doxygen/DebugTranslation_8cpp_source.html

 //===- DebugTranslation.cpp - MLIR to LLVM Debug conversion ---------------===//

 //

 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.

 // See https://llvm.org/LICENSE.txt for license information.

 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception

 //

 //===----------------------------------------------------------------------===//


 #include "DebugTranslation.h"

 #include "mlir/Dialect/LLVMIR/LLVMDialect.h"

 #include "llvm/ADT/TypeSwitch.h"

 #include "llvm/IR/Metadata.h"

 #include "llvm/IR/Module.h"

 #include "llvm/Support/FileSystem.h"

 #include "llvm/Support/Path.h"


 using namespace mlir;

 using namespace mlir::LLVM;

 using namespace mlir::LLVM::detail;


 /// A utility walker that interrupts if the operation has valid debug

 /// information.

 static WalkResult interruptIfValidLocation(Operation *op) {

   return isa<UnknownLoc>(op->getLoc()) ? WalkResult::advance()

                                        : WalkResult::interrupt();

 }


 DebugTranslation::DebugTranslation(Operation *module, llvm::Module &llvmModule)

     : debugEmissionIsEnabled(false), llvmModule(llvmModule),

       llvmCtx(llvmModule.getContext()) {

   // If the module has no location information, there is nothing to do.

   if (!module->walk(interruptIfValidLocation).wasInterrupted())

     return;

   debugEmissionIsEnabled = true;

 }


 static constexpr StringRef kDebugVersionKey = "Debug Info Version";

 static constexpr StringRef kCodeViewKey = "CodeView";


 void DebugTranslation::addModuleFlagsIfNotPresent() {

   // TODO: The version information should be encoded on the LLVM module itself,

   // not implicitly set here.


   // Mark this module as having debug information.

   if (!llvmModule.getModuleFlag(kDebugVersionKey))

     llvmModule.addModuleFlag(llvm::Module::Warning, kDebugVersionKey,

                              llvm::DEBUG_METADATA_VERSION);


   const llvm::Triple &targetTriple = llvmModule.getTargetTriple();

   if (targetTriple.isKnownWindowsMSVCEnvironment()) {

     // Dwarf debugging files will be generated by default, unless "CodeView"

     // is set explicitly. Windows/MSVC should use CodeView instead.

     if (!llvmModule.getModuleFlag(kCodeViewKey))

       llvmModule.addModuleFlag(llvm::Module::Warning, kCodeViewKey, 1);

   }

 }


 /// Translate the debug information for the given function.

 void DebugTranslation::translate(LLVMFuncOp func, llvm::Function &llvmFunc) {

   if (!debugEmissionIsEnabled)

     return;


   // Look for a sub program attached to the function.

   auto spLoc =

       func.getLoc()->findInstanceOf<FusedLocWith<LLVM::DISubprogramAttr>>();

   if (!spLoc)

     return;

   llvmFunc.setSubprogram(translate(spLoc.getMetadata()));

 }


 //===----------------------------------------------------------------------===//

 // Attributes

 //===----------------------------------------------------------------------===//


 llvm::DIType *DebugTranslation::translateImpl(DINullTypeAttr attr) {

   // A DINullTypeAttr at the beginning of the subroutine types list models

   // a void result type. If it is at the end, it models a variadic function.

   // Translate the explicit DINullTypeAttr to a nullptr since LLVM IR metadata

   // does not have an explicit void result type nor a variadic type

   // representation.

   return nullptr;

 }


 llvm::DIExpression *

 DebugTranslation::getExpressionAttrOrNull(DIExpressionAttr attr) {

   if (!attr)

     return nullptr;

   return translateExpression(attr);

 }


 llvm::MDString *DebugTranslation::getMDStringOrNull(StringAttr stringAttr) {

   if (!stringAttr || stringAttr.empty())

     return nullptr;

   return llvm::MDString::get(llvmCtx, stringAttr);

 }


 llvm::MDTuple *

 DebugTranslation::getMDTupleOrNull(ArrayRef<DINodeAttr> elements) {

   if (elements.empty())

     return nullptr;

