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Pass the queried value by argument rather than in a member, in preparation for supporting PHI translation.

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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@109701 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Owen Anderson 2010-07-28 23:50:08 +00:00
parent 542f642684
commit e2fb451dbb
1 changed files with 25 additions and 36 deletions
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61
lib/Analysis/LazyValueInfo.cpp
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@ -223,53 +223,43 @@ namespace {
/// for cache updating.
DenseSet<std::pair<BasicBlock*, Value*> > OverDefinedCache;
LVILatticeVal getBlockValue(ValueCacheEntryTy &Cache, BasicBlock *BB);
LVILatticeVal getEdgeValue(ValueCacheEntryTy &Cache,
BasicBlock *Pred, BasicBlock *Succ);
LVILatticeVal &getCachedEntryForBlock(ValueCacheEntryTy &Cache,
LVILatticeVal getBlockValue(Value *Val, BasicBlock *BB);
LVILatticeVal getEdgeValue(Value *Val, BasicBlock *Pred, BasicBlock *Succ);
LVILatticeVal &getCachedEntryForBlock(Value *Val, ValueCacheEntryTy &Cache,
BasicBlock *BB);
/************* Begin Per-Query State *************/
/// This is the current value being queried for.
Value *Val;
/// This is all of the cached information about this value.
//ValueCacheEntryTy *Cache;
/// NewBlocks - This is a mapping of the new BasicBlocks which have been
/// added to cache but that are not in sorted order.
DenseSet<BasicBlock*> NewBlockInfo;
DenseSet<std::pair<BasicBlock*,Value*> > NewBlockInfo;
/// QuerySetup - An RAII helper to construct and tear-down per-query
/// temporary state.
struct QuerySetup {
LazyValueInfoCache &Owner;
QuerySetup(LazyValueInfoCache &O, Value* Val) : Owner(O) {
assert(!Owner.Val && "Per-query info not cleared?");
Owner.Val = Val;
QuerySetup(LazyValueInfoCache &O) : Owner(O) {
assert(Owner.NewBlockInfo.empty() && "Leaked block info!");
}
~QuerySetup() {
// When the query is done, insert the newly discovered facts into the
// cache in sorted order.
LazyValueInfoCache::ValueCacheEntryTy Cache =
Owner.ValueCache[Owner.Val];
for (DenseSet<BasicBlock*>::iterator I = Owner.NewBlockInfo.begin(),
E = Owner.NewBlockInfo.end(); I != E; ++I) {
if (Cache[*I].isOverdefined())
Owner.OverDefinedCache.insert(std::make_pair(*I, Owner.Val));
for (DenseSet<std::pair<BasicBlock*,Value*> >::iterator
I = Owner.NewBlockInfo.begin(), E = Owner.NewBlockInfo.end();
I != E; ++I) {
if (Owner.ValueCache[I->second][I->first].isOverdefined())
Owner.OverDefinedCache.insert(*I);
}
// Reset Per-Query State
Owner.Val = 0;
Owner.NewBlockInfo.clear();
}
};
/************* End Per-Query State *************/
public:
LazyValueInfoCache() : Val(0) { }
LazyValueInfoCache() { }
/// getValueInBlock - This is the query interface to determine the lattice
/// value for the specified Value* at the end of the specified block.
@ -290,16 +280,17 @@ namespace {
/// getCachedEntryForBlock - See if we already have a value for this block. If
/// so, return it, otherwise create a new entry in the Cache map to use.
LVILatticeVal&
LazyValueInfoCache::getCachedEntryForBlock(ValueCacheEntryTy &Cache,
LazyValueInfoCache::getCachedEntryForBlock(Value *Val, ValueCacheEntryTy &Cache,
BasicBlock *BB) {
NewBlockInfo.insert(BB);
NewBlockInfo.insert(std::make_pair(BB, Val));
return Cache[BB];
}
LVILatticeVal
LazyValueInfoCache::getBlockValue(ValueCacheEntryTy &Cache, BasicBlock *BB) {
LazyValueInfoCache::getBlockValue(Value *Val, BasicBlock *BB) {
// See if we already have a value for this block.
