llvm-project/llvm/lib/Analysis/DebugInfo.cpp

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//===--- DebugInfo.cpp - Debug Information Helper Classes -----------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This file implements the helper classes used to build and interpret debug
// information in LLVM IR form.
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/DebugInfo.h"
#include "llvm/Constants.h"
#include "llvm/DerivedTypes.h"
#include "llvm/Intrinsics.h"
#include "llvm/IntrinsicInst.h"
#include "llvm/Instructions.h"
#include "llvm/Module.h"
#include "llvm/Analysis/ValueTracking.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/ADT/SmallString.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Debug.h"
#include "llvm/Support/Dwarf.h"
#include "llvm/Support/raw_ostream.h"
using namespace llvm;
using namespace llvm::dwarf;
//===----------------------------------------------------------------------===//
// DIDescriptor
//===----------------------------------------------------------------------===//
DIDescriptor::DIDescriptor(const DIFile F) : DbgNode(F.DbgNode) {
}
DIDescriptor::DIDescriptor(const DISubprogram F) : DbgNode(F.DbgNode) {
}
DIDescriptor::DIDescriptor(const DILexicalBlock F) : DbgNode(F.DbgNode) {
}
DIDescriptor::DIDescriptor(const DIVariable F) : DbgNode(F.DbgNode) {
}
DIDescriptor::DIDescriptor(const DIType F) : DbgNode(F.DbgNode) {
}
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StringRef
DIDescriptor::getStringField(unsigned Elt) const {
if (DbgNode == 0)
return StringRef();
if (Elt < DbgNode->getNumOperands())
if (MDString *MDS = dyn_cast_or_null<MDString>(DbgNode->getOperand(Elt)))
return MDS->getString();
return StringRef();
}
uint64_t DIDescriptor::getUInt64Field(unsigned Elt) const {
if (DbgNode == 0)
return 0;
if (Elt < DbgNode->getNumOperands())
if (ConstantInt *CI = dyn_cast<ConstantInt>(DbgNode->getOperand(Elt)))
return CI->getZExtValue();
return 0;
}
DIDescriptor DIDescriptor::getDescriptorField(unsigned Elt) const {
if (DbgNode == 0)
return DIDescriptor();
if (Elt < DbgNode->getNumOperands())
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return
DIDescriptor(dyn_cast_or_null<const MDNode>(DbgNode->getOperand(Elt)));
return DIDescriptor();
}
GlobalVariable *DIDescriptor::getGlobalVariableField(unsigned Elt) const {
if (DbgNode == 0)
return 0;
if (Elt < DbgNode->getNumOperands())
return dyn_cast_or_null<GlobalVariable>(DbgNode->getOperand(Elt));
return 0;
}
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Constant *DIDescriptor::getConstantField(unsigned Elt) const {
if (DbgNode == 0)
return 0;
if (Elt < DbgNode->getNumOperands())
return dyn_cast_or_null<Constant>(DbgNode->getOperand(Elt));
return 0;
}
Function *DIDescriptor::getFunctionField(unsigned Elt) const {
if (DbgNode == 0)
return 0;
if (Elt < DbgNode->getNumOperands())
return dyn_cast_or_null<Function>(DbgNode->getOperand(Elt));
return 0;
}
unsigned DIVariable::getNumAddrElements() const {
if (getVersion() <= llvm::LLVMDebugVersion8)
return DbgNode->getNumOperands()-6;
return DbgNode->getNumOperands()-7;
}
//===----------------------------------------------------------------------===//
// Predicates
//===----------------------------------------------------------------------===//
/// isBasicType - Return true if the specified tag is legal for
/// DIBasicType.
bool DIDescriptor::isBasicType() const {
return DbgNode && getTag() == dwarf::DW_TAG_base_type;
}
/// isDerivedType - Return true if the specified tag is legal for DIDerivedType.
bool DIDescriptor::isDerivedType() const {
if (!DbgNode) return false;
switch (getTag()) {
case dwarf::DW_TAG_typedef:
case dwarf::DW_TAG_pointer_type:
case dwarf::DW_TAG_reference_type:
case dwarf::DW_TAG_const_type:
case dwarf::DW_TAG_volatile_type:
case dwarf::DW_TAG_restrict_type:
case dwarf::DW_TAG_member:
case dwarf::DW_TAG_inheritance:
case dwarf::DW_TAG_friend:
return true;
default:
// CompositeTypes are currently modelled as DerivedTypes.
return isCompositeType();
}
}
/// isCompositeType - Return true if the specified tag is legal for
/// DICompositeType.
bool DIDescriptor::isCompositeType() const {
if (!DbgNode) return false;
switch (getTag()) {
case dwarf::DW_TAG_array_type:
case dwarf::DW_TAG_structure_type:
case dwarf::DW_TAG_union_type:
case dwarf::DW_TAG_enumeration_type:
case dwarf::DW_TAG_vector_type:
case dwarf::DW_TAG_subroutine_type:
case dwarf::DW_TAG_class_type:
return true;
default:
return false;
}
}
/// isVariable - Return true if the specified tag is legal for DIVariable.
bool DIDescriptor::isVariable() const {
if (!DbgNode) return false;
switch (getTag()) {
case dwarf::DW_TAG_auto_variable:
case dwarf::DW_TAG_arg_variable:
case dwarf::DW_TAG_return_variable:
return true;
default:
return false;
}
}
/// isType - Return true if the specified tag is legal for DIType.
bool DIDescriptor::isType() const {
return isBasicType() || isCompositeType() || isDerivedType();
}
/// isSubprogram - Return true if the specified tag is legal for
/// DISubprogram.
bool DIDescriptor::isSubprogram() const {
return DbgNode && getTag() == dwarf::DW_TAG_subprogram;
}
/// isGlobalVariable - Return true if the specified tag is legal for
/// DIGlobalVariable.
bool DIDescriptor::isGlobalVariable() const {
return DbgNode && (getTag() == dwarf::DW_TAG_variable ||
getTag() == dwarf::DW_TAG_constant);
}
/// isGlobal - Return true if the specified tag is legal for DIGlobal.
bool DIDescriptor::isGlobal() const {
return isGlobalVariable();
}
/// isUnspecifiedParmeter - Return true if the specified tab is
/// DW_TAG_unspecified_parameters.
bool DIDescriptor::isUnspecifiedParameter() const {
return DbgNode && getTag() == dwarf::DW_TAG_unspecified_parameters;
}
/// isScope - Return true if the specified tag is one of the scope
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/// related tag.
bool DIDescriptor::isScope() const {
if (!DbgNode) return false;
switch (getTag()) {
case dwarf::DW_TAG_compile_unit:
case dwarf::DW_TAG_lexical_block:
case dwarf::DW_TAG_subprogram:
case dwarf::DW_TAG_namespace:
return true;
default:
break;
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}
return false;
}
/// isCompileUnit - Return true if the specified tag is DW_TAG_compile_unit.
