memrefDesc.allocatedPtr(rewriter, loc);
794 } else if (isa<UnrankedMemRefType>(oldTy)) {
795 // Unranked memref is not supported in the bare pointer calling
796 // convention.
797 return failure();
798 }
799 updatedOperands.push_back(newOperand);
800 }
801 } else {
802 updatedOperands = llvm::to_vector<4>(adaptor.getOperands());
803 (void)copyUnrankedDescriptors(rewriter, loc, op.getOperands().getTypes(),
804 updatedOperands,
805 /*toDynamic=*/true);
806 }
807
808 // If ReturnOp has 0 or 1 operand, create it and return immediately.
809 if (numArguments <= 1) {
810 rewriter.replaceOpWithNewOp<LLVM::ReturnOp>(
811 op, TypeRange(), updatedOperands, op->getAttrs());
812 return success();
813 }
814
815 // Otherwise, we need to pack the arguments into an LLVM struct type before
816 // returning.
817 auto packedType = getTypeConverter()->packFunctionResults(
818 op.getOperandTypes(), useBarePtrCallConv);
819 if (!packedType) {
820 return rewriter.notifyMatchFailure(op, "could not convert result types");
821 }
822
823 Value packed = LLVM::PoisonOp::create(rewriter, loc, packedType);
824 for (auto [idx, operand] : llvm::enumerate(updatedOperands)) {
825 packed = LLVM::InsertValueOp::create(rewriter, loc, packed, operand, idx);
826 }
827 rewriter.replaceOpWithNewOp<LLVM::ReturnOp>(op, TypeRange(), packed,
828 op->getAttrs());
829 return success();
830}
831
832void mlir::populateGpuMemorySpaceAttributeConversions(
833 TypeConverter &typeConverter, const MemorySpaceMapping &mapping) {
834 typeConverter.addTypeAttributeConversion(
835 [mapping](BaseMemRefType type, gpu::AddressSpaceAttr memorySpaceAttr) {
836 gpu::AddressSpace memorySpace = memorySpaceAttr.getValue();
837 unsigned addressSpace = mapping(memorySpace);
838 return wrapNumericMemorySpace(memorySpaceAttr.getContext(),
839 addressSpace);
840 });
841}
success
return success()
getUniqueSymbolName
static SmallString< 16 > getUniqueSymbolName(Operation *moduleOp, StringRef prefix)
Definition GPUOpsLowering.cpp:40
getDynamicSharedMemorySymbol
static LLVM::GlobalOp getDynamicSharedMemorySymbol(ConversionPatternRewriter &rewriter, gpu::GPUModuleOp moduleOp, gpu::DynamicSharedMemoryOp op, const LLVMTypeConverter *typeConverter, MemRefType memrefType, unsigned alignmentBit)
Generates a symbol with 0-sized array type for dynamic shared memory usage, or uses existing symbol.
Definition GPUOpsLowering.cpp:684
wrapNumericMemorySpace
static IntegerAttr wrapNumericMemorySpace(MLIRContext *ctx, unsigned space)
Definition GPUOpsLowering.cpp:678
scalarizeVectorOpHelper
static Value scalarizeVectorOpHelper(Operation *op, ValueRange operands, Type llvm1DVectorTy, ConversionPatternRewriter &rewriter, const LLVMTypeConverter &converter)
Helper for impl::scalarizeVectorOp.
Definition GPUOpsLowering.cpp:624
b
b
Return true if permutation is a valid permutation of the outer_dims_perm (case OuterOrInnerPerm::Oute...
Definition LinalgTransformOps.cpp:2101
inserted
*if copies could not be generated due to yet unimplemented cases *copyInPlacementStart and copyOutPlacementStart in copyPlacementBlock *specify the insertion points where the incoming copies and outgoing should be inserted(the insertion happens right before the *insertion point). Since `begin` can itself be invalidated due to the memref *rewriting done from this method
diag
static std::string diag(const llvm::Value &value)
Definition ModuleImport.cpp:57
int64_t
mlir::Attribute
Attributes are known-constant values of operations.
