llvm-6502/lib/VMCore/DebugLoc.cpp

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//===-- DebugLoc.cpp - Implement DebugLoc class ---------------------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/Support/DebugLoc.h"
#include "llvm/ADT/DenseMapInfo.h"
#include "LLVMContextImpl.h"
using namespace llvm;
//===----------------------------------------------------------------------===//
// DebugLoc Implementation
//===----------------------------------------------------------------------===//
MDNode *DebugLoc::getScope(const LLVMContext &Ctx) const {
if (ScopeIdx == 0) return 0;
if (ScopeIdx > 0) {
// Positive ScopeIdx is an index into ScopeRecords, which has no inlined-at
// position specified.
assert(unsigned(ScopeIdx) <= Ctx.pImpl->ScopeRecords.size() &&
"Invalid ScopeIdx!");
return Ctx.pImpl->ScopeRecords[ScopeIdx-1].get();
}
// Otherwise, the index is in the ScopeInlinedAtRecords array.
assert(unsigned(-ScopeIdx) <= Ctx.pImpl->ScopeInlinedAtRecords.size() &&
"Invalid ScopeIdx");
return Ctx.pImpl->ScopeInlinedAtRecords[-ScopeIdx-1].first.get();
}
MDNode *DebugLoc::getInlinedAt(const LLVMContext &Ctx) const {
// Positive ScopeIdx is an index into ScopeRecords, which has no inlined-at
// position specified. Zero is invalid.
if (ScopeIdx >= 0) return 0;
// Otherwise, the index is in the ScopeInlinedAtRecords array.
assert(unsigned(-ScopeIdx) <= Ctx.pImpl->ScopeInlinedAtRecords.size() &&
"Invalid ScopeIdx");
return Ctx.pImpl->ScopeInlinedAtRecords[-ScopeIdx-1].second.get();
}
/// Return both the Scope and the InlinedAt values.
void DebugLoc::getScopeAndInlinedAt(MDNode *&Scope, MDNode *&IA,
const LLVMContext &Ctx) const {
if (ScopeIdx == 0) {
Scope = IA = 0;
return;
}
if (ScopeIdx > 0) {
// Positive ScopeIdx is an index into ScopeRecords, which has no inlined-at
// position specified.
assert(unsigned(ScopeIdx) <= Ctx.pImpl->ScopeRecords.size() &&
"Invalid ScopeIdx!");
Scope = Ctx.pImpl->ScopeRecords[ScopeIdx-1].get();
IA = 0;
return;
}
// Otherwise, the index is in the ScopeInlinedAtRecords array.
assert(unsigned(-ScopeIdx) <= Ctx.pImpl->ScopeInlinedAtRecords.size() &&
"Invalid ScopeIdx");
Scope = Ctx.pImpl->ScopeInlinedAtRecords[-ScopeIdx-1].first.get();
IA = Ctx.pImpl->ScopeInlinedAtRecords[-ScopeIdx-1].second.get();
}
DebugLoc DebugLoc::get(unsigned Line, unsigned Col,
MDNode *Scope, MDNode *InlinedAt) {
DebugLoc Result;
// If no scope is available, this is an unknown location.
if (Scope == 0) return Result;
// Saturate line and col to "unknown".
if (Col > 255) Col = 0;
if (Line >= (1 << 24)) Line = 0;
Result.LineCol = Line | (Col << 24);
LLVMContext &Ctx = Scope->getContext();
// If there is no inlined-at location, use the ScopeRecords array.
if (InlinedAt == 0)
Result.ScopeIdx = Ctx.pImpl->getOrAddScopeRecordIdxEntry(Scope, 0);
else
Result.ScopeIdx = Ctx.pImpl->getOrAddScopeInlinedAtIdxEntry(Scope,
InlinedAt, 0);
return Result;
}
/// getAsMDNode - This method converts the compressed DebugLoc node into a
/// DILocation compatible MDNode.