bool DIDescriptor::isCompileUnit() const {
return DbgNode && getTag() == dwarf::DW_TAG_compile_unit;
}
/// isFile - Return true if the specified tag is DW_TAG_file_type.
bool DIDescriptor::isFile() const {
return DbgNode && getTag() == dwarf::DW_TAG_file_type;
}
/// isNameSpace - Return true if the specified tag is DW_TAG_namespace.
bool DIDescriptor::isNameSpace() const {
return DbgNode && getTag() == dwarf::DW_TAG_namespace;
}
/// isLexicalBlock - Return true if the specified tag is DW_TAG_lexical_block.
bool DIDescriptor::isLexicalBlock() const {
return DbgNode && getTag() == dwarf::DW_TAG_lexical_block;
}
/// isSubrange - Return true if the specified tag is DW_TAG_subrange_type.
bool DIDescriptor::isSubrange() const {
return DbgNode && getTag() == dwarf::DW_TAG_subrange_type;
}
/// isEnumerator - Return true if the specified tag is DW_TAG_enumerator.
bool DIDescriptor::isEnumerator() const {
return DbgNode && getTag() == dwarf::DW_TAG_enumerator;
}
//===----------------------------------------------------------------------===//
// Simple Descriptor Constructors and other Methods
//===----------------------------------------------------------------------===//
DIType::DIType(const MDNode *N) : DIScope(N) {
if (!N) return;
if (!isBasicType() && !isDerivedType() && !isCompositeType()) {
DbgNode = 0;
}
}
unsigned DIArray::getNumElements() const {
if (!DbgNode)
return 0;
return DbgNode->getNumOperands();
}
/// replaceAllUsesWith - Replace all uses of debug info referenced by
/// this descriptor.
void DIType::replaceAllUsesWith(DIDescriptor &D) {
if (!DbgNode)
return;
// Since we use a TrackingVH for the node, its easy for clients to manufacture
// legitimate situations where they want to replaceAllUsesWith() on something
// which, due to uniquing, has merged with the source. We shield clients from
// this detail by allowing a value to be replaced with replaceAllUsesWith()
// itself.
if (DbgNode != D) {
MDNode *Node = const_cast<MDNode*>(DbgNode);
const MDNode *DN = D;
const Value *V = cast_or_null<Value>(DN);
Node->replaceAllUsesWith(const_cast<Value*>(V));
MDNode::deleteTemporary(Node);
}
}
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/// Verify - Verify that a compile unit is well formed.
bool DICompileUnit::Verify() const {
if (!DbgNode)
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return false;
StringRef N = getFilename();
if (N.empty())
return false;
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// It is possible that directory and produce string is empty.
return true;
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}
/// Verify - Verify that a type descriptor is well formed.
bool DIType::Verify() const {
if (!DbgNode)
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return false;
if (!getContext().Verify())
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return false;
unsigned Tag = getTag();
if (!isBasicType() && Tag != dwarf::DW_TAG_const_type &&
Tag != dwarf::DW_TAG_volatile_type && Tag != dwarf::DW_TAG_pointer_type &&
Tag != dwarf::DW_TAG_restrict_type && getFilename().empty())
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return false;
return true;
}
/// Verify - Verify that a basic type descriptor is well formed.
bool DIBasicType::Verify() const {
return isBasicType();
}
/// Verify - Verify that a derived type descriptor is well formed.
bool DIDerivedType::Verify() const {
return isDerivedType();
}
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/// Verify - Verify that a composite type descriptor is well formed.
bool DICompositeType::Verify() const {
if (!DbgNode)
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return false;
if (!getContext().Verify())
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return false;
DICompileUnit CU = getCompileUnit();
if (!CU.Verify())
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return false;
return true;
}
/// Verify - Verify that a subprogram descriptor is well formed.
bool DISubprogram::Verify() const {
if (!DbgNode)
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return false;
if (!getContext().Verify())
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return false;
DICompileUnit CU = getCompileUnit();
if (!CU.Verify())
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return false;
DICompositeType Ty = getType();
if (!Ty.Verify())
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return false;
return true;
}
/// Verify - Verify that a global variable descriptor is well formed.
bool DIGlobalVariable::Verify() const {
if (!DbgNode)
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return false;
if (getDisplayName().empty())
return false;
if (!getContext().Verify())
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return false;
DICompileUnit CU = getCompileUnit();
if (!CU.Verify())
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return false;
DIType Ty = getType();
if (!Ty.Verify())
return false;
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if (!getGlobal() && !getConstant())
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return false;
return true;
}
/// Verify - Verify that a variable descriptor is well formed.
bool DIVariable::Verify() const {
if (!DbgNode)
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return false;
if (!getContext().Verify())
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return false;
if (!getCompileUnit().Verify())
return false;
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DIType Ty = getType();
if (!Ty.Verify())
return false;
return true;
}
/// Verify - Verify that a location descriptor is well formed.
bool DILocation::Verify() const {
if (!DbgNode)
return false;
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return DbgNode->getNumOperands() == 4;
}
/// Verify - Verify that a namespace descriptor is well formed.
bool DINameSpace::Verify() const {
if (!DbgNode)
return false;
if (getName().empty())
return false;
if (!getCompileUnit().Verify())
return false;
return true;
}
/// getOriginalTypeSize - If this type is derived from a base type then
/// return base type size.
uint64_t DIDerivedType::getOriginalTypeSize() const {
unsigned Tag = getTag();
if (Tag == dwarf::DW_TAG_member || Tag == dwarf::DW_TAG_typedef ||
Tag == dwarf::DW_TAG_const_type || Tag == dwarf::DW_TAG_volatile_type ||
Tag == dwarf::DW_TAG_restrict_type) {
DIType BaseType = getTypeDerivedFrom();
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// If this type is not derived from any type then take conservative
// approach.
if (!BaseType.isValid())
return getSizeInBits();
if (BaseType.isDerivedType())
return DIDerivedType(BaseType).getOriginalTypeSize();
else
return BaseType.getSizeInBits();
}
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return getSizeInBits();
}
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/// isInlinedFnArgument - Return true if this variable provides debugging
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/// information for an inlined function arguments.
bool DIVariable::isInlinedFnArgument(const Function *CurFn) {
assert(CurFn && "Invalid function");
if (!getContext().isSubprogram())
return false;
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// This variable is not inlined function argument if its scope
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// does not describe current function.
return !(DISubprogram(getContext()).describes(CurFn));
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}
/// describes - Return true if this subprogram provides debugging
/// information for the function F.
