1cde4d5a6SJacques Pienaar //===- ModuleTranslation.cpp - MLIR to LLVM conversion --------------------===//
25d7231d8SStephan Herhut //
330857107SMehdi Amini // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
456222a06SMehdi Amini // See https://llvm.org/LICENSE.txt for license information.
556222a06SMehdi Amini // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
65d7231d8SStephan Herhut //
756222a06SMehdi Amini //===----------------------------------------------------------------------===//
85d7231d8SStephan Herhut //
95d7231d8SStephan Herhut // This file implements the translation between an MLIR LLVM dialect module and
105d7231d8SStephan Herhut // the corresponding LLVMIR module. It only handles core LLVM IR operations.
115d7231d8SStephan Herhut //
125d7231d8SStephan Herhut //===----------------------------------------------------------------------===//
135d7231d8SStephan Herhut 
145d7231d8SStephan Herhut #include "mlir/Target/LLVMIR/ModuleTranslation.h"
155d7231d8SStephan Herhut 
16c33d6970SRiver Riddle #include "DebugTranslation.h"
17ba0fa925SRiver Riddle #include "mlir/Dialect/LLVMIR/LLVMDialect.h"
1892a295ebSKiran Chandramohan #include "mlir/Dialect/OpenMP/OpenMPDialect.h"
195d7231d8SStephan Herhut #include "mlir/IR/Attributes.h"
205d7231d8SStephan Herhut #include "mlir/IR/Module.h"
21a4a42160SAlex Zinenko #include "mlir/IR/StandardTypes.h"
225d7231d8SStephan Herhut #include "mlir/Support/LLVM.h"
23*ec1f4e7cSAlex Zinenko #include "mlir/Target/LLVMIR/TypeTranslation.h"
24ebf190fcSRiver Riddle #include "llvm/ADT/TypeSwitch.h"
255d7231d8SStephan Herhut 
265d7231d8SStephan Herhut #include "llvm/ADT/SetVector.h"
2792a295ebSKiran Chandramohan #include "llvm/Frontend/OpenMP/OMPIRBuilder.h"
285d7231d8SStephan Herhut #include "llvm/IR/BasicBlock.h"
29d9067dcaSKiran Chandramohan #include "llvm/IR/CFG.h"
305d7231d8SStephan Herhut #include "llvm/IR/Constants.h"
315d7231d8SStephan Herhut #include "llvm/IR/DerivedTypes.h"
325d7231d8SStephan Herhut #include "llvm/IR/IRBuilder.h"
335d7231d8SStephan Herhut #include "llvm/IR/LLVMContext.h"
3499d03f03SGeorge Mitenkov #include "llvm/IR/MDBuilder.h"
355d7231d8SStephan Herhut #include "llvm/IR/Module.h"
36d9067dcaSKiran Chandramohan #include "llvm/Transforms/Utils/BasicBlockUtils.h"
375d7231d8SStephan Herhut #include "llvm/Transforms/Utils/Cloning.h"
385d7231d8SStephan Herhut 
392666b973SRiver Riddle using namespace mlir;
402666b973SRiver Riddle using namespace mlir::LLVM;
41c33d6970SRiver Riddle using namespace mlir::LLVM::detail;
425d7231d8SStephan Herhut 
43eb67bd78SAlex Zinenko #include "mlir/Dialect/LLVMIR/LLVMConversionEnumsToLLVM.inc"
44eb67bd78SAlex Zinenko 
45a922e231SAlex Zinenko /// Builds a constant of a sequential LLVM type `type`, potentially containing
46a922e231SAlex Zinenko /// other sequential types recursively, from the individual constant values
47a922e231SAlex Zinenko /// provided in `constants`. `shape` contains the number of elements in nested
48a922e231SAlex Zinenko /// sequential types. Reports errors at `loc` and returns nullptr on error.
49a4a42160SAlex Zinenko static llvm::Constant *
50a4a42160SAlex Zinenko buildSequentialConstant(ArrayRef<llvm::Constant *> &constants,
51a4a42160SAlex Zinenko                         ArrayRef<int64_t> shape, llvm::Type *type,
52a4a42160SAlex Zinenko                         Location loc) {
53a4a42160SAlex Zinenko   if (shape.empty()) {
54a4a42160SAlex Zinenko     llvm::Constant *result = constants.front();
55a4a42160SAlex Zinenko     constants = constants.drop_front();
56a4a42160SAlex Zinenko     return result;
57a4a42160SAlex Zinenko   }
58a4a42160SAlex Zinenko 
5968b03aeeSEli Friedman   llvm::Type *elementType;
6068b03aeeSEli Friedman   if (auto *arrayTy = dyn_cast<llvm::ArrayType>(type)) {
6168b03aeeSEli Friedman     elementType = arrayTy->getElementType();
6268b03aeeSEli Friedman   } else if (auto *vectorTy = dyn_cast<llvm::VectorType>(type)) {
6368b03aeeSEli Friedman     elementType = vectorTy->getElementType();
6468b03aeeSEli Friedman   } else {
65a4a42160SAlex Zinenko     emitError(loc) << "expected sequential LLVM types wrapping a scalar";
66a4a42160SAlex Zinenko     return nullptr;
67a4a42160SAlex Zinenko   }
68a4a42160SAlex Zinenko 
69a4a42160SAlex Zinenko   SmallVector<llvm::Constant *, 8> nested;
70a4a42160SAlex Zinenko   nested.reserve(shape.front());
71a4a42160SAlex Zinenko   for (int64_t i = 0; i < shape.front(); ++i) {
72a4a42160SAlex Zinenko     nested.push_back(buildSequentialConstant(constants, shape.drop_front(),
73a4a42160SAlex Zinenko                                              elementType, loc));
74a4a42160SAlex Zinenko     if (!nested.back())
75a4a42160SAlex Zinenko       return nullptr;
76a4a42160SAlex Zinenko   }
77a4a42160SAlex Zinenko 
78a4a42160SAlex Zinenko   if (shape.size() == 1 && type->isVectorTy())
79a4a42160SAlex Zinenko     return llvm::ConstantVector::get(nested);
80a4a42160SAlex Zinenko   return llvm::ConstantArray::get(
81a4a42160SAlex Zinenko       llvm::ArrayType::get(elementType, shape.front()), nested);
82a4a42160SAlex Zinenko }
83a4a42160SAlex Zinenko 
84fc817b09SKazuaki Ishizaki /// Returns the first non-sequential type nested in sequential types.
85a4a42160SAlex Zinenko static llvm::Type *getInnermostElementType(llvm::Type *type) {
8668b03aeeSEli Friedman   do {
8768b03aeeSEli Friedman     if (auto *arrayTy = dyn_cast<llvm::ArrayType>(type)) {
8868b03aeeSEli Friedman       type = arrayTy->getElementType();
8968b03aeeSEli Friedman     } else if (auto *vectorTy = dyn_cast<llvm::VectorType>(type)) {
9068b03aeeSEli Friedman       type = vectorTy->getElementType();
9168b03aeeSEli Friedman     } else {
92a4a42160SAlex Zinenko       return type;
93a4a42160SAlex Zinenko     }
9468b03aeeSEli Friedman   } while (1);
9568b03aeeSEli Friedman }
96a4a42160SAlex Zinenko 
972666b973SRiver Riddle /// Create an LLVM IR constant of `llvmType` from the MLIR attribute `attr`.
982666b973SRiver Riddle /// This currently supports integer, floating point, splat and dense element
992666b973SRiver Riddle /// attributes and combinations thereof.  In case of error, report it to `loc`
1002666b973SRiver Riddle /// and return nullptr.
1015d7231d8SStephan Herhut llvm::Constant *ModuleTranslation::getLLVMConstant(llvm::Type *llvmType,
1025d7231d8SStephan Herhut                                                    Attribute attr,
1035d7231d8SStephan Herhut                                                    Location loc) {
10433a3a91bSChristian Sigg   if (!attr)
10533a3a91bSChristian Sigg     return llvm::UndefValue::get(llvmType);
106a4a42160SAlex Zinenko   if (llvmType->isStructTy()) {
107a4a42160SAlex Zinenko     emitError(loc, "struct types are not supported in constants");
108a4a42160SAlex Zinenko     return nullptr;
109a4a42160SAlex Zinenko   }
110ac9d742bSStephan Herhut   // For integer types, we allow a mismatch in sizes as the index type in
111ac9d742bSStephan Herhut   // MLIR might have a different size than the index type in the LLVM module.
