//======-- DebugProgramInstruction.cpp - Implement DPValues/DPMarkers --======//
//
// 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 "llvm/IR/DebugInfoMetadata.h"
#include "llvm/IR/DebugProgramInstruction.h"
#include "llvm/IR/DIBuilder.h"
#include "llvm/IR/IntrinsicInst.h"
namespace llvm {
DPValue::DPValue(const DbgVariableIntrinsic *DVI)
: DebugValueUser({DVI->getRawLocation(), nullptr, nullptr}),
Variable(DVI->getVariable()), Expression(DVI->getExpression()),
DbgLoc(DVI->getDebugLoc()), AddressExpression(nullptr) {
switch (DVI->getIntrinsicID()) {
case Intrinsic::dbg_value:
Type = LocationType::Value;
break;
case Intrinsic::dbg_declare:
Type = LocationType::Declare;
break;
case Intrinsic::dbg_assign: {
Type = LocationType::Assign;
const DbgAssignIntrinsic *Assign =
static_cast<const DbgAssignIntrinsic *>(DVI);
resetDebugValue(1, Assign->getRawAddress());
AddressExpression = Assign->getAddressExpression();
setAssignId(Assign->getAssignID());
break;
}
default:
llvm_unreachable(
"Trying to create a DPValue with an invalid intrinsic type!");
}
}
DPValue::DPValue(const DPValue &DPV)
: DebugValueUser(DPV.DebugValues), Variable(DPV.getVariable()),
Expression(DPV.getExpression()), DbgLoc(DPV.getDebugLoc()),
AddressExpression(DPV.AddressExpression), Type(DPV.getType()) {}
DPValue::DPValue(Metadata *Location, DILocalVariable *DV, DIExpression *Expr,
const DILocation *DI, LocationType Type)
: DebugValueUser({Location, nullptr, nullptr}), Variable(DV),
Expression(Expr), DbgLoc(DI), Type(Type) {}
DPValue::DPValue(Metadata *Value, DILocalVariable *Variable,
DIExpression *Expression, DIAssignID *AssignID,
Metadata *Address, DIExpression *AddressExpression,
const DILocation *DI)
: DebugValueUser({Value, Address, AssignID}), Variable(Variable),
Expression(Expression), DbgLoc(DI), AddressExpression(AddressExpression),
Type(LocationType::Assign) {}
void DPValue::deleteInstr() { delete this; }
DPValue *DPValue::createDPValue(Value *Location, DILocalVariable *DV,
DIExpression *Expr, const DILocation *DI) {
return new DPValue(ValueAsMetadata::get(Location), DV, Expr, DI,
LocationType::Value);
}
DPValue *DPValue::createDPValue(Value *Location, DILocalVariable *DV,
DIExpression *Expr, const DILocation *DI,
DPValue &InsertBefore) {
auto *NewDPValue = createDPValue(Location, DV, Expr, DI);
NewDPValue->insertBefore(&InsertBefore);
return NewDPValue;
}
DPValue *DPValue::createDPVDeclare(Value *Address, DILocalVariable *DV,
DIExpression *Expr, const DILocation *DI) {
return new DPValue(ValueAsMetadata::get(Address), DV, Expr, DI,
LocationType::Declare);
}
DPValue *DPValue::createDPVDeclare(Value *Address, DILocalVariable *DV,
DIExpression *Expr, const DILocation *DI,
DPValue &InsertBefore) {
auto *NewDPVDeclare = createDPVDeclare(Address, DV, Expr, DI);
NewDPVDeclare->insertBefore(&InsertBefore);
return NewDPVDeclare;
}
DPValue *DPValue::createDPVAssign(Value *Val, DILocalVariable *Variable,
DIExpression *Expression,
DIAssignID *AssignID, Value *Address,
DIExpression *AddressExpression,
const DILocation *DI) {
return new DPValue(ValueAsMetadata::get(Val), Variable, Expression, AssignID,
ValueAsMetadata::get(Address), AddressExpression, DI);
}
DPValue *DPValue::createLinkedDPVAssign(Instruction *LinkedInstr, Value *Val,
DILocalVariable *Variable,
DIExpression *Expression,
Value *Address,
DIExpression *AddressExpression,
const DILocation *DI) {
auto *Link = LinkedInstr->getMetadata(LLVMContext::MD_DIAssignID);
assert(Link && "Linked instruction must have DIAssign metadata attached");
auto *NewDPVAssign = DPValue::createDPVAssign(Val, Variable, Expression,
cast<DIAssignID>(Link), Address,
AddressExpression, DI);
LinkedInstr->getParent()->insertDPValueAfter(NewDPVAssign, LinkedInstr);
return NewDPVAssign;
}
iterator_range<DPValue::location_op_iterator> DPValue::location_ops() const {
auto *MD = getRawLocation();
// If a Value has been deleted, the "location" for this DPValue will be
// replaced by nullptr. Return an empty range.