bool DISubprogram::describes(const Function *F) {
assert(F && "Invalid function");
if (F == getFunction())
return true;
StringRef Name = getLinkageName();
if (Name.empty())
Name = getName();
if (F->getName() == Name)
return true;
return false;
}
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unsigned DISubprogram::isOptimized() const {
assert (DbgNode && "Invalid subprogram descriptor!");
if (DbgNode->getNumOperands() == 16)
return getUnsignedField(15);
return 0;
}
StringRef DIScope::getFilename() const {
if (!DbgNode)
return StringRef();
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if (isLexicalBlock())
return DILexicalBlock(DbgNode).getFilename();
if (isSubprogram())
return DISubprogram(DbgNode).getFilename();
if (isCompileUnit())
return DICompileUnit(DbgNode).getFilename();
if (isNameSpace())
return DINameSpace(DbgNode).getFilename();
if (isType())
return DIType(DbgNode).getFilename();
if (isFile())
return DIFile(DbgNode).getFilename();
assert(0 && "Invalid DIScope!");
return StringRef();
}
StringRef DIScope::getDirectory() const {
if (!DbgNode)
return StringRef();
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if (isLexicalBlock())
return DILexicalBlock(DbgNode).getDirectory();
if (isSubprogram())
return DISubprogram(DbgNode).getDirectory();
if (isCompileUnit())
return DICompileUnit(DbgNode).getDirectory();
if (isNameSpace())
return DINameSpace(DbgNode).getDirectory();
if (isType())
return DIType(DbgNode).getDirectory();
if (isFile())
return DIFile(DbgNode).getDirectory();
assert(0 && "Invalid DIScope!");
return StringRef();
}
//===----------------------------------------------------------------------===//
// DIDescriptor: dump routines for all descriptors.
//===----------------------------------------------------------------------===//
/// print - Print descriptor.
void DIDescriptor::print(raw_ostream &OS) const {
OS << "[" << dwarf::TagString(getTag()) << "] ";
OS.write_hex((intptr_t) &*DbgNode) << ']';
}
/// print - Print compile unit.
void DICompileUnit::print(raw_ostream &OS) const {
if (getLanguage())
OS << " [" << dwarf::LanguageString(getLanguage()) << "] ";
OS << " [" << getDirectory() << "/" << getFilename() << "]";
}
/// print - Print type.
void DIType::print(raw_ostream &OS) const {
if (!DbgNode) return;
StringRef Res = getName();
if (!Res.empty())
OS << " [" << Res << "] ";
unsigned Tag = getTag();
OS << " [" << dwarf::TagString(Tag) << "] ";
// TODO : Print context
getCompileUnit().print(OS);
OS << " ["
<< "line " << getLineNumber() << ", "
<< getSizeInBits() << " bits, "
<< getAlignInBits() << " bit alignment, "
<< getOffsetInBits() << " bit offset"
<< "] ";
if (isPrivate())
OS << " [private] ";
else if (isProtected())
OS << " [protected] ";
if (isForwardDecl())
OS << " [fwd] ";
if (isBasicType())
DIBasicType(DbgNode).print(OS);
else if (isDerivedType())
DIDerivedType(DbgNode).print(OS);
else if (isCompositeType())
DICompositeType(DbgNode).print(OS);
else {
OS << "Invalid DIType\n";
return;
}
OS << "\n";
}
/// print - Print basic type.
void DIBasicType::print(raw_ostream &OS) const {
OS << " [" << dwarf::AttributeEncodingString(getEncoding()) << "] ";
}
/// print - Print derived type.
void DIDerivedType::print(raw_ostream &OS) const {
OS << "\n\t Derived From: "; getTypeDerivedFrom().print(OS);
}
/// print - Print composite type.
void DICompositeType::print(raw_ostream &OS) const {
DIArray A = getTypeArray();
OS << " [" << A.getNumElements() << " elements]";
}
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/// print - Print subprogram.
void DISubprogram::print(raw_ostream &OS) const {
StringRef Res = getName();
if (!Res.empty())
OS << " [" << Res << "] ";
unsigned Tag = getTag();
OS << " [" << dwarf::TagString(Tag) << "] ";
// TODO : Print context
getCompileUnit().print(OS);
OS << " [" << getLineNumber() << "] ";
if (isLocalToUnit())
OS << " [local] ";
if (isDefinition())
OS << " [def] ";
OS << "\n";
}
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/// print - Print global variable.
void DIGlobalVariable::print(raw_ostream &OS) const {
OS << " [";
StringRef Res = getName();
if (!Res.empty())
OS << " [" << Res << "] ";
unsigned Tag = getTag();
OS << " [" << dwarf::TagString(Tag) << "] ";
// TODO : Print context
getCompileUnit().print(OS);
OS << " [" << getLineNumber() << "] ";
if (isLocalToUnit())
OS << " [local] ";
if (isDefinition())
OS << " [def] ";
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if (isGlobalVariable())
DIGlobalVariable(DbgNode).print(OS);
OS << "]\n";
}
/// print - Print variable.
void DIVariable::print(raw_ostream &OS) const {
StringRef Res = getName();
if (!Res.empty())
OS << " [" << Res << "] ";
getCompileUnit().print(OS);
OS << " [" << getLineNumber() << "] ";
getType().print(OS);
OS << "\n";
// FIXME: Dump complex addresses
}
/// dump - Print descriptor to dbgs() with a newline.
void DIDescriptor::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print compile unit to dbgs() with a newline.
void DICompileUnit::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print type to dbgs() with a newline.
void DIType::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print basic type to dbgs() with a newline.
void DIBasicType::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print derived type to dbgs() with a newline.
void DIDerivedType::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print composite type to dbgs() with a newline.
void DICompositeType::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print subprogram to dbgs() with a newline.
void DISubprogram::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print global variable.
void DIGlobalVariable::dump() const {
print(dbgs()); dbgs() << '\n';
}
/// dump - Print variable.
void DIVariable::dump() const {
print(dbgs()); dbgs() << '\n';
}
//===----------------------------------------------------------------------===//
// DIFactory: Basic Helpers
//===----------------------------------------------------------------------===//
DIFactory::DIFactory(Module &m)
: M(m), VMContext(M.getContext()), DeclareFn(0), ValueFn(0) {}
Constant *DIFactory::GetTagConstant(unsigned TAG) {
assert((TAG & LLVMDebugVersionMask) == 0 &&
"Tag too large for debug encoding!");
return ConstantInt::get(Type::getInt32Ty(VMContext), TAG | LLVMDebugVersion);
}
//===----------------------------------------------------------------------===//
// DIFactory: Primary Constructors
//===----------------------------------------------------------------------===//
/// GetOrCreateArray - Create an descriptor for an array of descriptors.
/// This implicitly uniques the arrays created.
DIArray DIFactory::GetOrCreateArray(DIDescriptor *Tys, unsigned NumTys) {
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if (NumTys == 0) {
Value *Null = llvm::Constant::getNullValue(Type::getInt32Ty(VMContext));
return DIArray(MDNode::get(VMContext, &Null, 1));
}
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SmallVector<Value *, 16> Elts(Tys, Tys+NumTys);
return DIArray(MDNode::get(VMContext, Elts.data(), Elts.size()));
}
/// GetOrCreateSubrange - Create a descriptor for a value range. This
/// implicitly uniques the values returned.