1125d7231d8SStephan Herhut   if (auto intAttr = attr.dyn_cast<IntegerAttr>())
113ac9d742bSStephan Herhut     return llvm::ConstantInt::get(
114ac9d742bSStephan Herhut         llvmType,
115ac9d742bSStephan Herhut         intAttr.getValue().sextOrTrunc(llvmType->getIntegerBitWidth()));
1165d7231d8SStephan Herhut   if (auto floatAttr = attr.dyn_cast<FloatAttr>())
1175d7231d8SStephan Herhut     return llvm::ConstantFP::get(llvmType, floatAttr.getValue());
1189b9c647cSRiver Riddle   if (auto funcAttr = attr.dyn_cast<FlatSymbolRefAttr>())
119ff77397fSShraiysh Vaishay     return llvm::ConstantExpr::getBitCast(
120ff77397fSShraiysh Vaishay         functionMapping.lookup(funcAttr.getValue()), llvmType);
1215d7231d8SStephan Herhut   if (auto splatAttr = attr.dyn_cast<SplatElementsAttr>()) {
12268b03aeeSEli Friedman     llvm::Type *elementType;
12368b03aeeSEli Friedman     uint64_t numElements;
12468b03aeeSEli Friedman     if (auto *arrayTy = dyn_cast<llvm::ArrayType>(llvmType)) {
12568b03aeeSEli Friedman       elementType = arrayTy->getElementType();
12668b03aeeSEli Friedman       numElements = arrayTy->getNumElements();
12768b03aeeSEli Friedman     } else {
1285cba1c63SChristopher Tetreault       auto *vectorTy = cast<llvm::FixedVectorType>(llvmType);
12968b03aeeSEli Friedman       elementType = vectorTy->getElementType();
13068b03aeeSEli Friedman       numElements = vectorTy->getNumElements();
13168b03aeeSEli Friedman     }
132d6ea8ff0SAlex Zinenko     // Splat value is a scalar. Extract it only if the element type is not
133d6ea8ff0SAlex Zinenko     // another sequence type. The recursion terminates because each step removes
134d6ea8ff0SAlex Zinenko     // one outer sequential type.
13568b03aeeSEli Friedman     bool elementTypeSequential =
136d891d738SRahul Joshi         isa<llvm::ArrayType, llvm::VectorType>(elementType);
137d6ea8ff0SAlex Zinenko     llvm::Constant *child = getLLVMConstant(
138d6ea8ff0SAlex Zinenko         elementType,
13968b03aeeSEli Friedman         elementTypeSequential ? splatAttr : splatAttr.getSplatValue(), loc);
140a4a42160SAlex Zinenko     if (!child)
141a4a42160SAlex Zinenko       return nullptr;
1422f13df13SMLIR Team     if (llvmType->isVectorTy())
143396a42d9SRiver Riddle       return llvm::ConstantVector::getSplat(
144396a42d9SRiver Riddle           llvm::ElementCount(numElements, /*Scalable=*/false), child);
1452f13df13SMLIR Team     if (llvmType->isArrayTy()) {
146ac9d742bSStephan Herhut       auto *arrayType = llvm::ArrayType::get(elementType, numElements);
1472f13df13SMLIR Team       SmallVector<llvm::Constant *, 8> constants(numElements, child);
1482f13df13SMLIR Team       return llvm::ConstantArray::get(arrayType, constants);
1492f13df13SMLIR Team     }
1505d7231d8SStephan Herhut   }
151a4a42160SAlex Zinenko 
152d906f84bSRiver Riddle   if (auto elementsAttr = attr.dyn_cast<ElementsAttr>()) {
153a4a42160SAlex Zinenko     assert(elementsAttr.getType().hasStaticShape());
154a4a42160SAlex Zinenko     assert(elementsAttr.getNumElements() != 0 &&
155a4a42160SAlex Zinenko            "unexpected empty elements attribute");
156a4a42160SAlex Zinenko     assert(!elementsAttr.getType().getShape().empty() &&
157a4a42160SAlex Zinenko            "unexpected empty elements attribute shape");
158a4a42160SAlex Zinenko 
1595d7231d8SStephan Herhut     SmallVector<llvm::Constant *, 8> constants;
160a4a42160SAlex Zinenko     constants.reserve(elementsAttr.getNumElements());
161a4a42160SAlex Zinenko     llvm::Type *innermostType = getInnermostElementType(llvmType);
162d906f84bSRiver Riddle     for (auto n : elementsAttr.getValues<Attribute>()) {
163a4a42160SAlex Zinenko       constants.push_back(getLLVMConstant(innermostType, n, loc));
1645d7231d8SStephan Herhut       if (!constants.back())
1655d7231d8SStephan Herhut         return nullptr;
1665d7231d8SStephan Herhut     }
167a4a42160SAlex Zinenko     ArrayRef<llvm::Constant *> constantsRef = constants;
168a4a42160SAlex Zinenko     llvm::Constant *result = buildSequentialConstant(
169a4a42160SAlex Zinenko         constantsRef, elementsAttr.getType().getShape(), llvmType, loc);
170a4a42160SAlex Zinenko     assert(constantsRef.empty() && "did not consume all elemental constants");
171a4a42160SAlex Zinenko     return result;
1722f13df13SMLIR Team   }
173a4a42160SAlex Zinenko 
174cb348dffSStephan Herhut   if (auto stringAttr = attr.dyn_cast<StringAttr>()) {
175cb348dffSStephan Herhut     return llvm::ConstantDataArray::get(
176cb348dffSStephan Herhut         llvmModule->getContext(), ArrayRef<char>{stringAttr.getValue().data(),
177cb348dffSStephan Herhut                                                  stringAttr.getValue().size()});
178cb348dffSStephan Herhut   }
179a4c3a645SRiver Riddle   emitError(loc, "unsupported constant value");
1805d7231d8SStephan Herhut   return nullptr;
1815d7231d8SStephan Herhut }
1825d7231d8SStephan Herhut 
1832666b973SRiver Riddle /// Convert MLIR integer comparison predicate to LLVM IR comparison predicate.
184ec82e1c9SAlex Zinenko static llvm::CmpInst::Predicate getLLVMCmpPredicate(ICmpPredicate p) {
1855d7231d8SStephan Herhut   switch (p) {
186ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::eq:
1875d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_EQ;
188ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::ne:
1895d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_NE;
190ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::slt:
1915d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_SLT;
192ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::sle:
1935d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_SLE;
194ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::sgt:
1955d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_SGT;
196ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::sge:
1975d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_SGE;
198ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::ult:
1995d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_ULT;
200ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::ule:
2015d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_ULE;
202ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::ugt:
2035d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_UGT;
204ec82e1c9SAlex Zinenko   case LLVM::ICmpPredicate::uge:
2055d7231d8SStephan Herhut     return llvm::CmpInst::Predicate::ICMP_UGE;
2065d7231d8SStephan Herhut   }
207e6365f3dSJacques Pienaar   llvm_unreachable("incorrect comparison predicate");
2085d7231d8SStephan Herhut }
2095d7231d8SStephan Herhut 
21048fdc8d7SNagy Mostafa static llvm::CmpInst::Predicate getLLVMCmpPredicate(FCmpPredicate p) {
21148fdc8d7SNagy Mostafa   switch (p) {
21248fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::_false:
21348fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_FALSE;
21448fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::oeq:
21548fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_OEQ;
21648fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ogt:
21748fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_OGT;
21848fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::oge:
21948fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_OGE;
22048fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::olt:
22148fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_OLT;
22248fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ole:
22348fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_OLE;
22448fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::one:
22548fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_ONE;
22648fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ord:
22748fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_ORD;
22848fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ueq:
22948fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_UEQ;
23048fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ugt:
23148fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_UGT;
23248fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::uge:
23348fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_UGE;
23448fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ult:
23548fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_ULT;
23648fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::ule:
23748fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_ULE;
23848fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::une:
23948fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_UNE;
24048fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::uno:
24148fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_UNO;
24248fdc8d7SNagy Mostafa   case LLVM::FCmpPredicate::_true:
24348fdc8d7SNagy Mostafa     return llvm::CmpInst::Predicate::FCMP_TRUE;
24448fdc8d7SNagy Mostafa   }
245e6365f3dSJacques Pienaar   llvm_unreachable("incorrect comparison predicate");
24648fdc8d7SNagy Mostafa }
24748fdc8d7SNagy Mostafa 
24860a0c612SFrank Laub static llvm::AtomicRMWInst::BinOp getLLVMAtomicBinOp(AtomicBinOp op) {
24960a0c612SFrank Laub   switch (op) {
25060a0c612SFrank Laub   case LLVM::AtomicBinOp::xchg:
25160a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Xchg;