   SmallVector<llvm::Metadata *> llvmElements = llvm::to_vector(

       llvm::map_range(elements, [&](DINodeAttr attr) -> llvm::Metadata * {

         if (DIAnnotationAttr annAttr = dyn_cast<DIAnnotationAttr>(attr)) {

           llvm::Metadata *ops[2] = {

               llvm::MDString::get(llvmCtx, annAttr.getName()),

               llvm::MDString::get(llvmCtx, annAttr.getValue())};

           return llvm::MDNode::get(llvmCtx, ops);

         }

         return translate(attr);

       }));

   return llvm::MDNode::get(llvmCtx, llvmElements);

 }


 llvm::DIBasicType *DebugTranslation::translateImpl(DIBasicTypeAttr attr) {

   return llvm::DIBasicType::get(

       llvmCtx, attr.getTag(), getMDStringOrNull(attr.getName()),

       attr.getSizeInBits(),

       /*AlignInBits=*/0, attr.getEncoding(), llvm::DINode::FlagZero);

 }


 llvm::DICompileUnit *DebugTranslation::translateImpl(DICompileUnitAttr attr) {

   llvm::DIBuilder builder(llvmModule);

   return builder.createCompileUnit(

       attr.getSourceLanguage(), translate(attr.getFile()),

       attr.getProducer() ? attr.getProducer().getValue() : "",

       attr.getIsOptimized(),

       /*Flags=*/"", /*RV=*/0, /*SplitName=*/{},

       static_cast<llvm::DICompileUnit::DebugEmissionKind>(

           attr.getEmissionKind()),

       0, true, false,

       static_cast<llvm::DICompileUnit::DebugNameTableKind>(

           attr.getNameTableKind()));

 }


 /// Returns a new `DINodeT` that is either distinct or not, depending on

 /// `isDistinct`.

 template <class DINodeT, class... Ts>

 static DINodeT *getDistinctOrUnique(bool isDistinct, Ts &&...args) {

   if (isDistinct)

     return DINodeT::getDistinct(std::forward<Ts>(args)...);

   return DINodeT::get(std::forward<Ts>(args)...);

 }


 llvm::TempDICompositeType

 DebugTranslation::translateTemporaryImpl(DICompositeTypeAttr attr) {

   return llvm::DICompositeType::getTemporary(

       llvmCtx, attr.getTag(), getMDStringOrNull(attr.getName()), nullptr,

       attr.getLine(), nullptr, nullptr, attr.getSizeInBits(),

       attr.getAlignInBits(),

       /*OffsetInBits=*/0,

       /*Flags=*/static_cast<llvm::DINode::DIFlags>(attr.getFlags()),

       /*Elements=*/nullptr, /*RuntimeLang=*/0, /*EnumKind=*/std::nullopt,

       /*VTableHolder=*/nullptr);

 }


 llvm::TempDISubprogram

 DebugTranslation::translateTemporaryImpl(DISubprogramAttr attr) {

   return llvm::DISubprogram::getTemporary(

       llvmCtx, /*Scope=*/nullptr, /*Name=*/{}, /*LinkageName=*/{},

       /*File=*/nullptr, attr.getLine(), /*Type=*/nullptr,

       /*ScopeLine=*/0, /*ContainingType=*/nullptr, /*VirtualIndex=*/0,

       /*ThisAdjustment=*/0, llvm::DINode::FlagZero,

       static_cast<llvm::DISubprogram::DISPFlags>(attr.getSubprogramFlags()),

       /*Unit=*/nullptr);

 }


 llvm::DICompositeType *

 DebugTranslation::translateImpl(DICompositeTypeAttr attr) {

   // TODO: Use distinct attributes to model this, once they have landed.