Definition Attributes.h:25
mlir::BaseMemRefType
This class provides a shared interface for ranked and unranked memref types.
Definition BuiltinTypes.h:104
mlir::BlockArgument
This class represents an argument of a Block.
Definition Value.h:306
mlir::Builder::getUnitAttr
UnitAttr getUnitAttr()
Definition Builders.cpp:102
mlir::Builder::getStringAttr
StringAttr getStringAttr(const Twine &bytes)
Definition Builders.cpp:266
mlir::Builder::getContext
MLIRContext * getContext() const
Definition Builders.h:56
mlir::ConvertOpToLLVMPattern< gpu::GPUFuncOp >::OpAdaptor
typename gpu::GPUFuncOp::Adaptor OpAdaptor
Definition Pattern.h:229
mlir::ConvertToLLVMPattern::createMemRefDescriptor
MemRefDescriptor createMemRefDescriptor(Location loc, MemRefType memRefType, Value allocatedPtr, Value alignedPtr, ArrayRef< Value > sizes, ArrayRef< Value > strides, ConversionPatternRewriter &rewriter) const
Creates and populates a canonical memref descriptor struct.
Definition Pattern.cpp:202
mlir::ConvertToLLVMPattern::getMemRefDescriptorSizes
void getMemRefDescriptorSizes(Location loc, MemRefType memRefType, ValueRange dynamicSizes, ConversionPatternRewriter &rewriter, SmallVectorImpl< Value > &sizes, SmallVectorImpl< Value > &strides, Value &size, bool sizeInBytes=true) const
Computes sizes, strides and buffer size of memRefType with identity layout.
Definition Pattern.cpp:90
mlir::ConvertToLLVMPattern::getTypeConverter
const LLVMTypeConverter * getTypeConverter() const
Definition Pattern.cpp:29
mlir::ConvertToLLVMPattern::getDialect
LLVM::LLVMDialect & getDialect() const
Returns the LLVM dialect.
Definition Pattern.cpp:34
mlir::ConvertToLLVMPattern::copyUnrankedDescriptors
LogicalResult copyUnrankedDescriptors(OpBuilder &builder, Location loc, TypeRange origTypes, SmallVectorImpl< Value > &operands, bool toDynamic) const
Copies the memory descriptor for any operands that were unranked descriptors originally to heap-alloc...
Definition Pattern.cpp:290
mlir::Diagnostic
This class contains all of the information necessary to report a diagnostic to the DiagnosticEngine.
Definition Diagnostics.h:156
mlir::FileLineColLoc
An instance of this location represents a tuple of file, line number, and column number.
Definition Location.h:174
mlir::LLVMTypeConverter
Conversion from types to the LLVM IR dialect.
Definition TypeConverter.h:35
mlir::LLVMTypeConverter::packFunctionResults
Type packFunctionResults(TypeRange types, bool useBarePointerCallConv=false, SmallVector< SmallVector< Type > > *groupedTypes=nullptr, int64_t *numConvertedTypes=nullptr) const
Convert a non-empty list of types to be returned from a function into an LLVM-compatible type.
Definition TypeConverter.cpp:702
mlir::LLVMTypeConverter::convertFunctionSignature
Type convertFunctionSignature(FunctionType funcTy, bool isVariadic, bool useBarePtrCallConv, SignatureConversion &result) const
Convert a function type.
mlir::LLVMTypeConverter::getOptions
const LowerToLLVMOptions & getOptions() const
Definition TypeConverter.h:107
mlir::LLVMTypeConverter::getMemRefAddressSpace
FailureOr< unsigned > getMemRefAddressSpace(BaseMemRefType type) const
Return the LLVM address space corresponding to the memory space of the memref type type or failure if...
Definition TypeConverter.cpp:575
mlir::LocationAttr::findInstanceOfOrUnknown
LocationAttr findInstanceOfOrUnknown()
Return an instance of the given location type if one is nested under the current location else return...