25260a0c612SFrank Laub   case LLVM::AtomicBinOp::add:
25360a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Add;
25460a0c612SFrank Laub   case LLVM::AtomicBinOp::sub:
25560a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Sub;
25660a0c612SFrank Laub   case LLVM::AtomicBinOp::_and:
25760a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::And;
25860a0c612SFrank Laub   case LLVM::AtomicBinOp::nand:
25960a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Nand;
26060a0c612SFrank Laub   case LLVM::AtomicBinOp::_or:
26160a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Or;
26260a0c612SFrank Laub   case LLVM::AtomicBinOp::_xor:
26360a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Xor;
26460a0c612SFrank Laub   case LLVM::AtomicBinOp::max:
26560a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Max;
26660a0c612SFrank Laub   case LLVM::AtomicBinOp::min:
26760a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::Min;
26860a0c612SFrank Laub   case LLVM::AtomicBinOp::umax:
26960a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::UMax;
27060a0c612SFrank Laub   case LLVM::AtomicBinOp::umin:
27160a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::UMin;
27260a0c612SFrank Laub   case LLVM::AtomicBinOp::fadd:
27360a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::FAdd;
27460a0c612SFrank Laub   case LLVM::AtomicBinOp::fsub:
27560a0c612SFrank Laub     return llvm::AtomicRMWInst::BinOp::FSub;
27660a0c612SFrank Laub   }
27760a0c612SFrank Laub   llvm_unreachable("incorrect atomic binary operator");
27860a0c612SFrank Laub }
27960a0c612SFrank Laub 
28060a0c612SFrank Laub static llvm::AtomicOrdering getLLVMAtomicOrdering(AtomicOrdering ordering) {
28160a0c612SFrank Laub   switch (ordering) {
28260a0c612SFrank Laub   case LLVM::AtomicOrdering::not_atomic:
28360a0c612SFrank Laub     return llvm::AtomicOrdering::NotAtomic;
28460a0c612SFrank Laub   case LLVM::AtomicOrdering::unordered:
28560a0c612SFrank Laub     return llvm::AtomicOrdering::Unordered;
28660a0c612SFrank Laub   case LLVM::AtomicOrdering::monotonic:
28760a0c612SFrank Laub     return llvm::AtomicOrdering::Monotonic;
28860a0c612SFrank Laub   case LLVM::AtomicOrdering::acquire:
28960a0c612SFrank Laub     return llvm::AtomicOrdering::Acquire;
29060a0c612SFrank Laub   case LLVM::AtomicOrdering::release:
29160a0c612SFrank Laub     return llvm::AtomicOrdering::Release;
29260a0c612SFrank Laub   case LLVM::AtomicOrdering::acq_rel:
29360a0c612SFrank Laub     return llvm::AtomicOrdering::AcquireRelease;
29460a0c612SFrank Laub   case LLVM::AtomicOrdering::seq_cst:
29560a0c612SFrank Laub     return llvm::AtomicOrdering::SequentiallyConsistent;
29660a0c612SFrank Laub   }
29760a0c612SFrank Laub   llvm_unreachable("incorrect atomic ordering");
29860a0c612SFrank Laub }
29960a0c612SFrank Laub 
300c33d6970SRiver Riddle ModuleTranslation::ModuleTranslation(Operation *module,
301c33d6970SRiver Riddle                                      std::unique_ptr<llvm::Module> llvmModule)
302c33d6970SRiver Riddle     : mlirModule(module), llvmModule(std::move(llvmModule)),
303c33d6970SRiver Riddle       debugTranslation(
30492a295ebSKiran Chandramohan           std::make_unique<DebugTranslation>(module, *this->llvmModule)),
30592a295ebSKiran Chandramohan       ompDialect(
30669040d5bSStephan Herhut           module->getContext()->getRegisteredDialect<omp::OpenMPDialect>()),
30769040d5bSStephan Herhut       llvmDialect(module->getContext()->getRegisteredDialect<LLVMDialect>()) {
308c33d6970SRiver Riddle   assert(satisfiesLLVMModule(mlirModule) &&
309c33d6970SRiver Riddle          "mlirModule should honor LLVM's module semantics.");
310c33d6970SRiver Riddle }
311d9067dcaSKiran Chandramohan ModuleTranslation::~ModuleTranslation() {
312d9067dcaSKiran Chandramohan   if (ompBuilder)
313d9067dcaSKiran Chandramohan     ompBuilder->finalize();
314d9067dcaSKiran Chandramohan }
315d9067dcaSKiran Chandramohan 
316d9067dcaSKiran Chandramohan /// Get the SSA value passed to the current block from the terminator operation
317d9067dcaSKiran Chandramohan /// of its predecessor.
318d9067dcaSKiran Chandramohan static Value getPHISourceValue(Block *current, Block *pred,
319d9067dcaSKiran Chandramohan                                unsigned numArguments, unsigned index) {
320d9067dcaSKiran Chandramohan   Operation &terminator = *pred->getTerminator();
321d9067dcaSKiran Chandramohan   if (isa<LLVM::BrOp>(terminator))
322d9067dcaSKiran Chandramohan     return terminator.getOperand(index);
323d9067dcaSKiran Chandramohan 
324d9067dcaSKiran Chandramohan   // For conditional branches, we need to check if the current block is reached
325d9067dcaSKiran Chandramohan   // through the "true" or the "false" branch and take the relevant operands.
326d9067dcaSKiran Chandramohan   auto condBranchOp = dyn_cast<LLVM::CondBrOp>(terminator);
327d9067dcaSKiran Chandramohan   assert(condBranchOp &&
328d9067dcaSKiran Chandramohan          "only branch operations can be terminators of a block that "
329d9067dcaSKiran Chandramohan          "has successors");
330d9067dcaSKiran Chandramohan   assert((condBranchOp.getSuccessor(0) != condBranchOp.getSuccessor(1)) &&
331d9067dcaSKiran Chandramohan          "successors with arguments in LLVM conditional branches must be "
332d9067dcaSKiran Chandramohan          "different blocks");
333d9067dcaSKiran Chandramohan 
334d9067dcaSKiran Chandramohan   return condBranchOp.getSuccessor(0) == current
335d9067dcaSKiran Chandramohan              ? condBranchOp.trueDestOperands()[index]
336d9067dcaSKiran Chandramohan              : condBranchOp.falseDestOperands()[index];
337d9067dcaSKiran Chandramohan }
338d9067dcaSKiran Chandramohan 
339d9067dcaSKiran Chandramohan /// Connect the PHI nodes to the results of preceding blocks.
340d9067dcaSKiran Chandramohan template <typename T>
341d9067dcaSKiran Chandramohan static void
342d9067dcaSKiran Chandramohan connectPHINodes(T &func, const DenseMap<Value, llvm::Value *> &valueMapping,
343d9067dcaSKiran Chandramohan                 const DenseMap<Block *, llvm::BasicBlock *> &blockMapping) {
344d9067dcaSKiran Chandramohan   // Skip the first block, it cannot be branched to and its arguments correspond
345d9067dcaSKiran Chandramohan   // to the arguments of the LLVM function.
346d9067dcaSKiran Chandramohan   for (auto it = std::next(func.begin()), eit = func.end(); it != eit; ++it) {
347d9067dcaSKiran Chandramohan     Block *bb = &*it;
348d9067dcaSKiran Chandramohan     llvm::BasicBlock *llvmBB = blockMapping.lookup(bb);
349d9067dcaSKiran Chandramohan     auto phis = llvmBB->phis();
350d9067dcaSKiran Chandramohan     auto numArguments = bb->getNumArguments();
351d9067dcaSKiran Chandramohan     assert(numArguments == std::distance(phis.begin(), phis.end()));
352d9067dcaSKiran Chandramohan     for (auto &numberedPhiNode : llvm::enumerate(phis)) {
353d9067dcaSKiran Chandramohan       auto &phiNode = numberedPhiNode.value();
354d9067dcaSKiran Chandramohan       unsigned index = numberedPhiNode.index();
355d9067dcaSKiran Chandramohan       for (auto *pred : bb->getPredecessors()) {
356d9067dcaSKiran Chandramohan         phiNode.addIncoming(valueMapping.lookup(getPHISourceValue(
357d9067dcaSKiran Chandramohan                                 bb, pred, numArguments, index)),
358d9067dcaSKiran Chandramohan                             blockMapping.lookup(pred));
359d9067dcaSKiran Chandramohan       }
360d9067dcaSKiran Chandramohan     }
361d9067dcaSKiran Chandramohan   }
362d9067dcaSKiran Chandramohan }
363d9067dcaSKiran Chandramohan 
364d9067dcaSKiran Chandramohan // TODO: implement an iterative version
365d9067dcaSKiran Chandramohan static void topologicalSortImpl(llvm::SetVector<Block *> &blocks, Block *b) {
366d9067dcaSKiran Chandramohan   blocks.insert(b);
367d9067dcaSKiran Chandramohan   for (Block *bb : b->getSuccessors()) {
368d9067dcaSKiran Chandramohan     if (blocks.count(bb) == 0)
369d9067dcaSKiran Chandramohan       topologicalSortImpl(blocks, bb);
370d9067dcaSKiran Chandramohan   }
371d9067dcaSKiran Chandramohan }
372d9067dcaSKiran Chandramohan 
373d9067dcaSKiran Chandramohan /// Sort function blocks topologically.
374d9067dcaSKiran Chandramohan template <typename T>
375d9067dcaSKiran Chandramohan static llvm::SetVector<Block *> topologicalSort(T &f) {
376d9067dcaSKiran Chandramohan   // For each blocks that has not been visited yet (i.e. that has no
377d9067dcaSKiran Chandramohan   // predecessors), add it to the list and traverse its successors in DFS
378d9067dcaSKiran Chandramohan   // preorder.
379d9067dcaSKiran Chandramohan   llvm::SetVector<Block *> blocks;
380d9067dcaSKiran Chandramohan   for (Block &b : f) {
381d9067dcaSKiran Chandramohan     if (blocks.count(&b) == 0)
382d9067dcaSKiran Chandramohan       topologicalSortImpl(blocks, &b);
383d9067dcaSKiran Chandramohan   }
384d9067dcaSKiran Chandramohan   assert(blocks.size() == f.getBlocks().size() && "some blocks are not sorted");
385d9067dcaSKiran Chandramohan 
386d9067dcaSKiran Chandramohan   return blocks;
387d9067dcaSKiran Chandramohan }
388d9067dcaSKiran Chandramohan 
389d9067dcaSKiran Chandramohan /// Convert the OpenMP parallel Operation to LLVM IR.