if (!MD)
return {location_op_iterator(static_cast<ValueAsMetadata *>(nullptr)),
location_op_iterator(static_cast<ValueAsMetadata *>(nullptr))};
// If operand is ValueAsMetadata, return a range over just that operand.
if (auto *VAM = dyn_cast<ValueAsMetadata>(MD))
return {location_op_iterator(VAM), location_op_iterator(VAM + 1)};
// If operand is DIArgList, return a range over its args.
if (auto *AL = dyn_cast<DIArgList>(MD))
return {location_op_iterator(AL->args_begin()),
location_op_iterator(AL->args_end())};
// Operand is an empty metadata tuple, so return empty iterator.
assert(cast<MDNode>(MD)->getNumOperands() == 0);
return {location_op_iterator(static_cast<ValueAsMetadata *>(nullptr)),
location_op_iterator(static_cast<ValueAsMetadata *>(nullptr))};
}
unsigned DPValue::getNumVariableLocationOps() const {
if (hasArgList())
return cast<DIArgList>(getRawLocation())->getArgs().size();
return 1;
}
Value *DPValue::getVariableLocationOp(unsigned OpIdx) const {
auto *MD = getRawLocation();
if (!MD)
return nullptr;
if (auto *AL = dyn_cast<DIArgList>(MD))
return AL->getArgs()[OpIdx]->getValue();
if (isa<MDNode>(MD))
return nullptr;
assert(isa<ValueAsMetadata>(MD) &&
"Attempted to get location operand from DPValue with none.");
auto *V = cast<ValueAsMetadata>(MD);
assert(OpIdx == 0 && "Operand Index must be 0 for a debug intrinsic with a "
"single location operand.");
return V->getValue();
}
static ValueAsMetadata *getAsMetadata(Value *V) {
return isa<MetadataAsValue>(V) ? dyn_cast<ValueAsMetadata>(
cast<MetadataAsValue>(V)->getMetadata())
: ValueAsMetadata::get(V);
}
void DPValue::replaceVariableLocationOp(Value *OldValue, Value *NewValue,
bool AllowEmpty) {
assert(NewValue && "Values must be non-null");
bool DbgAssignAddrReplaced = isDbgAssign() && OldValue == getAddress();
if (DbgAssignAddrReplaced)
setAddress(NewValue);
auto Locations = location_ops();
auto OldIt = find(Locations, OldValue);
if (OldIt == Locations.end()) {
if (AllowEmpty || DbgAssignAddrReplaced)
return;
llvm_unreachable("OldValue must be a current location");
}
if (!hasArgList()) {
// Set our location to be the MAV wrapping the new Value.
setRawLocation(isa<MetadataAsValue>(NewValue)
? cast<MetadataAsValue>(NewValue)->getMetadata()
: ValueAsMetadata::get(NewValue));
return;
}
// We must be referring to a DIArgList, produce a new operands vector with the
// old value replaced, generate a new DIArgList and set it as our location.