DISubrange DIFactory::GetOrCreateSubrange(int64_t Lo, int64_t Hi) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_subrange_type),
ConstantInt::get(Type::getInt64Ty(VMContext), Lo),
ConstantInt::get(Type::getInt64Ty(VMContext), Hi)
};
return DISubrange(MDNode::get(VMContext, &Elts[0], 3));
}
/// CreateUnspecifiedParameter - Create unspeicified type descriptor
/// for the subroutine type.
DIDescriptor DIFactory::CreateUnspecifiedParameter() {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_unspecified_parameters)
};
return DIDescriptor(MDNode::get(VMContext, &Elts[0], 1));
}
/// CreateCompileUnit - Create a new descriptor for the specified compile
/// unit. Note that this does not unique compile units within the module.
DICompileUnit DIFactory::CreateCompileUnit(unsigned LangID,
StringRef Filename,
StringRef Directory,
StringRef Producer,
Each input file is encoded as a separate compile unit in LLVM debugging information output. However, many target specific tool chains prefer to encode only one compile unit in an object file. In this situation, the LLVM code generator will include debugging information entities in the compile unit that is marked as main compile unit. The code generator accepts maximum one main compile unit per module. If a module does not contain any main compile unit then the code generator will emit multiple compile units in the output object file. [Part 1] Update DebugInfo APIs to accept optional boolean value while creating DICompileUnit to mark the unit as "main" unit. By defaults all units are considered non-main. Update SourceLevelDebugging.html to document "main" compile unit. Update DebugInfo APIs to not accept and encode separate source file/directory entries while creating various llvm.dbg.* entities. There was a recent, yet to be documented, change to include this additional information so no documentation changes are required here. Update DwarfDebug to handle "main" compile unit. If "main" compile unit is seen then all DIEs are inserted into "main" compile unit. All other compile units are used to find source location for llvm.dbg.* values. If there is not any "main" compile unit then create unique compile unit DIEs for each llvm.dbg.compile_unit. [Part 2] Create separate llvm.dbg.compile_unit for each input file. Mark compile unit create for main_input_filename as "main" compile unit. Use appropriate compile unit, based on source location information collected from the tree node, while creating llvm.dbg.* values using DebugInfo APIs. --- This is Part 1. llvm-svn: 63400
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bool isMain,
bool isOptimized,
StringRef Flags,
unsigned RunTimeVer) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_compile_unit),
llvm::Constant::getNullValue(Type::getInt32Ty(VMContext)),
ConstantInt::get(Type::getInt32Ty(VMContext), LangID),
MDString::get(VMContext, Filename),
MDString::get(VMContext, Directory),
MDString::get(VMContext, Producer),
ConstantInt::get(Type::getInt1Ty(VMContext), isMain),
ConstantInt::get(Type::getInt1Ty(VMContext), isOptimized),
MDString::get(VMContext, Flags),
ConstantInt::get(Type::getInt32Ty(VMContext), RunTimeVer)
};
return DICompileUnit(MDNode::get(VMContext, &Elts[0], 10));
}
/// CreateFile - Create a new descriptor for the specified file.
DIFile DIFactory::CreateFile(StringRef Filename,
StringRef Directory,
DICompileUnit CU) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_file_type),
MDString::get(VMContext, Filename),
MDString::get(VMContext, Directory),
CU
};
return DIFile(MDNode::get(VMContext, &Elts[0], 4));
}
/// CreateEnumerator - Create a single enumerator value.
DIEnumerator DIFactory::CreateEnumerator(StringRef Name, uint64_t Val){
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_enumerator),
MDString::get(VMContext, Name),
ConstantInt::get(Type::getInt64Ty(VMContext), Val)
};
return DIEnumerator(MDNode::get(VMContext, &Elts[0], 3));
}
/// CreateBasicType - Create a basic type like int, float, etc.
DIBasicType DIFactory::CreateBasicType(DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
uint64_t SizeInBits,
uint64_t AlignInBits,
uint64_t OffsetInBits, unsigned Flags,
Each input file is encoded as a separate compile unit in LLVM debugging information output. However, many target specific tool chains prefer to encode only one compile unit in an object file. In this situation, the LLVM code generator will include debugging information entities in the compile unit that is marked as main compile unit. The code generator accepts maximum one main compile unit per module. If a module does not contain any main compile unit then the code generator will emit multiple compile units in the output object file. [Part 1] Update DebugInfo APIs to accept optional boolean value while creating DICompileUnit to mark the unit as "main" unit. By defaults all units are considered non-main. Update SourceLevelDebugging.html to document "main" compile unit. Update DebugInfo APIs to not accept and encode separate source file/directory entries while creating various llvm.dbg.* entities. There was a recent, yet to be documented, change to include this additional information so no documentation changes are required here. Update DwarfDebug to handle "main" compile unit. If "main" compile unit is seen then all DIEs are inserted into "main" compile unit. All other compile units are used to find source location for llvm.dbg.* values. If there is not any "main" compile unit then create unique compile unit DIEs for each llvm.dbg.compile_unit. [Part 2] Create separate llvm.dbg.compile_unit for each input file. Mark compile unit create for main_input_filename as "main" compile unit. Use appropriate compile unit, based on source location information collected from the tree node, while creating llvm.dbg.* values using DebugInfo APIs. --- This is Part 1. llvm-svn: 63400
2009-01-31 02:20:31 +08:00
unsigned Encoding) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_base_type),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
ConstantInt::get(Type::getInt64Ty(VMContext), SizeInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), AlignInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), OffsetInBits),
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
ConstantInt::get(Type::getInt32Ty(VMContext), Encoding)
};
return DIBasicType(MDNode::get(VMContext, &Elts[0], 10));
}
/// CreateBasicType - Create a basic type like int, float, etc.
DIBasicType DIFactory::CreateBasicTypeEx(DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
Constant *SizeInBits,
Constant *AlignInBits,
Constant *OffsetInBits, unsigned Flags,
unsigned Encoding) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_base_type),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
SizeInBits,
AlignInBits,
OffsetInBits,
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
ConstantInt::get(Type::getInt32Ty(VMContext), Encoding)
};
return DIBasicType(MDNode::get(VMContext, &Elts[0], 10));
}
/// CreateArtificialType - Create a new DIType with "artificial" flag set.
DIType DIFactory::CreateArtificialType(DIType Ty) {
if (Ty.isArtificial())
return Ty;
SmallVector<Value *, 9> Elts;
MDNode *N = Ty;
assert (N && "Unexpected input DIType!");
for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i) {
if (Value *V = N->getOperand(i))
Elts.push_back(V);
else
Elts.push_back(Constant::getNullValue(Type::getInt32Ty(VMContext)));
}
unsigned CurFlags = Ty.getFlags();
CurFlags = CurFlags | DIType::FlagArtificial;
// Flags are stored at this slot.