390d9067dcaSKiran Chandramohan LogicalResult
391d9067dcaSKiran Chandramohan ModuleTranslation::convertOmpParallel(Operation &opInst,
392d9067dcaSKiran Chandramohan                                       llvm::IRBuilder<> &builder) {
393d9067dcaSKiran Chandramohan   using InsertPointTy = llvm::OpenMPIRBuilder::InsertPointTy;
394d9067dcaSKiran Chandramohan 
395d9067dcaSKiran Chandramohan   auto bodyGenCB = [&](InsertPointTy allocaIP, InsertPointTy codeGenIP,
396d9067dcaSKiran Chandramohan                        llvm::BasicBlock &continuationIP) {
397d9067dcaSKiran Chandramohan     llvm::LLVMContext &llvmContext = llvmModule->getContext();
398d9067dcaSKiran Chandramohan 
399d9067dcaSKiran Chandramohan     llvm::BasicBlock *codeGenIPBB = codeGenIP.getBlock();
400d9067dcaSKiran Chandramohan     llvm::Instruction *codeGenIPBBTI = codeGenIPBB->getTerminator();
401d9067dcaSKiran Chandramohan 
402d9067dcaSKiran Chandramohan     builder.SetInsertPoint(codeGenIPBB);
403793c29a2SSourabh Singh Tomar     // ParallelOp has only `1` region associated with it.
404793c29a2SSourabh Singh Tomar     auto &region = cast<omp::ParallelOp>(opInst).getRegion();
405d9067dcaSKiran Chandramohan     for (auto &bb : region) {
406d9067dcaSKiran Chandramohan       auto *llvmBB = llvm::BasicBlock::Create(
407d9067dcaSKiran Chandramohan           llvmContext, "omp.par.region", codeGenIP.getBlock()->getParent());
408d9067dcaSKiran Chandramohan       blockMapping[&bb] = llvmBB;
409d9067dcaSKiran Chandramohan     }
410d9067dcaSKiran Chandramohan 
411d9067dcaSKiran Chandramohan       // Then, convert blocks one by one in topological order to ensure
412d9067dcaSKiran Chandramohan       // defs are converted before uses.
413d9067dcaSKiran Chandramohan       llvm::SetVector<Block *> blocks = topologicalSort(region);
414d9067dcaSKiran Chandramohan       for (auto indexedBB : llvm::enumerate(blocks)) {
415d9067dcaSKiran Chandramohan         Block *bb = indexedBB.value();
416d9067dcaSKiran Chandramohan         llvm::BasicBlock *curLLVMBB = blockMapping[bb];
417d9067dcaSKiran Chandramohan         if (bb->isEntryBlock())
418d9067dcaSKiran Chandramohan           codeGenIPBBTI->setSuccessor(0, curLLVMBB);
419d9067dcaSKiran Chandramohan 
420d9067dcaSKiran Chandramohan         // TODO: Error not returned up the hierarchy
421d9067dcaSKiran Chandramohan         if (failed(
422d9067dcaSKiran Chandramohan                 convertBlock(*bb, /*ignoreArguments=*/indexedBB.index() == 0)))
423d9067dcaSKiran Chandramohan           return;
424d9067dcaSKiran Chandramohan 
425d9067dcaSKiran Chandramohan         // If this block has the terminator then add a jump to
426d9067dcaSKiran Chandramohan         // continuation bb
427d9067dcaSKiran Chandramohan         for (auto &op : *bb) {
428d9067dcaSKiran Chandramohan           if (isa<omp::TerminatorOp>(op)) {
429d9067dcaSKiran Chandramohan             builder.SetInsertPoint(curLLVMBB);
430d9067dcaSKiran Chandramohan             builder.CreateBr(&continuationIP);
431d9067dcaSKiran Chandramohan           }
432d9067dcaSKiran Chandramohan         }
433d9067dcaSKiran Chandramohan       }
434d9067dcaSKiran Chandramohan       // Finally, after all blocks have been traversed and values mapped,
435d9067dcaSKiran Chandramohan       // connect the PHI nodes to the results of preceding blocks.
436d9067dcaSKiran Chandramohan       connectPHINodes(region, valueMapping, blockMapping);
437d9067dcaSKiran Chandramohan   };
438d9067dcaSKiran Chandramohan 
439d9067dcaSKiran Chandramohan   // TODO: Perform appropriate actions according to the data-sharing
440d9067dcaSKiran Chandramohan   // attribute (shared, private, firstprivate, ...) of variables.
441d9067dcaSKiran Chandramohan   // Currently defaults to shared.
442d9067dcaSKiran Chandramohan   auto privCB = [&](InsertPointTy allocaIP, InsertPointTy codeGenIP,
443d9067dcaSKiran Chandramohan                     llvm::Value &vPtr,
444d9067dcaSKiran Chandramohan                     llvm::Value *&replacementValue) -> InsertPointTy {
445d9067dcaSKiran Chandramohan     replacementValue = &vPtr;
446d9067dcaSKiran Chandramohan 
447d9067dcaSKiran Chandramohan     return codeGenIP;
448d9067dcaSKiran Chandramohan   };
449d9067dcaSKiran Chandramohan 
450d9067dcaSKiran Chandramohan   // TODO: Perform finalization actions for variables. This has to be
451d9067dcaSKiran Chandramohan   // called for variables which have destructors/finalizers.
452d9067dcaSKiran Chandramohan   auto finiCB = [&](InsertPointTy codeGenIP) {};
453d9067dcaSKiran Chandramohan 
454d9067dcaSKiran Chandramohan   // TODO: The various operands of parallel operation are not handled.
455d9067dcaSKiran Chandramohan   // Parallel operation is created with some default options for now.
456d9067dcaSKiran Chandramohan   llvm::Value *ifCond = nullptr;
457d9067dcaSKiran Chandramohan   llvm::Value *numThreads = nullptr;
458d9067dcaSKiran Chandramohan   bool isCancellable = false;
4594d83aa47SJohannes Doerfert   // TODO: Determine the actual alloca insertion point, e.g., the function
4604d83aa47SJohannes Doerfert   // entry or the alloca insertion point as provided by the body callback
4614d83aa47SJohannes Doerfert   // above.
4624d83aa47SJohannes Doerfert   llvm::OpenMPIRBuilder::InsertPointTy allocaIP(builder.saveIP());
463d9067dcaSKiran Chandramohan   builder.restoreIP(ompBuilder->CreateParallel(
4644d83aa47SJohannes Doerfert       builder, allocaIP, bodyGenCB, privCB, finiCB, ifCond, numThreads,
465d9067dcaSKiran Chandramohan       llvm::omp::OMP_PROC_BIND_default, isCancellable));
466d9067dcaSKiran Chandramohan   return success();
467d9067dcaSKiran Chandramohan }
468c33d6970SRiver Riddle 
4697ecee63eSKiran Kumar T P /// Given an OpenMP MLIR operation, create the corresponding LLVM IR
4707ecee63eSKiran Kumar T P /// (including OpenMP runtime calls).
4717ecee63eSKiran Kumar T P LogicalResult
4727ecee63eSKiran Kumar T P ModuleTranslation::convertOmpOperation(Operation &opInst,
4737ecee63eSKiran Kumar T P                                        llvm::IRBuilder<> &builder) {
4747ecee63eSKiran Kumar T P   if (!ompBuilder) {
4757ecee63eSKiran Kumar T P     ompBuilder = std::make_unique<llvm::OpenMPIRBuilder>(*llvmModule);
4767ecee63eSKiran Kumar T P     ompBuilder->initialize();
4777ecee63eSKiran Kumar T P   }
478ebf190fcSRiver Riddle   return llvm::TypeSwitch<Operation *, LogicalResult>(&opInst)
4797ecee63eSKiran Kumar T P       .Case([&](omp::BarrierOp) {
4807ecee63eSKiran Kumar T P         ompBuilder->CreateBarrier(builder.saveIP(), llvm::omp::OMPD_barrier);
4817ecee63eSKiran Kumar T P         return success();
4827ecee63eSKiran Kumar T P       })
4837ecee63eSKiran Kumar T P       .Case([&](omp::TaskwaitOp) {
4847ecee63eSKiran Kumar T P         ompBuilder->CreateTaskwait(builder.saveIP());
4857ecee63eSKiran Kumar T P         return success();
4867ecee63eSKiran Kumar T P       })
4877ecee63eSKiran Kumar T P       .Case([&](omp::TaskyieldOp) {
4887ecee63eSKiran Kumar T P         ompBuilder->CreateTaskyield(builder.saveIP());
4897ecee63eSKiran Kumar T P         return success();
4907ecee63eSKiran Kumar T P       })
491fa8fc9ffSKiran Kumar T P       .Case([&](omp::FlushOp) {
492fa8fc9ffSKiran Kumar T P         // No support in Openmp runtime funciton (__kmpc_flush) to accept
493fa8fc9ffSKiran Kumar T P         // the argument list.
494fa8fc9ffSKiran Kumar T P         // OpenMP standard states the following:
495fa8fc9ffSKiran Kumar T P         //  "An implementation may implement a flush with a list by ignoring
496fa8fc9ffSKiran Kumar T P         //   the list, and treating it the same as a flush without a list."
497fa8fc9ffSKiran Kumar T P         //
498fa8fc9ffSKiran Kumar T P         // The argument list is discarded so that, flush with a list is treated
499fa8fc9ffSKiran Kumar T P         // same as a flush without a list.