SmallVector<ValueAsMetadata *, 4> MDs;
ValueAsMetadata *NewOperand = getAsMetadata(NewValue);
for (auto *VMD : Locations)
MDs.push_back(VMD == *OldIt ? NewOperand : getAsMetadata(VMD));
setRawLocation(DIArgList::get(getVariableLocationOp(0)->getContext(), MDs));
}
void DPValue::replaceVariableLocationOp(unsigned OpIdx, Value *NewValue) {
assert(OpIdx < getNumVariableLocationOps() && "Invalid Operand Index");
if (!hasArgList()) {
setRawLocation(isa<MetadataAsValue>(NewValue)
? cast<MetadataAsValue>(NewValue)->getMetadata()
: ValueAsMetadata::get(NewValue));
return;
}
SmallVector<ValueAsMetadata *, 4> MDs;
ValueAsMetadata *NewOperand = getAsMetadata(NewValue);
for (unsigned Idx = 0; Idx < getNumVariableLocationOps(); ++Idx)
MDs.push_back(Idx == OpIdx ? NewOperand
: getAsMetadata(getVariableLocationOp(Idx)));
setRawLocation(DIArgList::get(getVariableLocationOp(0)->getContext(), MDs));
}
void DPValue::addVariableLocationOps(ArrayRef<Value *> NewValues,
DIExpression *NewExpr) {
assert(NewExpr->hasAllLocationOps(getNumVariableLocationOps() +
NewValues.size()) &&
"NewExpr for debug variable intrinsic does not reference every "
"location operand.");
assert(!is_contained(NewValues, nullptr) && "New values must be non-null");
setExpression(NewExpr);
SmallVector<ValueAsMetadata *, 4> MDs;
for (auto *VMD : location_ops())
MDs.push_back(getAsMetadata(VMD));
for (auto *VMD : NewValues)
MDs.push_back(getAsMetadata(VMD));
setRawLocation(DIArgList::get(getVariableLocationOp(0)->getContext(), MDs));
}
void DPValue::setKillLocation() {
// TODO: When/if we remove duplicate values from DIArgLists, we don't need
// this set anymore.
SmallPtrSet<Value *, 4> RemovedValues;
for (Value *OldValue : location_ops()) {
if (!RemovedValues.insert(OldValue).second)
continue;
Value *Poison = PoisonValue::get(OldValue->getType());
replaceVariableLocationOp(OldValue, Poison);
}
}
bool DPValue::isKillLocation() const {
return (getNumVariableLocationOps() == 0 &&
!getExpression()->isComplex()) ||
any_of(location_ops(), [](Value *V) { return isa<UndefValue>(V); });
}
std::optional<uint64_t> DPValue::getFragmentSizeInBits() const {
if (auto Fragment = getExpression()->getFragmentInfo())
return Fragment->SizeInBits;
return getVariable()->getSizeInBits();
}
DPValue *DPValue::clone() const { return new DPValue(*this); }
DbgVariableIntrinsic *
DPValue::createDebugIntrinsic(Module *M, Instruction *InsertBefore) const {
[[maybe_unused]] DICompileUnit *Unit =
getDebugLoc().get()->getScope()->getSubprogram()->getUnit();
assert(M && Unit &&
"Cannot clone from BasicBlock that is not part of a Module or "
"DICompileUnit!");
LLVMContext &Context = getDebugLoc()->getContext();
Function *IntrinsicFn;
// Work out what sort of intrinsic we're going to produce.
switch (getType()) {
case DPValue::LocationType::Declare:
IntrinsicFn = Intrinsic::getDeclaration(M, Intrinsic::dbg_declare);
break;
case DPValue::LocationType::Value:
IntrinsicFn = Intrinsic::getDeclaration(M, Intrinsic::dbg_value);
break;
case DPValue::LocationType::Assign:
IntrinsicFn = Intrinsic::getDeclaration(M, Intrinsic::dbg_assign);
break;
case DPValue::LocationType::End:
case DPValue::LocationType::Any:
llvm_unreachable("Invalid LocationType");
}
// Create the intrinsic from this DPValue's information, optionally insert
// into the target location.
DbgVariableIntrinsic *DVI;
if (isDbgAssign()) {
Value *AssignArgs[] = {
MetadataAsValue::get(Context, getRawLocation()),
MetadataAsValue::get(Context, getVariable()),
MetadataAsValue::get(Context, getExpression()),
MetadataAsValue::get(Context, getAssignID()),
MetadataAsValue::get(Context, getRawAddress()),
MetadataAsValue::get(Context, getAddressExpression())};
DVI = cast<DbgVariableIntrinsic>(CallInst::Create(
IntrinsicFn->getFunctionType(), IntrinsicFn, AssignArgs));
} else {
Value *Args[] = {MetadataAsValue::get(Context, getRawLocation()),
MetadataAsValue::get(Context, getVariable()),
MetadataAsValue::get(Context, getExpression())};
DVI = cast<DbgVariableIntrinsic>(
CallInst::Create(IntrinsicFn->getFunctionType(), IntrinsicFn, Args));
}
DVI->setTailCall();
DVI->setDebugLoc(getDebugLoc());
if (InsertBefore)
DVI->insertBefore(InsertBefore);
return DVI;
}
Value *DPValue::getAddress() const {
auto *MD = getRawAddress();
if (auto *V = dyn_cast<ValueAsMetadata>(MD))
return V->getValue();
// When the value goes to null, it gets replaced by an empty MDNode.