   // Depending on the tag, composite types must be distinct.

   bool isDistinct = false;

   switch (attr.getTag()) {

   case llvm::dwarf::DW_TAG_class_type:

   case llvm::dwarf::DW_TAG_enumeration_type:

   case llvm::dwarf::DW_TAG_structure_type:

   case llvm::dwarf::DW_TAG_union_type:

     isDistinct = true;

   }


   return getDistinctOrUnique<llvm::DICompositeType>(

       isDistinct, llvmCtx, attr.getTag(), getMDStringOrNull(attr.getName()),

       translate(attr.getFile()), attr.getLine(), translate(attr.getScope()),

       translate(attr.getBaseType()), attr.getSizeInBits(),

       attr.getAlignInBits(),

       /*OffsetInBits=*/0,

       /*Flags=*/static_cast<llvm::DINode::DIFlags>(attr.getFlags()),

       getMDTupleOrNull(attr.getElements()),

       /*RuntimeLang=*/0, /*EnumKind*/ std::nullopt, /*VTableHolder=*/nullptr,

       /*TemplateParams=*/nullptr, /*Identifier=*/nullptr,

       /*Discriminator=*/nullptr,

       getExpressionAttrOrNull(attr.getDataLocation()),

       getExpressionAttrOrNull(attr.getAssociated()),

       getExpressionAttrOrNull(attr.getAllocated()),

       getExpressionAttrOrNull(attr.getRank()));

 }


 llvm::DIDerivedType *DebugTranslation::translateImpl(DIDerivedTypeAttr attr) {

   return llvm::DIDerivedType::get(

       llvmCtx, attr.getTag(), getMDStringOrNull(attr.getName()),

       /*File=*/nullptr, /*Line=*/0,

       /*Scope=*/nullptr, translate(attr.getBaseType()), attr.getSizeInBits(),

       attr.getAlignInBits(), attr.getOffsetInBits(),

       attr.getDwarfAddressSpace(), /*PtrAuthData=*/std::nullopt,

       /*Flags=*/llvm::DINode::FlagZero, translate(attr.getExtraData()));

 }


 llvm::DIStringType *DebugTranslation::translateImpl(DIStringTypeAttr attr) {

   return llvm::DIStringType::get(

       llvmCtx, attr.getTag(), getMDStringOrNull(attr.getName()),

       translate(attr.getStringLength()),

       getExpressionAttrOrNull(attr.getStringLengthExp()),

       getExpressionAttrOrNull(attr.getStringLocationExp()),

       attr.getSizeInBits(), attr.getAlignInBits(), attr.getEncoding());

 }


 llvm::DIFile *DebugTranslation::translateImpl(DIFileAttr attr) {

   return llvm::DIFile::get(llvmCtx, getMDStringOrNull(attr.getName()),

                            getMDStringOrNull(attr.getDirectory()));

 }


 llvm::DILabel *DebugTranslation::translateImpl(DILabelAttr attr) {

   return llvm::DILabel::get(llvmCtx, translate(attr.getScope()),

                             getMDStringOrNull(attr.getName()),

                             translate(attr.getFile()), attr.getLine());

 }


 llvm::DILexicalBlock *DebugTranslation::translateImpl(DILexicalBlockAttr attr) {

   return llvm::DILexicalBlock::getDistinct(llvmCtx, translate(attr.getScope()),

                                            translate(attr.getFile()),

                                            attr.getLine(), attr.getColumn());

 }


 llvm::DILexicalBlockFile *

 DebugTranslation::translateImpl(DILexicalBlockFileAttr attr) {

   return llvm::DILexicalBlockFile::getDistinct(

       llvmCtx, translate(attr.getScope()), translate(attr.getFile()),

       attr.getDiscriminator());

 }


 llvm::DILocalScope *DebugTranslation::translateImpl(DILocalScopeAttr attr) {

   return cast<llvm::DILocalScope>(translate(DINodeAttr(attr)));

 }


 llvm::DIVariable *DebugTranslation::translateImpl(DIVariableAttr attr) {

   return cast<llvm::DIVariable>(translate(DINodeAttr(attr)));

 }


 llvm::DILocalVariable *

 DebugTranslation::translateImpl(DILocalVariableAttr attr) {

   return llvm::DILocalVariable::get(

       llvmCtx, translate(attr.getScope()), getMDStringOrNull(attr.getName()),

       translate(attr.getFile()), attr.getLine(), translate(attr.getType()),

       attr.getArg(), static_cast<llvm::DINode::DIFlags>(attr.getFlags()),

       attr.getAlignInBits(),

       /*Annotations=*/nullptr);