500fa8fc9ffSKiran Kumar T P         ompBuilder->CreateFlush(builder.saveIP());
501fa8fc9ffSKiran Kumar T P         return success();
502fa8fc9ffSKiran Kumar T P       })
503d9067dcaSKiran Chandramohan       .Case([&](omp::TerminatorOp) { return success(); })
504d9067dcaSKiran Chandramohan       .Case(
505d9067dcaSKiran Chandramohan           [&](omp::ParallelOp) { return convertOmpParallel(opInst, builder); })
5067ecee63eSKiran Kumar T P       .Default([&](Operation *inst) {
5077ecee63eSKiran Kumar T P         return inst->emitError("unsupported OpenMP operation: ")
5087ecee63eSKiran Kumar T P                << inst->getName();
5097ecee63eSKiran Kumar T P       });
5107ecee63eSKiran Kumar T P }
5117ecee63eSKiran Kumar T P 
5122666b973SRiver Riddle /// Given a single MLIR operation, create the corresponding LLVM IR operation
5132666b973SRiver Riddle /// using the `builder`.  LLVM IR Builder does not have a generic interface so
5142666b973SRiver Riddle /// this has to be a long chain of `if`s calling different functions with a
5152666b973SRiver Riddle /// different number of arguments.
516baa1ec22SAlex Zinenko LogicalResult ModuleTranslation::convertOperation(Operation &opInst,
5175d7231d8SStephan Herhut                                                   llvm::IRBuilder<> &builder) {
5185d7231d8SStephan Herhut   auto extractPosition = [](ArrayAttr attr) {
5195d7231d8SStephan Herhut     SmallVector<unsigned, 4> position;
5205d7231d8SStephan Herhut     position.reserve(attr.size());
5215d7231d8SStephan Herhut     for (Attribute v : attr)
5225d7231d8SStephan Herhut       position.push_back(v.cast<IntegerAttr>().getValue().getZExtValue());
5235d7231d8SStephan Herhut     return position;
5245d7231d8SStephan Herhut   };
5255d7231d8SStephan Herhut 
526ba0fa925SRiver Riddle #include "mlir/Dialect/LLVMIR/LLVMConversions.inc"
5275d7231d8SStephan Herhut 
5285d7231d8SStephan Herhut   // Emit function calls.  If the "callee" attribute is present, this is a
5295d7231d8SStephan Herhut   // direct function call and we also need to look up the remapped function
5305d7231d8SStephan Herhut   // itself.  Otherwise, this is an indirect call and the callee is the first
5315d7231d8SStephan Herhut   // operand, look it up as a normal value.  Return the llvm::Value representing
5325d7231d8SStephan Herhut   // the function result, which may be of llvm::VoidTy type.
5335d7231d8SStephan Herhut   auto convertCall = [this, &builder](Operation &op) -> llvm::Value * {
5345d7231d8SStephan Herhut     auto operands = lookupValues(op.getOperands());
5355d7231d8SStephan Herhut     ArrayRef<llvm::Value *> operandsRef(operands);
5369b9c647cSRiver Riddle     if (auto attr = op.getAttrOfType<FlatSymbolRefAttr>("callee")) {
5375d7231d8SStephan Herhut       return builder.CreateCall(functionMapping.lookup(attr.getValue()),
5385d7231d8SStephan Herhut                                 operandsRef);
5395d7231d8SStephan Herhut     } else {
540133049d0SEli Friedman       auto *calleePtrType =
541133049d0SEli Friedman           cast<llvm::PointerType>(operandsRef.front()->getType());
542133049d0SEli Friedman       auto *calleeType =
543133049d0SEli Friedman           cast<llvm::FunctionType>(calleePtrType->getElementType());
544133049d0SEli Friedman       return builder.CreateCall(calleeType, operandsRef.front(),
545133049d0SEli Friedman                                 operandsRef.drop_front());
5465d7231d8SStephan Herhut     }
5475d7231d8SStephan Herhut   };
5485d7231d8SStephan Herhut 
5495d7231d8SStephan Herhut   // Emit calls.  If the called function has a result, remap the corresponding
5505d7231d8SStephan Herhut   // value.  Note that LLVM IR dialect CallOp has either 0 or 1 result.
551d5b60ee8SRiver Riddle   if (isa<LLVM::CallOp>(opInst)) {
5525d7231d8SStephan Herhut     llvm::Value *result = convertCall(opInst);
5535d7231d8SStephan Herhut     if (opInst.getNumResults() != 0) {
5545d7231d8SStephan Herhut       valueMapping[opInst.getResult(0)] = result;
555baa1ec22SAlex Zinenko       return success();
5565d7231d8SStephan Herhut     }
5575d7231d8SStephan Herhut     // Check that LLVM call returns void for 0-result functions.
558baa1ec22SAlex Zinenko     return success(result->getType()->isVoidTy());
5595d7231d8SStephan Herhut   }
5605d7231d8SStephan Herhut 
561d242aa24SShraiysh Vaishay   if (auto invOp = dyn_cast<LLVM::InvokeOp>(opInst)) {
562d242aa24SShraiysh Vaishay     auto operands = lookupValues(opInst.getOperands());
563d242aa24SShraiysh Vaishay     ArrayRef<llvm::Value *> operandsRef(operands);
564133049d0SEli Friedman     if (auto attr = opInst.getAttrOfType<FlatSymbolRefAttr>("callee")) {
565d242aa24SShraiysh Vaishay       builder.CreateInvoke(functionMapping.lookup(attr.getValue()),
566d242aa24SShraiysh Vaishay                            blockMapping[invOp.getSuccessor(0)],
567d242aa24SShraiysh Vaishay                            blockMapping[invOp.getSuccessor(1)], operandsRef);
568133049d0SEli Friedman     } else {
569133049d0SEli Friedman       auto *calleePtrType =
570133049d0SEli Friedman           cast<llvm::PointerType>(operandsRef.front()->getType());
571133049d0SEli Friedman       auto *calleeType =
572133049d0SEli Friedman           cast<llvm::FunctionType>(calleePtrType->getElementType());
573d242aa24SShraiysh Vaishay       builder.CreateInvoke(
574133049d0SEli Friedman           calleeType, operandsRef.front(), blockMapping[invOp.getSuccessor(0)],
575d242aa24SShraiysh Vaishay           blockMapping[invOp.getSuccessor(1)], operandsRef.drop_front());
576133049d0SEli Friedman     }
577d242aa24SShraiysh Vaishay     return success();
578d242aa24SShraiysh Vaishay   }
579d242aa24SShraiysh Vaishay 
580d242aa24SShraiysh Vaishay   if (auto lpOp = dyn_cast<LLVM::LandingpadOp>(opInst)) {
581aec38c61SAlex Zinenko     llvm::Type *ty = convertType(lpOp.getType().cast<LLVMType>());
582d242aa24SShraiysh Vaishay     llvm::LandingPadInst *lpi =
583d242aa24SShraiysh Vaishay         builder.CreateLandingPad(ty, lpOp.getNumOperands());
584d242aa24SShraiysh Vaishay 
585d242aa24SShraiysh Vaishay     // Add clauses
586d242aa24SShraiysh Vaishay     for (auto operand : lookupValues(lpOp.getOperands())) {
587d242aa24SShraiysh Vaishay       // All operands should be constant - checked by verifier
588d242aa24SShraiysh Vaishay       if (auto constOperand = dyn_cast<llvm::Constant>(operand))
589d242aa24SShraiysh Vaishay         lpi->addClause(constOperand);
590d242aa24SShraiysh Vaishay     }
591ff77397fSShraiysh Vaishay     valueMapping[lpOp.getResult()] = lpi;
592d242aa24SShraiysh Vaishay     return success();
593d242aa24SShraiysh Vaishay   }
594d242aa24SShraiysh Vaishay 
5955d7231d8SStephan Herhut   // Emit branches.  We need to look up the remapped blocks and ignore the block
5965d7231d8SStephan Herhut   // arguments that were transformed into PHI nodes.
597c5ecf991SRiver Riddle   if (auto brOp = dyn_cast<LLVM::BrOp>(opInst)) {
598c0fd5e65SRiver Riddle     builder.CreateBr(blockMapping[brOp.getSuccessor()]);
599baa1ec22SAlex Zinenko     return success();
6005d7231d8SStephan Herhut   }
601c5ecf991SRiver Riddle   if (auto condbrOp = dyn_cast<LLVM::CondBrOp>(opInst)) {
60299d03f03SGeorge Mitenkov     auto weights = condbrOp.branch_weights();
60399d03f03SGeorge Mitenkov     llvm::MDNode *branchWeights = nullptr;
60499d03f03SGeorge Mitenkov     if (weights) {
60599d03f03SGeorge Mitenkov       // Map weight attributes to LLVM metadata.
60699d03f03SGeorge Mitenkov       auto trueWeight =
60799d03f03SGeorge Mitenkov           weights.getValue().getValue(0).cast<IntegerAttr>().getInt();
60899d03f03SGeorge Mitenkov       auto falseWeight =
60999d03f03SGeorge Mitenkov           weights.getValue().getValue(1).cast<IntegerAttr>().getInt();
61099d03f03SGeorge Mitenkov       branchWeights =
61199d03f03SGeorge Mitenkov           llvm::MDBuilder(llvmModule->getContext())
61299d03f03SGeorge Mitenkov               .createBranchWeights(static_cast<uint32_t>(trueWeight),
61399d03f03SGeorge Mitenkov                                    static_cast<uint32_t>(falseWeight));
61499d03f03SGeorge Mitenkov     }
6155d7231d8SStephan Herhut     builder.CreateCondBr(valueMapping.lookup(condbrOp.getOperand(0)),
6165d7231d8SStephan Herhut                          blockMapping[condbrOp.getSuccessor(0)],
61799d03f03SGeorge Mitenkov                          blockMapping[condbrOp.getSuccessor(1)], branchWeights);
618baa1ec22SAlex Zinenko     return success();
6195d7231d8SStephan Herhut   }
6205d7231d8SStephan Herhut 
6212dd38b09SAlex Zinenko   // Emit addressof.  We need to look up the global value referenced by the
6222dd38b09SAlex Zinenko   // operation and store it in the MLIR-to-LLVM value mapping.  This does not
6232dd38b09SAlex Zinenko   // emit any LLVM instruction.