Elts[8] = ConstantInt::get(Type::getInt32Ty(VMContext), CurFlags);
return DIType(MDNode::get(VMContext, Elts.data(), Elts.size()));
}
/// CreateDerivedType - Create a derived type like const qualified type,
/// pointer, typedef, etc.
DIDerivedType DIFactory::CreateDerivedType(unsigned Tag,
DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
uint64_t SizeInBits,
uint64_t AlignInBits,
uint64_t OffsetInBits,
unsigned Flags,
Each input file is encoded as a separate compile unit in LLVM debugging information output. However, many target specific tool chains prefer to encode only one compile unit in an object file. In this situation, the LLVM code generator will include debugging information entities in the compile unit that is marked as main compile unit. The code generator accepts maximum one main compile unit per module. If a module does not contain any main compile unit then the code generator will emit multiple compile units in the output object file. [Part 1] Update DebugInfo APIs to accept optional boolean value while creating DICompileUnit to mark the unit as "main" unit. By defaults all units are considered non-main. Update SourceLevelDebugging.html to document "main" compile unit. Update DebugInfo APIs to not accept and encode separate source file/directory entries while creating various llvm.dbg.* entities. There was a recent, yet to be documented, change to include this additional information so no documentation changes are required here. Update DwarfDebug to handle "main" compile unit. If "main" compile unit is seen then all DIEs are inserted into "main" compile unit. All other compile units are used to find source location for llvm.dbg.* values. If there is not any "main" compile unit then create unique compile unit DIEs for each llvm.dbg.compile_unit. [Part 2] Create separate llvm.dbg.compile_unit for each input file. Mark compile unit create for main_input_filename as "main" compile unit. Use appropriate compile unit, based on source location information collected from the tree node, while creating llvm.dbg.* values using DebugInfo APIs. --- This is Part 1. llvm-svn: 63400
2009-01-31 02:20:31 +08:00
DIType DerivedFrom) {
Value *Elts[] = {
GetTagConstant(Tag),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
ConstantInt::get(Type::getInt64Ty(VMContext), SizeInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), AlignInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), OffsetInBits),
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
DerivedFrom,
};
return DIDerivedType(MDNode::get(VMContext, &Elts[0], 10));
}
/// CreateDerivedType - Create a derived type like const qualified type,
/// pointer, typedef, etc.
DIDerivedType DIFactory::CreateDerivedTypeEx(unsigned Tag,
DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
Constant *SizeInBits,
Constant *AlignInBits,
Constant *OffsetInBits,
unsigned Flags,
DIType DerivedFrom) {
Value *Elts[] = {
GetTagConstant(Tag),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
SizeInBits,
AlignInBits,
OffsetInBits,
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
DerivedFrom,
};
return DIDerivedType(MDNode::get(VMContext, &Elts[0], 10));
}
/// CreateCompositeType - Create a composite type like array, struct, etc.
DICompositeType DIFactory::CreateCompositeType(unsigned Tag,
DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
uint64_t SizeInBits,
uint64_t AlignInBits,
uint64_t OffsetInBits,
unsigned Flags,
DIType DerivedFrom,
DIArray Elements,
unsigned RuntimeLang,
MDNode *ContainingType) {
Value *Elts[] = {
GetTagConstant(Tag),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
ConstantInt::get(Type::getInt64Ty(VMContext), SizeInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), AlignInBits),
ConstantInt::get(Type::getInt64Ty(VMContext), OffsetInBits),
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
DerivedFrom,
Elements,
ConstantInt::get(Type::getInt32Ty(VMContext), RuntimeLang),
ContainingType
};
MDNode *Node = MDNode::get(VMContext, &Elts[0], 13);
// Create a named metadata so that we do not lose this enum info.
if (Tag == dwarf::DW_TAG_enumeration_type) {
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.enum");
NMD->addOperand(Node);
}
return DICompositeType(Node);
}
/// CreateTemporaryType - Create a temporary forward-declared type.
DIType DIFactory::CreateTemporaryType() {
// Give the temporary MDNode a tag. It doesn't matter what tag we
// use here as long as DIType accepts it.
Value *Elts[] = {
GetTagConstant(DW_TAG_base_type)
};
MDNode *Node = MDNode::getTemporary(VMContext, Elts, array_lengthof(Elts));
return DIType(Node);
}
/// CreateCompositeType - Create a composite type like array, struct, etc.
DICompositeType DIFactory::CreateCompositeTypeEx(unsigned Tag,
DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNumber,
Constant *SizeInBits,
Constant *AlignInBits,
Constant *OffsetInBits,
unsigned Flags,
DIType DerivedFrom,
DIArray Elements,
unsigned RuntimeLang,
MDNode *ContainingType) {
Value *Elts[] = {
GetTagConstant(Tag),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNumber),
SizeInBits,
AlignInBits,
OffsetInBits,
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
DerivedFrom,
Elements,
ConstantInt::get(Type::getInt32Ty(VMContext), RuntimeLang),
ContainingType
};
MDNode *Node = MDNode::get(VMContext, &Elts[0], 13);
// Create a named metadata so that we do not lose this enum info.
if (Tag == dwarf::DW_TAG_enumeration_type) {
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.enum");
NMD->addOperand(Node);
}
return DICompositeType(Node);
}
/// CreateSubprogram - Create a new descriptor for the specified subprogram.
/// See comments in DISubprogram for descriptions of these fields. This
/// method does not unique the generated descriptors.
DISubprogram DIFactory::CreateSubprogram(DIDescriptor Context,
StringRef Name,
StringRef DisplayName,
StringRef LinkageName,
DIFile F,
unsigned LineNo, DIType Ty,
bool isLocalToUnit,
bool isDefinition,
unsigned VK, unsigned VIndex,
DIType ContainingType,
unsigned Flags,
bool isOptimized,
Function *Fn) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_subprogram),
llvm::Constant::getNullValue(Type::getInt32Ty(VMContext)),
Context,
MDString::get(VMContext, Name),
MDString::get(VMContext, DisplayName),
MDString::get(VMContext, LinkageName),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
Ty,
ConstantInt::get(Type::getInt1Ty(VMContext), isLocalToUnit),
ConstantInt::get(Type::getInt1Ty(VMContext), isDefinition),
ConstantInt::get(Type::getInt32Ty(VMContext), (unsigned)VK),
ConstantInt::get(Type::getInt32Ty(VMContext), VIndex),
ContainingType,
ConstantInt::get(Type::getInt32Ty(VMContext), Flags),
ConstantInt::get(Type::getInt1Ty(VMContext), isOptimized),
Fn
};
MDNode *Node = MDNode::get(VMContext, &Elts[0], 17);
// Create a named metadata so that we do not lose this mdnode.
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.sp");
NMD->addOperand(Node);
return DISubprogram(Node);
}
/// CreateSubprogramDefinition - Create new subprogram descriptor for the
2010-07-22 05:36:25 +08:00
/// given declaration.