 }


 llvm::DIGlobalVariable *

 DebugTranslation::translateImpl(DIGlobalVariableAttr attr) {

   return llvm::DIGlobalVariable::getDistinct(

       llvmCtx, translate(attr.getScope()), getMDStringOrNull(attr.getName()),

       getMDStringOrNull(attr.getLinkageName()), translate(attr.getFile()),

       attr.getLine(), translate(attr.getType()), attr.getIsLocalToUnit(),

       attr.getIsDefined(), nullptr, nullptr, attr.getAlignInBits(), nullptr);

 }


 llvm::DINode *

 DebugTranslation::translateRecursive(DIRecursiveTypeAttrInterface attr) {

   DistinctAttr recursiveId = attr.getRecId();

   if (auto *iter = recursiveNodeMap.find(recursiveId);

       iter != recursiveNodeMap.end()) {

     return iter->second;

   }

   assert(!attr.getIsRecSelf() && "unbound DI recursive self reference");


   auto setRecursivePlaceholder = [&](llvm::DINode *placeholder) {

     recursiveNodeMap.try_emplace(recursiveId, placeholder);

   };


   llvm::DINode *result =

       TypeSwitch<DIRecursiveTypeAttrInterface, llvm::DINode *>(attr)

           .Case<DICompositeTypeAttr>([&](auto attr) {

             auto temporary = translateTemporaryImpl(attr);

             setRecursivePlaceholder(temporary.get());

             // Must call `translateImpl` directly instead of `translate` to

             // avoid handling the recursive interface again.

             auto *concrete = translateImpl(attr);

             temporary->replaceAllUsesWith(concrete);

             return concrete;

           })

           .Case<DISubprogramAttr>([&](auto attr) {

             auto temporary = translateTemporaryImpl(attr);

             setRecursivePlaceholder(temporary.get());

             // Must call `translateImpl` directly instead of `translate` to

             // avoid handling the recursive interface again.

             auto *concrete = translateImpl(attr);

             temporary->replaceAllUsesWith(concrete);

             return concrete;

           });


   assert(recursiveNodeMap.back().first == recursiveId &&

          "internal inconsistency: unexpected recursive translation stack");

   recursiveNodeMap.pop_back();


   return result;

 }


 llvm::DIScope *DebugTranslation::translateImpl(DIScopeAttr attr) {

   return cast<llvm::DIScope>(translate(DINodeAttr(attr)));

 }


 llvm::DISubprogram *DebugTranslation::translateImpl(DISubprogramAttr attr) {

   if (auto iter = distinctAttrToNode.find(attr.getId());

       iter != distinctAttrToNode.end())

     return cast<llvm::DISubprogram>(iter->second);


   llvm::DIScope *scope = translate(attr.getScope());

   llvm::DIFile *file = translate(attr.getFile());

   llvm::DIType *type = translate(attr.getType());

   llvm::DICompileUnit *compileUnit = translate(attr.getCompileUnit());


   // Check again after recursive calls in case this distinct node recurses back

   // to itself.

   if (auto iter = distinctAttrToNode.find(attr.getId());

       iter != distinctAttrToNode.end())

     return cast<llvm::DISubprogram>(iter->second);


   bool isDefinition = static_cast<bool>(attr.getSubprogramFlags() &

                                         LLVM::DISubprogramFlags::Definition);


   llvm::DISubprogram *node = getDistinctOrUnique<llvm::DISubprogram>(

       isDefinition, llvmCtx, scope, getMDStringOrNull(attr.getName()),

       getMDStringOrNull(attr.getLinkageName()), file, attr.getLine(), type,

       attr.getScopeLine(),

       /*ContainingType=*/nullptr, /*VirtualIndex=*/0,

       /*ThisAdjustment=*/0, llvm::DINode::FlagZero,

       static_cast<llvm::DISubprogram::DISPFlags>(attr.getSubprogramFlags()),

       compileUnit, /*TemplateParams=*/nullptr, /*Declaration=*/nullptr,

       getMDTupleOrNull(attr.getRetainedNodes()), nullptr,

       getMDTupleOrNull(attr.getAnnotations()));

   if (attr.getId())

     distinctAttrToNode.try_emplace(attr.getId(), node);

   return node;