LVILatticeVal &BBLV = getCachedEntryForBlock(Cache, BB);
ValueCacheEntryTy &Cache = ValueCache[Val];
LVILatticeVal &BBLV = getCachedEntryForBlock(Val, Cache, BB);
// If we've already computed this block's value, return it.
if (!BBLV.isUndefined()) {
@ -321,7 +312,7 @@ LazyValueInfoCache::getBlockValue(ValueCacheEntryTy &Cache, BasicBlock *BB) {
// Loop over all of our predecessors, merging what we know from them into
// result.
for (pred_iterator PI = pred_begin(BB), E = pred_end(BB); PI != E; ++PI) {
Result.mergeIn(getEdgeValue(Cache, *PI, BB));
Result.mergeIn(getEdgeValue(Val, *PI, BB));
// If we hit overdefined, exit early. The BlockVals entry is already set
// to overdefined.
@ -343,7 +334,7 @@ LazyValueInfoCache::getBlockValue(ValueCacheEntryTy &Cache, BasicBlock *BB) {
// Return the merged value, which is more precise than 'overdefined'.
assert(!Result.isOverdefined());
return getCachedEntryForBlock(Cache, BB) = Result;
return getCachedEntryForBlock(Val, Cache, BB) = Result;
}
// If this value is defined by an instruction in this block, we have to
@ -360,12 +351,12 @@ LazyValueInfoCache::getBlockValue(ValueCacheEntryTy &Cache, BasicBlock *BB) {
LVILatticeVal Result;
Result.markOverdefined();
return getCachedEntryForBlock(Cache, BB) = Result;
return getCachedEntryForBlock(Val, Cache, BB) = Result;
}
/// getEdgeValue - This method attempts to infer more complex
LVILatticeVal LazyValueInfoCache::getEdgeValue(ValueCacheEntryTy &Cache,
LVILatticeVal LazyValueInfoCache::getEdgeValue(Value *Val,
BasicBlock *BBFrom, BasicBlock *BBTo) {
// TODO: Handle more complex conditionals. If (v == 0 || v2 < 1) is false, we
// know that v != 0.
@ -420,7 +411,7 @@ LVILatticeVal LazyValueInfoCache::getEdgeValue(ValueCacheEntryTy &Cache,
}
// Otherwise see if the value is known in the block.
return getBlockValue(Cache, BBFrom);
return getBlockValue(Val, BBFrom);
}
LVILatticeVal LazyValueInfoCache::getValueInBlock(Value *V, BasicBlock *BB) {
@ -431,9 +422,8 @@ LVILatticeVal LazyValueInfoCache::getValueInBlock(Value *V, BasicBlock *BB) {
DEBUG(dbgs() << "LVI Getting block end value " << *V << " at '"
<< BB->getName() << "'\n");
QuerySetup QS(*this, V);
ValueCacheEntryTy &Cache = ValueCache[V];
LVILatticeVal Result = getBlockValue(Cache, BB);
QuerySetup QS(*this);
LVILatticeVal Result = getBlockValue(V, BB);
DEBUG(dbgs() << " Result = " << Result << "\n");
return Result;
@ -448,9 +438,8 @@ getValueOnEdge(Value *V, BasicBlock *FromBB, BasicBlock *ToBB) {
DEBUG(dbgs() << "LVI Getting edge value " << *V << " from '"
<< FromBB->getName() << "' to '" << ToBB->getName() << "'\n");
QuerySetup QS(*this, V);
ValueCacheEntryTy &Cache = ValueCache[V];
LVILatticeVal Result = getEdgeValue(Cache, FromBB, ToBB);
QuerySetup QS(*this);
LVILatticeVal Result = getEdgeValue(V, FromBB, ToBB);
DEBUG(dbgs() << " Result = " << Result << "\n");