6242dd38b09SAlex Zinenko   if (auto addressOfOp = dyn_cast<LLVM::AddressOfOp>(opInst)) {
6252dd38b09SAlex Zinenko     LLVM::GlobalOp global = addressOfOp.getGlobal();
626cba733edSAlex Zinenko     LLVM::LLVMFuncOp function = addressOfOp.getFunction();
6272dd38b09SAlex Zinenko 
628cba733edSAlex Zinenko     // The verifier should not have allowed this.
629cba733edSAlex Zinenko     assert((global || function) &&
630cba733edSAlex Zinenko            "referencing an undefined global or function");
631cba733edSAlex Zinenko 
632cba733edSAlex Zinenko     valueMapping[addressOfOp.getResult()] =
633cba733edSAlex Zinenko         global ? globalsMapping.lookup(global)
634cba733edSAlex Zinenko                : functionMapping.lookup(function.getName());
6352dd38b09SAlex Zinenko     return success();
6362dd38b09SAlex Zinenko   }
6372dd38b09SAlex Zinenko 
63892a295ebSKiran Chandramohan   if (opInst.getDialect() == ompDialect) {
6397ecee63eSKiran Kumar T P     return convertOmpOperation(opInst, builder);
64092a295ebSKiran Chandramohan   }
64192a295ebSKiran Chandramohan 
642baa1ec22SAlex Zinenko   return opInst.emitError("unsupported or non-LLVM operation: ")
643baa1ec22SAlex Zinenko          << opInst.getName();
6445d7231d8SStephan Herhut }
6455d7231d8SStephan Herhut 
6462666b973SRiver Riddle /// Convert block to LLVM IR.  Unless `ignoreArguments` is set, emit PHI nodes
6472666b973SRiver Riddle /// to define values corresponding to the MLIR block arguments.  These nodes
6482666b973SRiver Riddle /// are not connected to the source basic blocks, which may not exist yet.
649baa1ec22SAlex Zinenko LogicalResult ModuleTranslation::convertBlock(Block &bb, bool ignoreArguments) {
6505d7231d8SStephan Herhut   llvm::IRBuilder<> builder(blockMapping[&bb]);
651c33d6970SRiver Riddle   auto *subprogram = builder.GetInsertBlock()->getParent()->getSubprogram();
6525d7231d8SStephan Herhut 
6535d7231d8SStephan Herhut   // Before traversing operations, make block arguments available through
6545d7231d8SStephan Herhut   // value remapping and PHI nodes, but do not add incoming edges for the PHI
6555d7231d8SStephan Herhut   // nodes just yet: those values may be defined by this or following blocks.
6565d7231d8SStephan Herhut   // This step is omitted if "ignoreArguments" is set.  The arguments of the
6575d7231d8SStephan Herhut   // first block have been already made available through the remapping of
6585d7231d8SStephan Herhut   // LLVM function arguments.
6595d7231d8SStephan Herhut   if (!ignoreArguments) {
6605d7231d8SStephan Herhut     auto predecessors = bb.getPredecessors();
6615d7231d8SStephan Herhut     unsigned numPredecessors =
6625d7231d8SStephan Herhut         std::distance(predecessors.begin(), predecessors.end());
66335807bc4SRiver Riddle     for (auto arg : bb.getArguments()) {
6642bdf33ccSRiver Riddle       auto wrappedType = arg.getType().dyn_cast<LLVM::LLVMType>();
665baa1ec22SAlex Zinenko       if (!wrappedType)
666baa1ec22SAlex Zinenko         return emitError(bb.front().getLoc(),
667a4c3a645SRiver Riddle                          "block argument does not have an LLVM type");
668aec38c61SAlex Zinenko       llvm::Type *type = convertType(wrappedType);
6695d7231d8SStephan Herhut       llvm::PHINode *phi = builder.CreatePHI(type, numPredecessors);
6705d7231d8SStephan Herhut       valueMapping[arg] = phi;
6715d7231d8SStephan Herhut     }
6725d7231d8SStephan Herhut   }
6735d7231d8SStephan Herhut 
6745d7231d8SStephan Herhut   // Traverse operations.
6755d7231d8SStephan Herhut   for (auto &op : bb) {
676c33d6970SRiver Riddle     // Set the current debug location within the builder.
677c33d6970SRiver Riddle     builder.SetCurrentDebugLocation(
678c33d6970SRiver Riddle         debugTranslation->translateLoc(op.getLoc(), subprogram));
679c33d6970SRiver Riddle 
680baa1ec22SAlex Zinenko     if (failed(convertOperation(op, builder)))
681baa1ec22SAlex Zinenko       return failure();
6825d7231d8SStephan Herhut   }
6835d7231d8SStephan Herhut 
684baa1ec22SAlex Zinenko   return success();
6855d7231d8SStephan Herhut }
6865d7231d8SStephan Herhut 
6872666b973SRiver Riddle /// Create named global variables that correspond to llvm.mlir.global
6882666b973SRiver Riddle /// definitions.
689efa2d533SAlex Zinenko LogicalResult ModuleTranslation::convertGlobals() {
69069040d5bSStephan Herhut   // Lock access to the llvm context.
69169040d5bSStephan Herhut   llvm::sys::SmartScopedLock<true> scopedLock(
69269040d5bSStephan Herhut       llvmDialect->getLLVMContextMutex());
69344fc7d72STres Popp   for (auto op : getModuleBody(mlirModule).getOps<LLVM::GlobalOp>()) {
694aec38c61SAlex Zinenko     llvm::Type *type = convertType(op.getType());
695250a11aeSJames Molloy     llvm::Constant *cst = llvm::UndefValue::get(type);
696250a11aeSJames Molloy     if (op.getValueOrNull()) {
69768451df2SAlex Zinenko       // String attributes are treated separately because they cannot appear as
69868451df2SAlex Zinenko       // in-function constants and are thus not supported by getLLVMConstant.
69933a3a91bSChristian Sigg       if (auto strAttr = op.getValueOrNull().dyn_cast_or_null<StringAttr>()) {
7002dd38b09SAlex Zinenko         cst = llvm::ConstantDataArray::getString(
70168451df2SAlex Zinenko             llvmModule->getContext(), strAttr.getValue(), /*AddNull=*/false);
7022dd38b09SAlex Zinenko         type = cst->getType();
703efa2d533SAlex Zinenko       } else if (!(cst = getLLVMConstant(type, op.getValueOrNull(),
704efa2d533SAlex Zinenko                                          op.getLoc()))) {
705efa2d533SAlex Zinenko         return failure();
70668451df2SAlex Zinenko       }
707250a11aeSJames Molloy     } else if (Block *initializer = op.getInitializerBlock()) {
708250a11aeSJames Molloy       llvm::IRBuilder<> builder(llvmModule->getContext());
709250a11aeSJames Molloy       for (auto &op : initializer->without_terminator()) {
710250a11aeSJames Molloy         if (failed(convertOperation(op, builder)) ||
711efa2d533SAlex Zinenko             !isa<llvm::Constant>(valueMapping.lookup(op.getResult(0))))
712efa2d533SAlex Zinenko           return emitError(op.getLoc(), "unemittable constant value");
713250a11aeSJames Molloy       }
714250a11aeSJames Molloy       ReturnOp ret = cast<ReturnOp>(initializer->getTerminator());
715250a11aeSJames Molloy       cst = cast<llvm::Constant>(valueMapping.lookup(ret.getOperand(0)));
716250a11aeSJames Molloy     }
71768451df2SAlex Zinenko 
718eb67bd78SAlex Zinenko     auto linkage = convertLinkageToLLVM(op.linkage());
719d5e627f8SAlex Zinenko     bool anyExternalLinkage =
7207b5d4669SEric Schweitz         ((linkage == llvm::GlobalVariable::ExternalLinkage &&
7217b5d4669SEric Schweitz           isa<llvm::UndefValue>(cst)) ||
722d5e627f8SAlex Zinenko          linkage == llvm::GlobalVariable::ExternalWeakLinkage);
723e79bfefbSMLIR Team     auto addrSpace = op.addr_space().getLimitedValue();
724e79bfefbSMLIR Team     auto *var = new llvm::GlobalVariable(
725d5e627f8SAlex Zinenko         *llvmModule, type, op.constant(), linkage,
726d5e627f8SAlex Zinenko         anyExternalLinkage ? nullptr : cst, op.sym_name(),
727d5e627f8SAlex Zinenko         /*InsertBefore=*/nullptr, llvm::GlobalValue::NotThreadLocal, addrSpace);
728e79bfefbSMLIR Team 
7292dd38b09SAlex Zinenko     globalsMapping.try_emplace(op, var);
730b9ff2dd8SAlex Zinenko   }
731efa2d533SAlex Zinenko 
732efa2d533SAlex Zinenko   return success();
733b9ff2dd8SAlex Zinenko }
734b9ff2dd8SAlex Zinenko 
7350a2131b7SAlex Zinenko /// Attempts to add an attribute identified by `key`, optionally with the given
7360a2131b7SAlex Zinenko /// `value` to LLVM function `llvmFunc`. Reports errors at `loc` if any. If the
7370a2131b7SAlex Zinenko /// attribute has a kind known to LLVM IR, create the attribute of this kind,
7380a2131b7SAlex Zinenko /// otherwise keep it as a string attribute. Performs additional checks for
7390a2131b7SAlex Zinenko /// attributes known to have or not have a value in order to avoid assertions
7400a2131b7SAlex Zinenko /// inside LLVM upon construction.