 }


 llvm::DIModule *DebugTranslation::translateImpl(DIModuleAttr attr) {

   return llvm::DIModule::get(

       llvmCtx, translate(attr.getFile()), translate(attr.getScope()),

       getMDStringOrNull(attr.getName()),

       getMDStringOrNull(attr.getConfigMacros()),

       getMDStringOrNull(attr.getIncludePath()),

       getMDStringOrNull(attr.getApinotes()), attr.getLine(), attr.getIsDecl());

 }


 llvm::DINamespace *DebugTranslation::translateImpl(DINamespaceAttr attr) {

   return llvm::DINamespace::get(llvmCtx, translate(attr.getScope()),

                                 getMDStringOrNull(attr.getName()),

                                 attr.getExportSymbols());

 }


 llvm::DIImportedEntity *

 DebugTranslation::translateImpl(DIImportedEntityAttr attr) {

   return llvm::DIImportedEntity::get(

       llvmCtx, attr.getTag(), translate(attr.getScope()),

       translate(attr.getEntity()), translate(attr.getFile()), attr.getLine(),

       getMDStringOrNull(attr.getName()), getMDTupleOrNull(attr.getElements()));

 }


 llvm::DISubrange *DebugTranslation::translateImpl(DISubrangeAttr attr) {

   auto getMetadataOrNull = [&](Attribute attr) -> llvm::Metadata * {

     if (!attr)

       return nullptr;


     llvm::Metadata *metadata =

         llvm::TypeSwitch<Attribute, llvm::Metadata *>(attr)

             .Case([&](IntegerAttr intAttr) {

               return llvm::ConstantAsMetadata::get(llvm::ConstantInt::getSigned(

                   llvm::Type::getInt64Ty(llvmCtx), intAttr.getInt()));

             })

             .Case([&](LLVM::DIExpressionAttr expr) {

               return translateExpression(expr);

             })

             .Case([&](LLVM::DILocalVariableAttr local) {

               return translate(local);

             })

             .Case<>([&](LLVM::DIGlobalVariableAttr global) {

               return translate(global);

             })

             .Default([&](Attribute attr) { return nullptr; });

     return metadata;

   };

   return llvm::DISubrange::get(llvmCtx, getMetadataOrNull(attr.getCount()),

                                getMetadataOrNull(attr.getLowerBound()),

                                getMetadataOrNull(attr.getUpperBound()),

                                getMetadataOrNull(attr.getStride()));

 }


 llvm::DICommonBlock *DebugTranslation::translateImpl(DICommonBlockAttr attr) {

   return llvm::DICommonBlock::get(llvmCtx, translate(attr.getScope()),

                                   translate(attr.getDecl()),

                                   getMDStringOrNull(attr.getName()),

                                   translate(attr.getFile()), attr.getLine());

 }


 llvm::DIGenericSubrange *

 DebugTranslation::translateImpl(DIGenericSubrangeAttr attr) {

   auto getMetadataOrNull = [&](Attribute attr) -> llvm::Metadata * {

     if (!attr)

       return nullptr;


     llvm::Metadata *metadata =

         llvm::TypeSwitch<Attribute, llvm::Metadata *>(attr)

             .Case([&](LLVM::DIExpressionAttr expr) {

               return translateExpression(expr);

             })

             .Case([&](LLVM::DILocalVariableAttr local) {

               return translate(local);

             })

             .Case<>([&](LLVM::DIGlobalVariableAttr global) {

               return translate(global);

             })

             .Default([&](Attribute attr) { return nullptr; });

     return metadata;

   };

   return llvm::DIGenericSubrange::get(llvmCtx,

                                       getMetadataOrNull(attr.getCount()),

                                       getMetadataOrNull(attr.getLowerBound()),

                                       getMetadataOrNull(attr.getUpperBound()),

                                       getMetadataOrNull(attr.getStride()));

 }


 llvm::DISubroutineType *

 DebugTranslation::translateImpl(DISubroutineTypeAttr attr) {

   // Concatenate the result and argument types into a single array.