DISubprogram DIFactory::CreateSubprogramDefinition(DISubprogram &SPDeclaration){
if (SPDeclaration.isDefinition())
return DISubprogram(SPDeclaration);
MDNode *DeclNode = SPDeclaration;
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_subprogram),
llvm::Constant::getNullValue(Type::getInt32Ty(VMContext)),
DeclNode->getOperand(2), // Context
DeclNode->getOperand(3), // Name
DeclNode->getOperand(4), // DisplayName
DeclNode->getOperand(5), // LinkageName
DeclNode->getOperand(6), // CompileUnit
DeclNode->getOperand(7), // LineNo
DeclNode->getOperand(8), // Type
DeclNode->getOperand(9), // isLocalToUnit
ConstantInt::get(Type::getInt1Ty(VMContext), true),
DeclNode->getOperand(11), // Virtuality
DeclNode->getOperand(12), // VIndex
DeclNode->getOperand(13), // Containting Type
DeclNode->getOperand(14), // Flags
DeclNode->getOperand(15), // isOptimized
SPDeclaration.getFunction()
};
MDNode *Node =MDNode::get(VMContext, &Elts[0], 16);
// Create a named metadata so that we do not lose this mdnode.
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.sp");
NMD->addOperand(Node);
return DISubprogram(Node);
}
/// CreateGlobalVariable - Create a new descriptor for the specified global.
DIGlobalVariable
DIFactory::CreateGlobalVariable(DIDescriptor Context, StringRef Name,
StringRef DisplayName,
StringRef LinkageName,
DIFile F,
unsigned LineNo, DIType Ty,bool isLocalToUnit,
Each input file is encoded as a separate compile unit in LLVM debugging information output. However, many target specific tool chains prefer to encode only one compile unit in an object file. In this situation, the LLVM code generator will include debugging information entities in the compile unit that is marked as main compile unit. The code generator accepts maximum one main compile unit per module. If a module does not contain any main compile unit then the code generator will emit multiple compile units in the output object file. [Part 1] Update DebugInfo APIs to accept optional boolean value while creating DICompileUnit to mark the unit as "main" unit. By defaults all units are considered non-main. Update SourceLevelDebugging.html to document "main" compile unit. Update DebugInfo APIs to not accept and encode separate source file/directory entries while creating various llvm.dbg.* entities. There was a recent, yet to be documented, change to include this additional information so no documentation changes are required here. Update DwarfDebug to handle "main" compile unit. If "main" compile unit is seen then all DIEs are inserted into "main" compile unit. All other compile units are used to find source location for llvm.dbg.* values. If there is not any "main" compile unit then create unique compile unit DIEs for each llvm.dbg.compile_unit. [Part 2] Create separate llvm.dbg.compile_unit for each input file. Mark compile unit create for main_input_filename as "main" compile unit. Use appropriate compile unit, based on source location information collected from the tree node, while creating llvm.dbg.* values using DebugInfo APIs. --- This is Part 1. llvm-svn: 63400
2009-01-31 02:20:31 +08:00
bool isDefinition, llvm::GlobalVariable *Val) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_variable),
llvm::Constant::getNullValue(Type::getInt32Ty(VMContext)),
Context,
MDString::get(VMContext, Name),
MDString::get(VMContext, DisplayName),
MDString::get(VMContext, LinkageName),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
Ty,
ConstantInt::get(Type::getInt1Ty(VMContext), isLocalToUnit),
ConstantInt::get(Type::getInt1Ty(VMContext), isDefinition),
Val
};
Value *const *Vs = &Elts[0];
MDNode *Node = MDNode::get(VMContext,Vs, 12);
// Create a named metadata so that we do not lose this mdnode.
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.gv");
NMD->addOperand(Node);
return DIGlobalVariable(Node);
}
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/// CreateGlobalVariable - Create a new descriptor for the specified constant.
DIGlobalVariable
DIFactory::CreateGlobalVariable(DIDescriptor Context, StringRef Name,
StringRef DisplayName,
StringRef LinkageName,
DIFile F,
unsigned LineNo, DIType Ty,bool isLocalToUnit,
bool isDefinition, llvm::Constant *Val) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_variable),
2010-08-10 05:39:24 +08:00
llvm::Constant::getNullValue(Type::getInt32Ty(VMContext)),
Context,
MDString::get(VMContext, Name),
MDString::get(VMContext, DisplayName),
MDString::get(VMContext, LinkageName),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
Ty,
ConstantInt::get(Type::getInt1Ty(VMContext), isLocalToUnit),
ConstantInt::get(Type::getInt1Ty(VMContext), isDefinition),
Val
};
Value *const *Vs = &Elts[0];
MDNode *Node = MDNode::get(VMContext,Vs, 12);
// Create a named metadata so that we do not lose this mdnode.
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.gv");
NMD->addOperand(Node);
return DIGlobalVariable(Node);
}
/// CreateVariable - Create a new descriptor for the specified variable.
DIVariable DIFactory::CreateVariable(unsigned Tag, DIDescriptor Context,
StringRef Name,
DIFile F,
unsigned LineNo,
DIType Ty, bool AlwaysPreserve,
unsigned Flags) {
Value *Elts[] = {
GetTagConstant(Tag),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
Ty,
ConstantInt::get(Type::getInt32Ty(VMContext), Flags)
};
MDNode *Node = MDNode::get(VMContext, &Elts[0], 7);
if (AlwaysPreserve) {
// The optimizer may remove local variable. If there is an interest
// to preserve variable info in such situation then stash it in a
// named mdnode.
DISubprogram Fn(getDISubprogram(Context));
StringRef FName = "fn";
if (Fn.getFunction())
FName = Fn.getFunction()->getName();
char One = '\1';
if (FName.startswith(StringRef(&One, 1)))
FName = FName.substr(1);
SmallString<32> Out;
NamedMDNode *FnLocals =
M.getOrInsertNamedMetadata(Twine("llvm.dbg.lv.", FName).toStringRef(Out));
FnLocals->addOperand(Node);
}
return DIVariable(Node);
}
/// CreateComplexVariable - Create a new descriptor for the specified variable
/// which has a complex address expression for its address.
DIVariable DIFactory::CreateComplexVariable(unsigned Tag, DIDescriptor Context,
StringRef Name, DIFile F,
unsigned LineNo,
DIType Ty, Value *const *Addr,
unsigned NumAddr) {
SmallVector<Value *, 15> Elts;
Elts.push_back(GetTagConstant(Tag));
Elts.push_back(Context);
Elts.push_back(MDString::get(VMContext, Name));
Elts.push_back(F);
Elts.push_back(ConstantInt::get(Type::getInt32Ty(VMContext), LineNo));
Elts.push_back(Ty);
Elts.append(Addr, Addr+NumAddr);
return DIVariable(MDNode::get(VMContext, Elts.data(), Elts.size()));
}
/// CreateBlock - This creates a descriptor for a lexical block with the
/// specified parent VMContext.