7410a2131b7SAlex Zinenko static LogicalResult checkedAddLLVMFnAttribute(Location loc,
7420a2131b7SAlex Zinenko                                                llvm::Function *llvmFunc,
7430a2131b7SAlex Zinenko                                                StringRef key,
7440a2131b7SAlex Zinenko                                                StringRef value = StringRef()) {
7450a2131b7SAlex Zinenko   auto kind = llvm::Attribute::getAttrKindFromName(key);
7460a2131b7SAlex Zinenko   if (kind == llvm::Attribute::None) {
7470a2131b7SAlex Zinenko     llvmFunc->addFnAttr(key, value);
7480a2131b7SAlex Zinenko     return success();
7490a2131b7SAlex Zinenko   }
7500a2131b7SAlex Zinenko 
7510a2131b7SAlex Zinenko   if (llvm::Attribute::doesAttrKindHaveArgument(kind)) {
7520a2131b7SAlex Zinenko     if (value.empty())
7530a2131b7SAlex Zinenko       return emitError(loc) << "LLVM attribute '" << key << "' expects a value";
7540a2131b7SAlex Zinenko 
7550a2131b7SAlex Zinenko     int result;
7560a2131b7SAlex Zinenko     if (!value.getAsInteger(/*Radix=*/0, result))
7570a2131b7SAlex Zinenko       llvmFunc->addFnAttr(
7580a2131b7SAlex Zinenko           llvm::Attribute::get(llvmFunc->getContext(), kind, result));
7590a2131b7SAlex Zinenko     else
7600a2131b7SAlex Zinenko       llvmFunc->addFnAttr(key, value);
7610a2131b7SAlex Zinenko     return success();
7620a2131b7SAlex Zinenko   }
7630a2131b7SAlex Zinenko 
7640a2131b7SAlex Zinenko   if (!value.empty())
7650a2131b7SAlex Zinenko     return emitError(loc) << "LLVM attribute '" << key
7660a2131b7SAlex Zinenko                           << "' does not expect a value, found '" << value
7670a2131b7SAlex Zinenko                           << "'";
7680a2131b7SAlex Zinenko 
7690a2131b7SAlex Zinenko   llvmFunc->addFnAttr(kind);
7700a2131b7SAlex Zinenko   return success();
7710a2131b7SAlex Zinenko }
7720a2131b7SAlex Zinenko 
7730a2131b7SAlex Zinenko /// Attaches the attributes listed in the given array attribute to `llvmFunc`.
7740a2131b7SAlex Zinenko /// Reports error to `loc` if any and returns immediately. Expects `attributes`
7750a2131b7SAlex Zinenko /// to be an array attribute containing either string attributes, treated as
7760a2131b7SAlex Zinenko /// value-less LLVM attributes, or array attributes containing two string
7770a2131b7SAlex Zinenko /// attributes, with the first string being the name of the corresponding LLVM
7780a2131b7SAlex Zinenko /// attribute and the second string beings its value. Note that even integer
7790a2131b7SAlex Zinenko /// attributes are expected to have their values expressed as strings.
7800a2131b7SAlex Zinenko static LogicalResult
7810a2131b7SAlex Zinenko forwardPassthroughAttributes(Location loc, Optional<ArrayAttr> attributes,
7820a2131b7SAlex Zinenko                              llvm::Function *llvmFunc) {
7830a2131b7SAlex Zinenko   if (!attributes)
7840a2131b7SAlex Zinenko     return success();
7850a2131b7SAlex Zinenko 
7860a2131b7SAlex Zinenko   for (Attribute attr : *attributes) {
7870a2131b7SAlex Zinenko     if (auto stringAttr = attr.dyn_cast<StringAttr>()) {
7880a2131b7SAlex Zinenko       if (failed(
7890a2131b7SAlex Zinenko               checkedAddLLVMFnAttribute(loc, llvmFunc, stringAttr.getValue())))
7900a2131b7SAlex Zinenko         return failure();
7910a2131b7SAlex Zinenko       continue;
7920a2131b7SAlex Zinenko     }
7930a2131b7SAlex Zinenko 
7940a2131b7SAlex Zinenko     auto arrayAttr = attr.dyn_cast<ArrayAttr>();
7950a2131b7SAlex Zinenko     if (!arrayAttr || arrayAttr.size() != 2)
7960a2131b7SAlex Zinenko       return emitError(loc)
7970a2131b7SAlex Zinenko              << "expected 'passthrough' to contain string or array attributes";
7980a2131b7SAlex Zinenko 
7990a2131b7SAlex Zinenko     auto keyAttr = arrayAttr[0].dyn_cast<StringAttr>();
8000a2131b7SAlex Zinenko     auto valueAttr = arrayAttr[1].dyn_cast<StringAttr>();
8010a2131b7SAlex Zinenko     if (!keyAttr || !valueAttr)
8020a2131b7SAlex Zinenko       return emitError(loc)
8030a2131b7SAlex Zinenko              << "expected arrays within 'passthrough' to contain two strings";
8040a2131b7SAlex Zinenko 
8050a2131b7SAlex Zinenko     if (failed(checkedAddLLVMFnAttribute(loc, llvmFunc, keyAttr.getValue(),
8060a2131b7SAlex Zinenko                                          valueAttr.getValue())))
8070a2131b7SAlex Zinenko       return failure();
8080a2131b7SAlex Zinenko   }
8090a2131b7SAlex Zinenko   return success();
8100a2131b7SAlex Zinenko }
8110a2131b7SAlex Zinenko 
8125e7959a3SAlex Zinenko LogicalResult ModuleTranslation::convertOneFunction(LLVMFuncOp func) {
8135d7231d8SStephan Herhut   // Clear the block and value mappings, they are only relevant within one
8145d7231d8SStephan Herhut   // function.
8155d7231d8SStephan Herhut   blockMapping.clear();
8165d7231d8SStephan Herhut   valueMapping.clear();
817c33862b0SRiver Riddle   llvm::Function *llvmFunc = functionMapping.lookup(func.getName());
818c33d6970SRiver Riddle 
819c33d6970SRiver Riddle   // Translate the debug information for this function.
820c33d6970SRiver Riddle   debugTranslation->translate(func, *llvmFunc);
821c33d6970SRiver Riddle 
8225d7231d8SStephan Herhut   // Add function arguments to the value remapping table.
8235d7231d8SStephan Herhut   // If there was noalias info then we decorate each argument accordingly.
8245d7231d8SStephan Herhut   unsigned int argIdx = 0;
825eeef50b1SFangrui Song   for (auto kvp : llvm::zip(func.getArguments(), llvmFunc->args())) {
8265d7231d8SStephan Herhut     llvm::Argument &llvmArg = std::get<1>(kvp);
827e62a6956SRiver Riddle     BlockArgument mlirArg = std::get<0>(kvp);
8285d7231d8SStephan Herhut 
8295d7231d8SStephan Herhut     if (auto attr = func.getArgAttrOfType<BoolAttr>(argIdx, "llvm.noalias")) {
8305d7231d8SStephan Herhut       // NB: Attribute already verified to be boolean, so check if we can indeed
8315d7231d8SStephan Herhut       // attach the attribute to this argument, based on its type.
8322bdf33ccSRiver Riddle       auto argTy = mlirArg.getType().dyn_cast<LLVM::LLVMType>();
833aec38c61SAlex Zinenko       if (!argTy.isPointerTy())
834baa1ec22SAlex Zinenko         return func.emitError(
8355d7231d8SStephan Herhut             "llvm.noalias attribute attached to LLVM non-pointer argument");
8365d7231d8SStephan Herhut       if (attr.getValue())
8375d7231d8SStephan Herhut         llvmArg.addAttr(llvm::Attribute::AttrKind::NoAlias);
8385d7231d8SStephan Herhut     }
8392416e28cSStephan Herhut 
8402416e28cSStephan Herhut     if (auto attr = func.getArgAttrOfType<IntegerAttr>(argIdx, "llvm.align")) {
8412416e28cSStephan Herhut       // NB: Attribute already verified to be int, so check if we can indeed
8422416e28cSStephan Herhut       // attach the attribute to this argument, based on its type.
8432416e28cSStephan Herhut       auto argTy = mlirArg.getType().dyn_cast<LLVM::LLVMType>();
844aec38c61SAlex Zinenko       if (!argTy.isPointerTy())
8452416e28cSStephan Herhut         return func.emitError(
8462416e28cSStephan Herhut             "llvm.align attribute attached to LLVM non-pointer argument");
8472416e28cSStephan Herhut       llvmArg.addAttrs(
8482416e28cSStephan Herhut           llvm::AttrBuilder().addAlignmentAttr(llvm::Align(attr.getInt())));
8492416e28cSStephan Herhut     }
8502416e28cSStephan Herhut 
8515d7231d8SStephan Herhut     valueMapping[mlirArg] = &llvmArg;
8525d7231d8SStephan Herhut     argIdx++;
8535d7231d8SStephan Herhut   }
8545d7231d8SStephan Herhut 
855ff77397fSShraiysh Vaishay   // Check the personality and set it.