   SmallVector<llvm::Metadata *> types;

   for (DITypeAttr type : attr.getTypes())

     types.push_back(translate(type));

   return llvm::DISubroutineType::get(

       llvmCtx, llvm::DINode::FlagZero, attr.getCallingConvention(),

       llvm::DITypeRefArray(llvm::MDNode::get(llvmCtx, types)));

 }


 llvm::DIType *DebugTranslation::translateImpl(DITypeAttr attr) {

   return cast<llvm::DIType>(translate(DINodeAttr(attr)));

 }


 llvm::DINode *DebugTranslation::translate(DINodeAttr attr) {

   if (!attr)

     return nullptr;

   // Check for a cached instance.

   if (llvm::DINode *node = attrToNode.lookup(attr))

     return node;


   llvm::DINode *node = nullptr;

   // Recursive types go through a dedicated handler. All other types are

   // dispatched directly to their specific handlers.

   if (auto recTypeAttr = dyn_cast<DIRecursiveTypeAttrInterface>(attr))

     if (recTypeAttr.getRecId())

       node = translateRecursive(recTypeAttr);


   if (!node)

     node = TypeSwitch<DINodeAttr, llvm::DINode *>(attr)

                .Case<DIBasicTypeAttr, DICommonBlockAttr, DICompileUnitAttr,

                      DICompositeTypeAttr, DIDerivedTypeAttr, DIFileAttr,

                      DIGenericSubrangeAttr, DIGlobalVariableAttr,

                      DIImportedEntityAttr, DILabelAttr, DILexicalBlockAttr,

                      DILexicalBlockFileAttr, DILocalVariableAttr, DIModuleAttr,

                      DINamespaceAttr, DINullTypeAttr, DIStringTypeAttr,

                      DISubprogramAttr, DISubrangeAttr, DISubroutineTypeAttr>(

                    [&](auto attr) { return translateImpl(attr); });


   if (node && !node->isTemporary())

     attrToNode.insert({attr, node});

   return node;

 }


 //===----------------------------------------------------------------------===//

 // Locations

 //===----------------------------------------------------------------------===//


 /// Translate the given location to an llvm debug location.

 llvm::DILocation *DebugTranslation::translateLoc(Location loc,

                                                  llvm::DILocalScope *scope) {

   if (!debugEmissionIsEnabled)

     return nullptr;

   return translateLoc(loc, scope, /*inlinedAt=*/nullptr);

 }


 llvm::DIExpression *

 DebugTranslation::translateExpression(LLVM::DIExpressionAttr attr) {

   SmallVector<uint64_t, 1> ops;

   if (attr) {

     // Append operations their operands to the list.

     for (const DIExpressionElemAttr &op : attr.getOperations()) {

       ops.push_back(op.getOpcode());

       append_range(ops, op.getArguments());

     }

   }

   return llvm::DIExpression::get(llvmCtx, ops);

 }


 llvm::DIGlobalVariableExpression *

 DebugTranslation::translateGlobalVariableExpression(

     LLVM::DIGlobalVariableExpressionAttr attr) {

   return llvm::DIGlobalVariableExpression::get(

       llvmCtx, translate(attr.getVar()), translateExpression(attr.getExpr()));

 }


 /// Translate the given location to an llvm DebugLoc.

 llvm::DILocation *DebugTranslation::translateLoc(Location loc,

                                                  llvm::DILocalScope *scope,

                                                  llvm::DILocation *inlinedAt) {

   // LLVM doesn't have a representation for unknown.

   if (isa<UnknownLoc>(loc))

     return nullptr;


   // Check for a cached instance.

   auto existingIt = locationToLoc.find(std::make_tuple(loc, scope, inlinedAt));

   if (existingIt != locationToLoc.end())

     return existingIt->second;


   llvm::DILocation *llvmLoc = nullptr;

   if (auto callLoc = dyn_cast<CallSiteLoc>(loc)) {

     // For callsites, the caller is fed as the inlinedAt for the callee.