MDNode *DebugLoc::getAsMDNode(const LLVMContext &Ctx) const {
if (isUnknown()) return 0;
MDNode *Scope, *IA;
getScopeAndInlinedAt(Scope, IA, Ctx);
assert(Scope && "If scope is null, this should be isUnknown()");
LLVMContext &Ctx2 = Scope->getContext();
const Type *Int32 = Type::getInt32Ty(Ctx2);
Value *Elts[] = {
ConstantInt::get(Int32, getLine()), ConstantInt::get(Int32, getCol()),
Scope, IA
};
return MDNode::get(Ctx2, Elts);
}
/// getFromDILocation - Translate the DILocation quad into a DebugLoc.
DebugLoc DebugLoc::getFromDILocation(MDNode *N) {
if (N == 0 || N->getNumOperands() != 4) return DebugLoc();
MDNode *Scope = dyn_cast_or_null<MDNode>(N->getOperand(2));
if (Scope == 0) return DebugLoc();
unsigned LineNo = 0, ColNo = 0;
if (ConstantInt *Line = dyn_cast_or_null<ConstantInt>(N->getOperand(0)))
LineNo = Line->getZExtValue();
if (ConstantInt *Col = dyn_cast_or_null<ConstantInt>(N->getOperand(1)))
ColNo = Col->getZExtValue();
return get(LineNo, ColNo, Scope, dyn_cast_or_null<MDNode>(N->getOperand(3)));
}
//===----------------------------------------------------------------------===//
// DenseMap specialization
//===----------------------------------------------------------------------===//
DebugLoc DenseMapInfo<DebugLoc>::getEmptyKey() {
return DebugLoc::getEmptyKey();
}
DebugLoc DenseMapInfo<DebugLoc>::getTombstoneKey() {
return DebugLoc::getTombstoneKey();
}
unsigned DenseMapInfo<DebugLoc>::getHashValue(const DebugLoc &Key) {
FoldingSetNodeID ID;
ID.AddInteger(Key.LineCol);
ID.AddInteger(Key.ScopeIdx);
return ID.ComputeHash();
}
bool DenseMapInfo<DebugLoc>::isEqual(const DebugLoc &LHS, const DebugLoc &RHS) {
return LHS == RHS;
}
//===----------------------------------------------------------------------===//
// LLVMContextImpl Implementation
//===----------------------------------------------------------------------===//
int LLVMContextImpl::getOrAddScopeRecordIdxEntry(MDNode *Scope,
int ExistingIdx) {
// If we already have an entry for this scope, return it.
int &Idx = ScopeRecordIdx[Scope];
if (Idx) return Idx;
// If we don't have an entry, but ExistingIdx is specified, use it.
if (ExistingIdx)
return Idx = ExistingIdx;
// Otherwise add a new entry.
// Start out ScopeRecords with a minimal reasonable size to avoid
// excessive reallocation starting out.
if (ScopeRecords.empty())
ScopeRecords.reserve(128);
// Index is biased by 1 for index.
Idx = ScopeRecords.size()+1;
ScopeRecords.push_back(DebugRecVH(Scope, this, Idx));
return Idx;
}
int LLVMContextImpl::getOrAddScopeInlinedAtIdxEntry(MDNode *Scope, MDNode *IA,
int ExistingIdx) {
// If we already have an entry, return it.
int &Idx = ScopeInlinedAtIdx[std::make_pair(Scope, IA)];
if (Idx) return Idx;
// If we don't have an entry, but ExistingIdx is specified, use it.
if (ExistingIdx)
return Idx = ExistingIdx;
// Start out ScopeInlinedAtRecords with a minimal reasonable size to avoid
// excessive reallocation starting out.
if (ScopeInlinedAtRecords.empty())
ScopeInlinedAtRecords.reserve(128);
// Index is biased by 1 and negated.
Idx = -ScopeInlinedAtRecords.size()-1;
ScopeInlinedAtRecords.push_back(std::make_pair(DebugRecVH(Scope, this, Idx),
DebugRecVH(IA, this, Idx)));
return Idx;
}
//===----------------------------------------------------------------------===//
// DebugRecVH Implementation
//===----------------------------------------------------------------------===//
/// deleted - The MDNode this is pointing to got deleted, so this pointer needs
/// to drop to null and we need remove our entry from the DenseMap.
void DebugRecVH::deleted() {
// If this is a non-canonical reference, just drop the value to null, we know
// it doesn't have a map entry.