assert(!cast<MDNode>(MD)->getNumOperands() && "Expected an empty MDNode");
return nullptr;
}
DIAssignID *DPValue::getAssignID() const {
return cast<DIAssignID>(DebugValues[2]);
}
void DPValue::setAssignId(DIAssignID *New) { resetDebugValue(2, New); }
void DPValue::setKillAddress() {
resetDebugValue(
1, ValueAsMetadata::get(UndefValue::get(getAddress()->getType())));
}
bool DPValue::isKillAddress() const {
Value *Addr = getAddress();
return !Addr || isa<UndefValue>(Addr);
}
const BasicBlock *DPValue::getParent() const {
return Marker->MarkedInstr->getParent();
}
BasicBlock *DPValue::getParent() { return Marker->MarkedInstr->getParent(); }
BasicBlock *DPValue::getBlock() { return Marker->getParent(); }
const BasicBlock *DPValue::getBlock() const { return Marker->getParent(); }
Function *DPValue::getFunction() { return getBlock()->getParent(); }
const Function *DPValue::getFunction() const { return getBlock()->getParent(); }
Module *DPValue::getModule() { return getFunction()->getParent(); }
const Module *DPValue::getModule() const { return getFunction()->getParent(); }
LLVMContext &DPValue::getContext() { return getBlock()->getContext(); }
const LLVMContext &DPValue::getContext() const {
return getBlock()->getContext();
}
void DPValue::insertBefore(DPValue *InsertBefore) {
assert(!getMarker() &&
"Cannot insert a DPValue that is already has a DPMarker!");
assert(InsertBefore->getMarker() &&
"Cannot insert a DPValue before a DPValue that does not have a "
"DPMarker!");
InsertBefore->getMarker()->insertDPValue(this, InsertBefore);
}
void DPValue::insertAfter(DPValue *InsertAfter) {
assert(!getMarker() &&
"Cannot insert a DPValue that is already has a DPMarker!");
assert(InsertAfter->getMarker() &&
"Cannot insert a DPValue after a DPValue that does not have a "
"DPMarker!");
InsertAfter->getMarker()->insertDPValueAfter(this, InsertAfter);
}
void DPValue::moveBefore(DPValue *MoveBefore) {
assert(getMarker() &&
"Canot move a DPValue that does not currently have a DPMarker!");
removeFromParent();
insertBefore(MoveBefore);
}
void DPValue::moveAfter(DPValue *MoveAfter) {
assert(getMarker() &&
"Canot move a DPValue that does not currently have a DPMarker!");
removeFromParent();
insertAfter(MoveAfter);
}
///////////////////////////////////////////////////////////////////////////////
// An empty, global, DPMarker for the purpose of describing empty ranges of
// DPValues.
DPMarker DPMarker::EmptyDPMarker;
void DPMarker::dropDPValues() {
while (!StoredDPValues.empty()) {
auto It = StoredDPValues.begin();
DPValue *DPV = &*It;
StoredDPValues.erase(It);
DPV->deleteInstr();
}
}
void DPMarker::dropOneDPValue(DPValue *DPV) {
assert(DPV->getMarker() == this);
StoredDPValues.erase(DPV->getIterator());
DPV->deleteInstr();
}
const BasicBlock *DPMarker::getParent() const {
return MarkedInstr->getParent();
}
BasicBlock *DPMarker::getParent() { return MarkedInstr->getParent(); }
void DPMarker::removeMarker() {
// Are there any DPValues in this DPMarker? If not, nothing to preserve.
Instruction *Owner = MarkedInstr;
if (StoredDPValues.empty()) {
eraseFromParent();
Owner->DbgMarker = nullptr;
return;
}
// The attached DPValues need to be preserved; attach them to the next
// instruction. If there isn't a next instruction, put them on the
// "trailing" list.