Definition Location.h:60
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::MemRefDescriptor
Helper class to produce LLVM dialect operations extracting or inserting elements of a MemRef descript...
Definition MemRefBuilder.h:33
mlir::MemRefDescriptor::fromStaticShape
static MemRefDescriptor fromStaticShape(OpBuilder &builder, Location loc, const LLVMTypeConverter &typeConverter, MemRefType type, Value memory)
Builds IR creating a MemRef descriptor that represents type and populates it with static shape and st...
Definition MemRefBuilder.cpp:43
mlir::MemRefDescriptor::allocatedPtr
Value allocatedPtr(OpBuilder &builder, Location loc)
Builds IR extracting the allocated pointer from the descriptor.
Definition MemRefBuilder.cpp:77
mlir::NamedAttrList
NamedAttrList is array of NamedAttributes that tracks whether it is sorted and does some basic work t...
Definition OperationSupport.h:816
mlir::NamedAttrList::erase
Attribute erase(StringAttr name)
Erase the attribute with the given name from the list.
Definition OperationSupport.cpp:141
mlir::NamedAttrList::append
void append(StringRef name, Attribute attr)
Add an attribute with the specified name.
Definition OperationSupport.h:841
mlir::OpBuilder::InsertionGuard
RAII guard to reset the insertion point of the builder when destroyed.
Definition Builders.h:350
mlir::OpBuilder
This class helps build Operations.
Definition Builders.h:209
mlir::OpTrait::SymbolTable
A trait used to provide symbol table functionalities to a region operation.
Definition SymbolTable.h:452
mlir::OperationName::getIdentifier
StringAttr getIdentifier() const
Return the name of this operation as a StringAttr.
Definition OperationSupport.h:500
mlir::Operation
Operation is the basic unit of execution within MLIR.
Definition Operation.h:88
mlir::Operation::getRegion
Region & getRegion(unsigned index)
Returns the region held by this operation at position 'index'.
Definition Operation.h:712
mlir::Operation::getAttrs
ArrayRef< NamedAttribute > getAttrs()
Return all of the attributes on this operation.
Definition Operation.h:538
mlir::Operation::getResult
OpResult getResult(unsigned idx)
Get the 'idx'th result of this operation.
Definition Operation.h:433
mlir::Operation::getParentWithTrait
Operation * getParentWithTrait()
Returns the closest surrounding parent operation with trait Trait.
Definition Operation.h:274
mlir::Operation::getLoc
Location getLoc()
The source location the operation was defined or derived from.
Definition Operation.h:241
mlir::Operation::getName
OperationName getName()
The name of an operation is the key identifier for it.
Definition Operation.h:116
mlir::Operation::getResultTypes
result_type_range getResultTypes()
Definition Operation.h:454
mlir::Region::front
Block & front()
Definition Region.h:65
mlir::Region::getOps
iterator_range< OpIterator > getOps()
Definition Region.h:172
mlir::SymbolTable::generateSymbolName
static SmallString< N > generateSymbolName(StringRef name, UniqueChecker uniqueChecker, unsigned &uniquingCounter)
Generate a unique symbol name.
Definition SymbolTable.h:110
mlir::SymbolTable::lookupSymbolIn
static Operation * lookupSymbolIn(Operation *op, StringAttr symbol)
Returns the operation registered with the given symbol name with the regions of 'symbolTableOp'.
Definition SymbolTable.cpp:387
mlir::TypeRange
This class provides an abstraction over the various different ranges of value types.
Definition TypeRange.h:40
mlir::Type
Instances of the Type class are uniqued, have an immutable identifier and an optional mutable compone...
Definition Types.h:74
mlir::Type::isIntOrFloat
bool isIntOrFloat() const
Return true if this is an integer (of any signedness) or a float type.
Definition Types.cpp:118
mlir::Type::getIntOrFloatBitWidth
unsigned getIntOrFloatBitWidth() const
Return the bit width of an integer or a float type, assert failure on other types.