856ff77397fSShraiysh Vaishay   if (func.personality().hasValue()) {
857ff77397fSShraiysh Vaishay     llvm::Type *ty = llvm::Type::getInt8PtrTy(llvmFunc->getContext());
858ff77397fSShraiysh Vaishay     if (llvm::Constant *pfunc =
859ff77397fSShraiysh Vaishay             getLLVMConstant(ty, func.personalityAttr(), func.getLoc()))
860ff77397fSShraiysh Vaishay       llvmFunc->setPersonalityFn(pfunc);
861ff77397fSShraiysh Vaishay   }
862ff77397fSShraiysh Vaishay 
8635d7231d8SStephan Herhut   // First, create all blocks so we can jump to them.
8645d7231d8SStephan Herhut   llvm::LLVMContext &llvmContext = llvmFunc->getContext();
8655d7231d8SStephan Herhut   for (auto &bb : func) {
8665d7231d8SStephan Herhut     auto *llvmBB = llvm::BasicBlock::Create(llvmContext);
8675d7231d8SStephan Herhut     llvmBB->insertInto(llvmFunc);
8685d7231d8SStephan Herhut     blockMapping[&bb] = llvmBB;
8695d7231d8SStephan Herhut   }
8705d7231d8SStephan Herhut 
8715d7231d8SStephan Herhut   // Then, convert blocks one by one in topological order to ensure defs are
8725d7231d8SStephan Herhut   // converted before uses.
8735d7231d8SStephan Herhut   auto blocks = topologicalSort(func);
8745d7231d8SStephan Herhut   for (auto indexedBB : llvm::enumerate(blocks)) {
8755d7231d8SStephan Herhut     auto *bb = indexedBB.value();
876baa1ec22SAlex Zinenko     if (failed(convertBlock(*bb, /*ignoreArguments=*/indexedBB.index() == 0)))
877baa1ec22SAlex Zinenko       return failure();
8785d7231d8SStephan Herhut   }
8795d7231d8SStephan Herhut 
8805d7231d8SStephan Herhut   // Finally, after all blocks have been traversed and values mapped, connect
8815d7231d8SStephan Herhut   // the PHI nodes to the results of preceding blocks.
882d9067dcaSKiran Chandramohan   connectPHINodes(func, valueMapping, blockMapping);
883baa1ec22SAlex Zinenko   return success();
8845d7231d8SStephan Herhut }
8855d7231d8SStephan Herhut 
88644fc7d72STres Popp LogicalResult ModuleTranslation::checkSupportedModuleOps(Operation *m) {
88744fc7d72STres Popp   for (Operation &o : getModuleBody(m).getOperations())
888ee394e68SRahul Joshi     if (!isa<LLVM::LLVMFuncOp, LLVM::GlobalOp>(&o) && !o.isKnownTerminator())
8894dde19f0SAlex Zinenko       return o.emitOpError("unsupported module-level operation");
8904dde19f0SAlex Zinenko   return success();
8914dde19f0SAlex Zinenko }
8924dde19f0SAlex Zinenko 
893a084b94fSSean Silva LogicalResult ModuleTranslation::convertFunctionSignatures() {
89469040d5bSStephan Herhut   // Lock access to the llvm context.
89569040d5bSStephan Herhut   llvm::sys::SmartScopedLock<true> scopedLock(
89669040d5bSStephan Herhut       llvmDialect->getLLVMContextMutex());
897a084b94fSSean Silva 
8985d7231d8SStephan Herhut   // Declare all functions first because there may be function calls that form a
899a084b94fSSean Silva   // call graph with cycles, or global initializers that reference functions.
90044fc7d72STres Popp   for (auto function : getModuleBody(mlirModule).getOps<LLVMFuncOp>()) {
9015e7959a3SAlex Zinenko     llvm::FunctionCallee llvmFuncCst = llvmModule->getOrInsertFunction(
9025e7959a3SAlex Zinenko         function.getName(),
903aec38c61SAlex Zinenko         cast<llvm::FunctionType>(convertType(function.getType())));
9040a2131b7SAlex Zinenko     llvm::Function *llvmFunc = cast<llvm::Function>(llvmFuncCst.getCallee());
905ebbdecddSAlex Zinenko     llvmFunc->setLinkage(convertLinkageToLLVM(function.linkage()));
9060a2131b7SAlex Zinenko     functionMapping[function.getName()] = llvmFunc;
9070a2131b7SAlex Zinenko 
9080a2131b7SAlex Zinenko     // Forward the pass-through attributes to LLVM.
9090a2131b7SAlex Zinenko     if (failed(forwardPassthroughAttributes(function.getLoc(),
9100a2131b7SAlex Zinenko                                             function.passthrough(), llvmFunc)))
9110a2131b7SAlex Zinenko       return failure();
9125d7231d8SStephan Herhut   }
9135d7231d8SStephan Herhut 
914a084b94fSSean Silva   return success();
915a084b94fSSean Silva }
916a084b94fSSean Silva 
917a084b94fSSean Silva LogicalResult ModuleTranslation::convertFunctions() {
918a084b94fSSean Silva   // Lock access to the llvm context.
919a084b94fSSean Silva   llvm::sys::SmartScopedLock<true> scopedLock(
920a084b94fSSean Silva       llvmDialect->getLLVMContextMutex());
921a084b94fSSean Silva 
9225d7231d8SStephan Herhut   // Convert functions.
92344fc7d72STres Popp   for (auto function : getModuleBody(mlirModule).getOps<LLVMFuncOp>()) {
9245d7231d8SStephan Herhut     // Ignore external functions.
9255d7231d8SStephan Herhut     if (function.isExternal())
9265d7231d8SStephan Herhut       continue;
9275d7231d8SStephan Herhut 
928baa1ec22SAlex Zinenko     if (failed(convertOneFunction(function)))
929baa1ec22SAlex Zinenko       return failure();
9305d7231d8SStephan Herhut   }
9315d7231d8SStephan Herhut 
932baa1ec22SAlex Zinenko   return success();
9335d7231d8SStephan Herhut }
9345d7231d8SStephan Herhut 
935aec38c61SAlex Zinenko llvm::Type *ModuleTranslation::convertType(LLVMType type) {
936*ec1f4e7cSAlex Zinenko   // Lock the LLVM context as we create types in it.
937*ec1f4e7cSAlex Zinenko   llvm::sys::SmartScopedLock<true> lock(llvmDialect->getLLVMContextMutex());
938*ec1f4e7cSAlex Zinenko   return LLVM::translateTypeToLLVMIR(type, llvmDialect->getLLVMContext());
939aec38c61SAlex Zinenko }
940aec38c61SAlex Zinenko 
941efadb6b8SAlex Zinenko /// A helper to look up remapped operands in the value remapping table.`
942efadb6b8SAlex Zinenko SmallVector<llvm::Value *, 8>
943efadb6b8SAlex Zinenko ModuleTranslation::lookupValues(ValueRange values) {
944efadb6b8SAlex Zinenko   SmallVector<llvm::Value *, 8> remapped;
945efadb6b8SAlex Zinenko   remapped.reserve(values.size());
946ff77397fSShraiysh Vaishay   for (Value v : values) {
947ff77397fSShraiysh Vaishay     assert(valueMapping.count(v) && "referencing undefined value");
948efadb6b8SAlex Zinenko     remapped.push_back(valueMapping.lookup(v));
949ff77397fSShraiysh Vaishay   }
950efadb6b8SAlex Zinenko   return remapped;
951efadb6b8SAlex Zinenko }
952efadb6b8SAlex Zinenko 
95344fc7d72STres Popp std::unique_ptr<llvm::Module>
95444fc7d72STres Popp ModuleTranslation::prepareLLVMModule(Operation *m) {
95544fc7d72STres Popp   auto *dialect = m->getContext()->getRegisteredDialect<LLVM::LLVMDialect>();
9565d7231d8SStephan Herhut   assert(dialect && "LLVM dialect must be registered");
95769040d5bSStephan Herhut   // Lock the LLVM context as we might create new types here.
95869040d5bSStephan Herhut   llvm::sys::SmartScopedLock<true> scopedLock(dialect->getLLVMContextMutex());
9595d7231d8SStephan Herhut 
960bc5c7378SRiver Riddle   auto llvmModule = llvm::CloneModule(dialect->getLLVMModule());
9615d7231d8SStephan Herhut   if (!llvmModule)
9625d7231d8SStephan Herhut     return nullptr;
9635d7231d8SStephan Herhut 
9645d7231d8SStephan Herhut   llvm::LLVMContext &llvmContext = llvmModule->getContext();
9655d7231d8SStephan Herhut   llvm::IRBuilder<> builder(llvmContext);
9665d7231d8SStephan Herhut 
9675d7231d8SStephan Herhut   // Inject declarations for `malloc` and `free` functions that can be used in
9685d7231d8SStephan Herhut   // memref allocation/deallocation coming from standard ops lowering.
9695d7231d8SStephan Herhut   llvmModule->getOrInsertFunction("malloc", builder.getInt8PtrTy(),
9705d7231d8SStephan Herhut                                   builder.getInt64Ty());
9715d7231d8SStephan Herhut   llvmModule->getOrInsertFunction("free", builder.getVoidTy(),
9725d7231d8SStephan Herhut                                   builder.getInt8PtrTy());
9735d7231d8SStephan Herhut 
9745d7231d8SStephan Herhut   return llvmModule;
9755d7231d8SStephan Herhut }
976