DPMarker *NextMarker = Owner->getParent()->getNextMarker(Owner);
if (NextMarker == nullptr) {
NextMarker = new DPMarker();
Owner->getParent()->setTrailingDPValues(NextMarker);
}
NextMarker->absorbDebugValues(*this, true);
eraseFromParent();
}
void DPMarker::removeFromParent() {
MarkedInstr->DbgMarker = nullptr;
MarkedInstr = nullptr;
}
void DPMarker::eraseFromParent() {
if (MarkedInstr)
removeFromParent();
dropDPValues();
delete this;
}
iterator_range<DPValue::self_iterator> DPMarker::getDbgValueRange() {
return make_range(StoredDPValues.begin(), StoredDPValues.end());
}
iterator_range<DPValue::const_self_iterator>
DPMarker::getDbgValueRange() const {
return make_range(StoredDPValues.begin(), StoredDPValues.end());
}
void DPValue::removeFromParent() {
getMarker()->StoredDPValues.erase(getIterator());
Marker = nullptr;
}
void DPValue::eraseFromParent() {
removeFromParent();
deleteInstr();
}
void DPMarker::insertDPValue(DPValue *New, bool InsertAtHead) {
auto It = InsertAtHead ? StoredDPValues.begin() : StoredDPValues.end();
StoredDPValues.insert(It, *New);
New->setMarker(this);
}
void DPMarker::insertDPValue(DPValue *New, DPValue *InsertBefore) {
assert(InsertBefore->getMarker() == this &&
"DPValue 'InsertBefore' must be contained in this DPMarker!");
StoredDPValues.insert(InsertBefore->getIterator(), *New);
New->setMarker(this);
}
void DPMarker::insertDPValueAfter(DPValue *New, DPValue *InsertAfter) {
assert(InsertAfter->getMarker() == this &&
"DPValue 'InsertAfter' must be contained in this DPMarker!");
StoredDPValues.insert(++(InsertAfter->getIterator()), *New);
New->setMarker(this);
}
void DPMarker::absorbDebugValues(DPMarker &Src, bool InsertAtHead) {
auto It = InsertAtHead ? StoredDPValues.begin() : StoredDPValues.end();
for (DPValue &DPV : Src.StoredDPValues)
DPV.setMarker(this);
StoredDPValues.splice(It, Src.StoredDPValues);
}
void DPMarker::absorbDebugValues(iterator_range<DPValue::self_iterator> Range,
DPMarker &Src, bool InsertAtHead) {
for (DPValue &DPV : Range)
DPV.setMarker(this);
auto InsertPos =
(InsertAtHead) ? StoredDPValues.begin() : StoredDPValues.end();
StoredDPValues.splice(InsertPos, Src.StoredDPValues, Range.begin(),
Range.end());
}
iterator_range<simple_ilist<DPValue>::iterator> DPMarker::cloneDebugInfoFrom(
DPMarker *From, std::optional<simple_ilist<DPValue>::iterator> from_here,
bool InsertAtHead) {
DPValue *First = nullptr;
// Work out what range of DPValues to clone: normally all the contents of the
// "From" marker, optionally we can start from the from_here position down to
// end().
auto Range =
make_range(From->StoredDPValues.begin(), From->StoredDPValues.end());
if (from_here.has_value())
Range = make_range(*from_here, From->StoredDPValues.end());
// Clone each DPValue and insert into StoreDPValues; optionally place them at
// the start or the end of the list.
auto Pos = (InsertAtHead) ? StoredDPValues.begin() : StoredDPValues.end();
for (DPValue &DPV : Range) {
DPValue *New = DPV.clone();
New->setMarker(this);
StoredDPValues.insert(Pos, *New);
if (!First)
First = New;
}
if (!First)
return {StoredDPValues.end(), StoredDPValues.end()};
if (InsertAtHead)
// If InsertAtHead is set, we cloned a range onto the front of of the
// StoredDPValues collection, return that range.
return {StoredDPValues.begin(), Pos};
else
// We inserted a block at the end, return that range.
return {First->getIterator(), StoredDPValues.end()};
}
} // end namespace llvm