Definition Types.cpp:124
mlir::ValueRange
This class provides an abstraction over the different types of ranges over Values.
Definition ValueRange.h:389
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::LLVM::detail::handleMultidimensionalVectors
LogicalResult handleMultidimensionalVectors(Operation *op, ValueRange operands, const LLVMTypeConverter &typeConverter, std::function< Value(Type, ValueRange)> createOperand, ConversionPatternRewriter &rewriter)
Definition VectorPattern.cpp:80
mlir::impl::scalarizeVectorOp
LogicalResult scalarizeVectorOp(Operation *op, ValueRange operands, ConversionPatternRewriter &rewriter, const LLVMTypeConverter &converter)
Unrolls op to array/vector elements.
Definition GPUOpsLowering.cpp:653
mlir
Include the generated interface declarations.
Definition AliasAnalysis.h:19
mlir::emitWarning
InFlightDiagnostic emitWarning(Location loc)
Utility method to emit a warning message using this location.
Definition Diagnostics.cpp:338
mlir::lowerDiscardableAttrsForLLVMFunc
FailureOr< LoweredLLVMFuncAttrs > lowerDiscardableAttrsForLLVMFunc(FunctionOpInterface funcOp, Type llvmFuncType)
Partition funcOp's discardables for llvm.func: sym_name, function_type, and typed properties from llv...
Definition LowerFunctionDiscardablesToLLVM.cpp:18
mlir::getOrDefineFunction
LLVM::LLVMFuncOp getOrDefineFunction(Operation *moduleOp, Location loc, OpBuilder &b, StringRef name, LLVM::LLVMFunctionType type)
Note that these functions don't take a SymbolTable because GPU module lowerings can have name collisi...
Definition GPUOpsLowering.cpp:27
mlir::MemorySpaceMapping
std::function< unsigned(gpu::AddressSpace)> MemorySpaceMapping
A function that maps a MemorySpace enum to a target-specific integer value.
Definition GPUCommonPass.h:70
mlir::DenseI32ArrayAttr
detail::DenseArrayAttrImpl< int32_t > DenseI32ArrayAttr
Definition BuiltinAttributes.h:762
mlir::populateGpuMemorySpaceAttributeConversions
void populateGpuMemorySpaceAttributeConversions(TypeConverter &typeConverter, const MemorySpaceMapping &mapping)
Populates memory space attribute conversion rules for lowering gpu.address_space to integer values.
Definition GPUOpsLowering.cpp:832
mlir::getOrCreateStringConstant
LLVM::GlobalOp getOrCreateStringConstant(OpBuilder &b, Location loc, Operation *moduleOp, Type llvmI8, StringRef namePrefix, StringRef str, uint64_t alignment=0, unsigned addrSpace=0)
Create a global that contains the given string.
Definition GPUOpsLowering.cpp:52
mlir::GPUDynamicSharedMemoryOpLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::DynamicSharedMemoryOp op, OpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:735
mlir::GPUFuncOpLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::GPUFuncOp gpuFuncOp, OpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:131
mlir::GPUFuncOpLowering::buildLoweredGPULLVMFuncAttrs
FailureOr< LoweredLLVMFuncAttrs > buildLoweredGPULLVMFuncAttrs(gpu::GPUFuncOp gpuFuncOp, Type llvmFuncType, OpBuilder &rewriter) const
Lower discardable attrs like func lowering, then set llvm.func properties and append GPU / target-spe...
Definition GPUOpsLowering.cpp:81
mlir::GPUPrintfOpToHIPLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:405
mlir::GPUPrintfOpToLLVMCallLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:506
mlir::GPUPrintfOpToVPrintfLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::PrintfOp gpuPrintfOp, gpu::PrintfOpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:554
mlir::GPUReturnOpLowering::matchAndRewrite
LogicalResult matchAndRewrite(gpu::ReturnOp op, OpAdaptor adaptor, ConversionPatternRewriter &rewriter) const override
Definition GPUOpsLowering.cpp:776
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