DILexicalBlock DIFactory::CreateLexicalBlock(DIDescriptor Context,
DIFile F, unsigned LineNo,
unsigned Col) {
// Defeat MDNode uniqing for lexical blocks.
static unsigned int unique_id = 0;
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_lexical_block),
Context,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
ConstantInt::get(Type::getInt32Ty(VMContext), Col),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), unique_id++)
};
return DILexicalBlock(MDNode::get(VMContext, &Elts[0], 6));
}
/// CreateNameSpace - This creates new descriptor for a namespace
/// with the specified parent context.
DINameSpace DIFactory::CreateNameSpace(DIDescriptor Context, StringRef Name,
DIFile F,
unsigned LineNo) {
Value *Elts[] = {
GetTagConstant(dwarf::DW_TAG_namespace),
Context,
MDString::get(VMContext, Name),
F,
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo)
};
return DINameSpace(MDNode::get(VMContext, &Elts[0], 5));
}
2009-09-01 09:14:15 +08:00
/// CreateLocation - Creates a debug info location.
DILocation DIFactory::CreateLocation(unsigned LineNo, unsigned ColumnNo,
DIScope S, DILocation OrigLoc) {
2009-09-01 09:14:15 +08:00
Value *Elts[] = {
ConstantInt::get(Type::getInt32Ty(VMContext), LineNo),
ConstantInt::get(Type::getInt32Ty(VMContext), ColumnNo),
S,
OrigLoc,
2009-09-01 09:14:15 +08:00
};
return DILocation(MDNode::get(VMContext, &Elts[0], 4));
}
//===----------------------------------------------------------------------===//
// DIFactory: Routines for inserting code into a function
//===----------------------------------------------------------------------===//
/// InsertDeclare - Insert a new llvm.dbg.declare intrinsic call.
Instruction *DIFactory::InsertDeclare(Value *Storage, DIVariable D,
Instruction *InsertBefore) {
assert(Storage && "no storage passed to dbg.declare");
assert(D.Verify() && "empty DIVariable passed to dbg.declare");
if (!DeclareFn)
DeclareFn = Intrinsic::getDeclaration(&M, Intrinsic::dbg_declare);
Value *Args[] = { MDNode::get(Storage->getContext(), &Storage, 1),
D };
return CallInst::Create(DeclareFn, Args, Args+2, "", InsertBefore);
}
/// InsertDeclare - Insert a new llvm.dbg.declare intrinsic call.
Instruction *DIFactory::InsertDeclare(Value *Storage, DIVariable D,
BasicBlock *InsertAtEnd) {
assert(Storage && "no storage passed to dbg.declare");
assert(D.Verify() && "invalid DIVariable passed to dbg.declare");
if (!DeclareFn)
DeclareFn = Intrinsic::getDeclaration(&M, Intrinsic::dbg_declare);
Value *Args[] = { MDNode::get(Storage->getContext(), &Storage, 1),
D };
// If this block already has a terminator then insert this intrinsic
// before the terminator.
2010-07-22 05:36:25 +08:00
if (TerminatorInst *T = InsertAtEnd->getTerminator())
return CallInst::Create(DeclareFn, Args, Args+2, "", T);
else
return CallInst::Create(DeclareFn, Args, Args+2, "", InsertAtEnd);}
/// InsertDbgValueIntrinsic - Insert a new llvm.dbg.value intrinsic call.
Instruction *DIFactory::InsertDbgValueIntrinsic(Value *V, uint64_t Offset,
DIVariable D,
Instruction *InsertBefore) {
assert(V && "no value passed to dbg.value");
assert(D.Verify() && "invalid DIVariable passed to dbg.value");
if (!ValueFn)
ValueFn = Intrinsic::getDeclaration(&M, Intrinsic::dbg_value);
Value *Args[] = { MDNode::get(V->getContext(), &V, 1),
ConstantInt::get(Type::getInt64Ty(V->getContext()), Offset),
D };
return CallInst::Create(ValueFn, Args, Args+3, "", InsertBefore);
}
/// InsertDbgValueIntrinsic - Insert a new llvm.dbg.value intrinsic call.
Instruction *DIFactory::InsertDbgValueIntrinsic(Value *V, uint64_t Offset,
DIVariable D,
BasicBlock *InsertAtEnd) {
assert(V && "no value passed to dbg.value");
assert(D.Verify() && "invalid DIVariable passed to dbg.value");
if (!ValueFn)
ValueFn = Intrinsic::getDeclaration(&M, Intrinsic::dbg_value);
2010-07-22 05:36:25 +08:00
Value *Args[] = { MDNode::get(V->getContext(), &V, 1),
ConstantInt::get(Type::getInt64Ty(V->getContext()), Offset),
D };
return CallInst::Create(ValueFn, Args, Args+3, "", InsertAtEnd);
}
// RecordType - Record DIType in a module such that it is not lost even if
// it is not referenced through debug info anchors.
void DIFactory::RecordType(DIType T) {
NamedMDNode *NMD = M.getOrInsertNamedMetadata("llvm.dbg.ty");
NMD->addOperand(T);
}
//===----------------------------------------------------------------------===//
// DebugInfoFinder implementations.
//===----------------------------------------------------------------------===//
/// processModule - Process entire module and collect debug info.
void DebugInfoFinder::processModule(Module &M) {
for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I)
for (Function::iterator FI = (*I).begin(), FE = (*I).end(); FI != FE; ++FI)
for (BasicBlock::iterator BI = (*FI).begin(), BE = (*FI).end(); BI != BE;
++BI) {
if (DbgDeclareInst *DDI = dyn_cast<DbgDeclareInst>(BI))
processDeclare(DDI);
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DebugLoc Loc = BI->getDebugLoc();
if (Loc.isUnknown())
continue;
2010-07-22 05:36:25 +08:00
LLVMContext &Ctx = BI->getContext();
DIDescriptor Scope(Loc.getScope(Ctx));
2010-07-22 05:36:25 +08:00
if (Scope.isCompileUnit())
addCompileUnit(DICompileUnit(Scope));
else if (Scope.isSubprogram())
processSubprogram(DISubprogram(Scope));
else if (Scope.isLexicalBlock())
processLexicalBlock(DILexicalBlock(Scope));
2010-07-22 05:36:25 +08:00
if (MDNode *IA = Loc.getInlinedAt(Ctx))
processLocation(DILocation(IA));
}
if (NamedMDNode *NMD = M.getNamedMetadata("llvm.dbg.gv")) {
for (unsigned i = 0, e = NMD->getNumOperands(); i != e; ++i) {
DIGlobalVariable DIG(cast<MDNode>(NMD->getOperand(i)));
if (addGlobalVariable(DIG)) {
addCompileUnit(DIG.getCompileUnit());
processType(DIG.getType());
}
}
}
if (NamedMDNode *NMD = M.getNamedMetadata("llvm.dbg.sp"))
for (unsigned i = 0, e = NMD->getNumOperands(); i != e; ++i)
processSubprogram(DISubprogram(NMD->getOperand(i)));
}
/// processLocation - Process DILocation.