     auto *callerLoc = translateLoc(callLoc.getCaller(), scope, inlinedAt);

     // If the caller scope is not translatable, the overall callsite cannot be

     // represented in LLVM (the callee scope may not match the parent function).

     if (!callerLoc) {

       // If there is an inlinedAt scope (an outer caller), skip to that

       // directly. Otherwise, cannot translate.

       if (!inlinedAt)

         return nullptr;

       callerLoc = inlinedAt;

     }

     llvmLoc = translateLoc(callLoc.getCallee(), nullptr, callerLoc);

     // Fallback: Ignore callee if it has no debug scope.

     if (!llvmLoc)

       llvmLoc = callerLoc;


   } else if (auto fileLoc = dyn_cast<FileLineColLoc>(loc)) {

     // A scope of a DILocation cannot be null.

     if (!scope)

       return nullptr;

     llvmLoc =

         llvm::DILocation::get(llvmCtx, fileLoc.getLine(), fileLoc.getColumn(),

                               scope, const_cast<llvm::DILocation *>(inlinedAt));


   } else if (auto fusedLoc = dyn_cast<FusedLoc>(loc)) {

     ArrayRef<Location> locations = fusedLoc.getLocations();


     // Check for a scope encoded with the location.

     if (auto scopedAttr =

             dyn_cast_or_null<LLVM::DILocalScopeAttr>(fusedLoc.getMetadata()))

       scope = translate(scopedAttr);


     // For fused locations, merge each of the nodes.

     llvmLoc = translateLoc(locations.front(), scope, inlinedAt);

     for (Location locIt : locations.drop_front()) {

       llvmLoc = llvm::DILocation::getMergedLocation(

           llvmLoc, translateLoc(locIt, scope, inlinedAt));

     }


   } else if (auto nameLoc = dyn_cast<NameLoc>(loc)) {

     llvmLoc = translateLoc(nameLoc.getChildLoc(), scope, inlinedAt);


   } else if (auto opaqueLoc = dyn_cast<OpaqueLoc>(loc)) {

     llvmLoc = translateLoc(opaqueLoc.getFallbackLocation(), scope, inlinedAt);

   } else {

     llvm_unreachable("unknown location kind");

   }


   locationToLoc.try_emplace(std::make_tuple(loc, scope, inlinedAt), llvmLoc);

   return llvmLoc;

 }


 /// Create an llvm debug file for the given file path.

 llvm::DIFile *DebugTranslation::translateFile(StringRef fileName) {

   auto *&file = fileMap[fileName];

   if (file)

     return file;


   // Make sure the current working directory is up-to-date.

   if (currentWorkingDir.empty())

     llvm::sys::fs::current_path(currentWorkingDir);


   StringRef directory = currentWorkingDir;

   SmallString<128> dirBuf;

   SmallString<128> fileBuf;

   if (llvm::sys::path::is_absolute(fileName)) {

     // Strip the common prefix (if it is more than just "/") from current

     // directory and FileName for a more space-efficient encoding.

     auto fileIt = llvm::sys::path::begin(fileName);

     auto fileE = llvm::sys::path::end(fileName);

     auto curDirIt = llvm::sys::path::begin(directory);

     auto curDirE = llvm::sys::path::end(directory);

     for (; curDirIt != curDirE && *curDirIt == *fileIt; ++curDirIt, ++fileIt)

       llvm::sys::path::append(dirBuf, *curDirIt);

     if (std::distance(llvm::sys::path::begin(directory), curDirIt) == 1) {

       // Don't strip the common prefix if it is only the root "/"  since that

       // would make LLVM diagnostic locations confusing.

       directory = StringRef();

     } else {

       for (; fileIt != fileE; ++fileIt)

         llvm::sys::path::append(fileBuf, *fileIt);

       directory = dirBuf;

       fileName = fileBuf;

     }

   }

   return (file = llvm::DIFile::get(llvmCtx, fileName, directory));