if (Idx == 0) {
setValPtr(0);
return;
}
MDNode *Cur = get();
// If the index is positive, it is an entry in ScopeRecords.
if (Idx > 0) {
assert(Ctx->ScopeRecordIdx[Cur] == Idx && "Mapping out of date!");
Ctx->ScopeRecordIdx.erase(Cur);
// Reset this VH to null and we're done.
setValPtr(0);
Idx = 0;
return;
}
// Otherwise, it is an entry in ScopeInlinedAtRecords, we don't know if it
// is the scope or the inlined-at record entry.
assert(unsigned(-Idx-1) < Ctx->ScopeInlinedAtRecords.size());
std::pair<DebugRecVH, DebugRecVH> &Entry = Ctx->ScopeInlinedAtRecords[-Idx-1];
assert((this == &Entry.first || this == &Entry.second) &&
"Mapping out of date!");
MDNode *OldScope = Entry.first.get();
MDNode *OldInlinedAt = Entry.second.get();
assert(OldScope != 0 && OldInlinedAt != 0 &&
"Entry should be non-canonical if either val dropped to null");
// Otherwise, we do have an entry in it, nuke it and we're done.
assert(Ctx->ScopeInlinedAtIdx[std::make_pair(OldScope, OldInlinedAt)] == Idx&&
"Mapping out of date");
Ctx->ScopeInlinedAtIdx.erase(std::make_pair(OldScope, OldInlinedAt));
// Reset this VH to null. Drop both 'Idx' values to null to indicate that
// we're in non-canonical form now.
setValPtr(0);
Entry.first.Idx = Entry.second.Idx = 0;
}
void DebugRecVH::allUsesReplacedWith(Value *NewVa) {
// If being replaced with a non-mdnode value (e.g. undef) handle this as if
// the mdnode got deleted.
MDNode *NewVal = dyn_cast<MDNode>(NewVa);
if (NewVal == 0) return deleted();
// If this is a non-canonical reference, just change it, we know it already
// doesn't have a map entry.
if (Idx == 0) {
setValPtr(NewVa);
return;
}
MDNode *OldVal = get();
assert(OldVal != NewVa && "Node replaced with self?");
// If the index is positive, it is an entry in ScopeRecords.
if (Idx > 0) {
assert(Ctx->ScopeRecordIdx[OldVal] == Idx && "Mapping out of date!");
Ctx->ScopeRecordIdx.erase(OldVal);
setValPtr(NewVal);
int NewEntry = Ctx->getOrAddScopeRecordIdxEntry(NewVal, Idx);
// If NewVal already has an entry, this becomes a non-canonical reference,
// just drop Idx to 0 to signify this.
if (NewEntry != Idx)
Idx = 0;
return;
}
// Otherwise, it is an entry in ScopeInlinedAtRecords, we don't know if it
// is the scope or the inlined-at record entry.
assert(unsigned(-Idx-1) < Ctx->ScopeInlinedAtRecords.size());
std::pair<DebugRecVH, DebugRecVH> &Entry = Ctx->ScopeInlinedAtRecords[-Idx-1];
assert((this == &Entry.first || this == &Entry.second) &&
"Mapping out of date!");
MDNode *OldScope = Entry.first.get();
MDNode *OldInlinedAt = Entry.second.get();
assert(OldScope != 0 && OldInlinedAt != 0 &&
"Entry should be non-canonical if either val dropped to null");
// Otherwise, we do have an entry in it, nuke it and we're done.
assert(Ctx->ScopeInlinedAtIdx[std::make_pair(OldScope, OldInlinedAt)] == Idx&&
"Mapping out of date");
Ctx->ScopeInlinedAtIdx.erase(std::make_pair(OldScope, OldInlinedAt));
// Reset this VH to the new value.
setValPtr(NewVal);
int NewIdx = Ctx->getOrAddScopeInlinedAtIdxEntry(Entry.first.get(),
Entry.second.get(), Idx);
// If NewVal already has an entry, this becomes a non-canonical reference,
// just drop Idx to 0 to signify this.
if (NewIdx != Idx) {
std::pair<DebugRecVH, DebugRecVH> &Entry=Ctx->ScopeInlinedAtRecords[-Idx-1];
Entry.first.Idx = Entry.second.Idx = 0;
}
}