void DebugInfoFinder::processLocation(DILocation Loc) {
if (!Loc.Verify()) return;
DIDescriptor S(Loc.getScope());
if (S.isCompileUnit())
addCompileUnit(DICompileUnit(S));
else if (S.isSubprogram())
processSubprogram(DISubprogram(S));
else if (S.isLexicalBlock())
processLexicalBlock(DILexicalBlock(S));
processLocation(Loc.getOrigLocation());
}
/// processType - Process DIType.
void DebugInfoFinder::processType(DIType DT) {
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if (!addType(DT))
return;
addCompileUnit(DT.getCompileUnit());
if (DT.isCompositeType()) {
DICompositeType DCT(DT);
processType(DCT.getTypeDerivedFrom());
DIArray DA = DCT.getTypeArray();
for (unsigned i = 0, e = DA.getNumElements(); i != e; ++i) {
DIDescriptor D = DA.getElement(i);
if (D.isType())
processType(DIType(D));
else if (D.isSubprogram())
processSubprogram(DISubprogram(D));
}
} else if (DT.isDerivedType()) {
DIDerivedType DDT(DT);
processType(DDT.getTypeDerivedFrom());
}
}
/// processLexicalBlock
void DebugInfoFinder::processLexicalBlock(DILexicalBlock LB) {
DIScope Context = LB.getContext();
if (Context.isLexicalBlock())
return processLexicalBlock(DILexicalBlock(Context));
else
return processSubprogram(DISubprogram(Context));
}
/// processSubprogram - Process DISubprogram.
void DebugInfoFinder::processSubprogram(DISubprogram SP) {
if (!addSubprogram(SP))
return;
addCompileUnit(SP.getCompileUnit());
processType(SP.getType());
}
/// processDeclare - Process DbgDeclareInst.
void DebugInfoFinder::processDeclare(DbgDeclareInst *DDI) {
MDNode *N = dyn_cast<MDNode>(DDI->getVariable());
if (!N) return;
DIDescriptor DV(N);
if (!DV.isVariable())
return;
if (!NodesSeen.insert(DV))
return;
addCompileUnit(DIVariable(N).getCompileUnit());
processType(DIVariable(N).getType());
}
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/// addType - Add type into Tys.
bool DebugInfoFinder::addType(DIType DT) {
if (!DT.isValid())
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return false;
if (!NodesSeen.insert(DT))
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return false;
TYs.push_back(DT);
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return true;
}
/// addCompileUnit - Add compile unit into CUs.
bool DebugInfoFinder::addCompileUnit(DICompileUnit CU) {
if (!CU.Verify())
return false;
if (!NodesSeen.insert(CU))
return false;
CUs.push_back(CU);
return true;
}
/// addGlobalVariable - Add global variable into GVs.
bool DebugInfoFinder::addGlobalVariable(DIGlobalVariable DIG) {
if (!DIDescriptor(DIG).isGlobalVariable())
return false;
if (!NodesSeen.insert(DIG))
return false;
GVs.push_back(DIG);
return true;
}
// addSubprogram - Add subprgoram into SPs.
bool DebugInfoFinder::addSubprogram(DISubprogram SP) {
if (!DIDescriptor(SP).isSubprogram())
return false;
if (!NodesSeen.insert(SP))
return false;
SPs.push_back(SP);
return true;
}
/// Find the debug info descriptor corresponding to this global variable.
static Value *findDbgGlobalDeclare(GlobalVariable *V) {
const Module *M = V->getParent();
NamedMDNode *NMD = M->getNamedMetadata("llvm.dbg.gv");
if (!NMD)
return 0;
for (unsigned i = 0, e = NMD->getNumOperands(); i != e; ++i) {
DIDescriptor DIG(cast<MDNode>(NMD->getOperand(i)));
if (!DIG.isGlobalVariable())
continue;
if (DIGlobalVariable(DIG).getGlobal() == V)
return DIG;
}
return 0;
}
/// Finds the llvm.dbg.declare intrinsic corresponding to this value if any.
/// It looks through pointer casts too.
static const DbgDeclareInst *findDbgDeclare(const Value *V) {
V = V->stripPointerCasts();
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if (!isa<Instruction>(V) && !isa<Argument>(V))
return 0;
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const Function *F = NULL;
if (const Instruction *I = dyn_cast<Instruction>(V))
F = I->getParent()->getParent();
else if (const Argument *A = dyn_cast<Argument>(V))
F = A->getParent();
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for (Function::const_iterator FI = F->begin(), FE = F->end(); FI != FE; ++FI)
for (BasicBlock::const_iterator BI = (*FI).begin(), BE = (*FI).end();
BI != BE; ++BI)
if (const DbgDeclareInst *DDI = dyn_cast<DbgDeclareInst>(BI))
if (DDI->getAddress() == V)
return DDI;
return 0;
}
bool llvm::getLocationInfo(const Value *V, std::string &DisplayName,
std::string &Type, unsigned &LineNo,
std::string &File, std::string &Dir) {
DICompileUnit Unit;
DIType TypeD;
if (GlobalVariable *GV = dyn_cast<GlobalVariable>(const_cast<Value*>(V))) {
Value *DIGV = findDbgGlobalDeclare(GV);
if (!DIGV) return false;
DIGlobalVariable Var(cast<MDNode>(DIGV));
StringRef D = Var.getDisplayName();
if (!D.empty())
DisplayName = D;
LineNo = Var.getLineNumber();
Unit = Var.getCompileUnit();
TypeD = Var.getType();
} else {
const DbgDeclareInst *DDI = findDbgDeclare(V);
if (!DDI) return false;
DIVariable Var(cast<MDNode>(DDI->getVariable()));
StringRef D = Var.getName();
if (!D.empty())
DisplayName = D;
LineNo = Var.getLineNumber();
Unit = Var.getCompileUnit();
TypeD = Var.getType();
}
StringRef T = TypeD.getName();
if (!T.empty())
Type = T;
StringRef F = Unit.getFilename();
if (!F.empty())
File = F;
StringRef D = Unit.getDirectory();
if (!D.empty())
Dir = D;
return true;
}
/// getDISubprogram - Find subprogram that is enclosing this scope.
DISubprogram llvm::getDISubprogram(const MDNode *Scope) {
DIDescriptor D(Scope);
if (D.isSubprogram())
return DISubprogram(Scope);
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if (D.isLexicalBlock())
return getDISubprogram(DILexicalBlock(Scope).getContext());
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return DISubprogram();
}
/// getDICompositeType - Find underlying composite type.
DICompositeType llvm::getDICompositeType(DIType T) {
if (T.isCompositeType())
return DICompositeType(T);
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if (T.isDerivedType())
return getDICompositeType(DIDerivedType(T).getTypeDerivedFrom());
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return DICompositeType();
}