 }

kDebugVersionKey
static constexpr StringRef kDebugVersionKey
Definition: DebugTranslation.cpp:37

getDistinctOrUnique
static DINodeT * getDistinctOrUnique(bool isDistinct, Ts &&...args)
Returns a new DINodeT that is either distinct or not, depending on isDistinct.
Definition: DebugTranslation.cpp:138

interruptIfValidLocation
static WalkResult interruptIfValidLocation(Operation *op)
A utility walker that interrupts if the operation has valid debug information.
Definition: DebugTranslation.cpp:23

kCodeViewKey
static constexpr StringRef kCodeViewKey
Definition: DebugTranslation.cpp:38

DebugTranslation.h

getContext
static MLIRContext * getContext(OpFoldResult val)
Definition: IndexingUtils.cpp:295

LLVMDialect.h

llvm::ArrayRef
Definition: LLVM.h:48

llvm::SmallString
Definition: LLVM.h:41

llvm::SmallVector
Definition: LLVM.h:72

llvm::TypeSwitch
Definition: LLVM.h:82

mlir::Attribute
Attributes are known-constant values of operations.
Definition: Attributes.h:25

mlir::DistinctAttr
An attribute that associates a referenced attribute with a unique identifier.
Definition: BuiltinAttributes.h:1039

mlir::FusedLocWith
This class represents a fused location whose metadata is known to be an instance of the given type.
Definition: Location.h:139

mlir::LLVM::DILocalScopeAttr
This class represents a LLVM attribute that describes a local debug info scope.
Definition: LLVMAttrs.h:46

mlir::LLVM::DINodeAttr
This class represents the base attribute for all debug info attributes.
Definition: LLVMAttrs.h:27

mlir::LLVM::DIScopeAttr
This class represents a LLVM attribute that describes a debug info scope.
Definition: LLVMAttrs.h:36

mlir::LLVM::DITypeAttr
This class represents a LLVM attribute that describes a debug info type.
Definition: LLVMAttrs.h:55

mlir::LLVM::DIVariableAttr
This class represents a LLVM attribute that describes a debug info variable.
Definition: LLVMAttrs.h:64

mlir::LLVM::detail::DebugTranslation::translate
void translate(LLVMFuncOp func, llvm::Function &llvmFunc)
Translate the debug information for the given function.
Definition: DebugTranslation.cpp:59

mlir::LLVM::detail::DebugTranslation::translateExpression
llvm::DIExpression * translateExpression(LLVM::DIExpressionAttr attr)
Translates the given DWARF expression metadata to to LLVM.
Definition: DebugTranslation.cpp:490

mlir::LLVM::detail::DebugTranslation::addModuleFlagsIfNotPresent
void addModuleFlagsIfNotPresent()
Adds the necessary module flags to the module, if not yet present.
Definition: DebugTranslation.cpp:40

mlir::LLVM::detail::DebugTranslation::DebugTranslation
DebugTranslation(Operation *module, llvm::Module &llvmModule)
Definition: DebugTranslation.cpp:28

mlir::Location
This class defines the main interface for locations in MLIR and acts as a non-nullable wrapper around...
Definition: Location.h:66

mlir::Operation
Operation is the basic unit of execution within MLIR.
Definition: Operation.h:88

mlir::Operation::walk
std::enable_if_t< llvm::function_traits< std::decay_t< FnT > >::num_args==1, RetT > walk(FnT &&callback)
Walk the operation by calling the callback for each nested operation (including this one),...
Definition: Operation.h:798

mlir::Operation::getLoc
Location getLoc()
The source location the operation was defined or derived from.
Definition: Operation.h:223

mlir::WalkResult
A utility result that is used to signal how to proceed with an ongoing walk:
Definition: Visitors.h:33

mlir::WalkResult::advance
static WalkResult advance()
Definition: Visitors.h:51

mlir::WalkResult::interrupt
static WalkResult interrupt()
Definition: Visitors.h:50

mlir::LLVM::detail
Definition: Pattern.h:21

mlir::LLVM
Definition: ConvertFuncToLLVM.h:21

mlir
Include the generated interface declarations.
Definition: LocalAliasAnalysis.h:20

mlir::get
auto get(MLIRContext *context, Ts &&...params)
Helper method that injects context only if needed, this helps unify some of the attribute constructio...
Definition: BytecodeImplementation.h:509