inline void
OMR::TreeTop::unlink(bool decRefCountRecursively)
{
TR::TreeTop *prevTT = self()->getPrevTreeTop();
TR::TreeTop *nextTT = self()->getNextTreeTop();
prevTT->setNextTreeTop(nextTT);
nextTT->setPrevTreeTop(prevTT);
if (decRefCountRecursively)
self()->getNode()->recursivelyDecReferenceCount();
}
bool TR_LocalLiveRangeReduction::moveTreeBefore(TR_TreeRefInfo *treeToMove,TR_TreeRefInfo *anchor,int32_t passNumber)
{
TR::TreeTop *treeToMoveTT = treeToMove->getTreeTop();
TR::TreeTop *anchorTT = anchor->getTreeTop();
if (treeToMoveTT->getNextRealTreeTop() == anchorTT)
{
addDepPair(treeToMove, anchor);
return false;
}
if (!performTransformation(comp(), "%sPass %d: moving tree [%p] before Tree %p\n", OPT_DETAILS, passNumber, treeToMoveTT->getNode(),anchorTT->getNode()))
return false;
// printf("Moving [%p] before Tree %p\n", treeToMoveTT->getNode(),anchorTT->getNode());
//changing location in block
TR::TreeTop *origPrevTree = treeToMoveTT->getPrevTreeTop();
TR::TreeTop *origNextTree = treeToMoveTT->getNextTreeTop();
origPrevTree->setNextTreeTop(origNextTree);
origNextTree->setPrevTreeTop(origPrevTree);
TR::TreeTop *prevTree = anchorTT->getPrevTreeTop();
anchorTT->setPrevTreeTop(treeToMoveTT);
treeToMoveTT->setNextTreeTop(anchorTT);
treeToMoveTT->setPrevTreeTop(prevTree);
prevTree->setNextTreeTop(treeToMoveTT);
//UPDATE REFINFO
//find locations of treeTops in TreeTopsRefInfo array
//startIndex points to the currentTree that has moved
//endIndex points to the treeTop after which we moved the tree (nextTree)
int32_t startIndex = getIndexInArray(treeToMove);
int32_t endIndex = getIndexInArray(anchor)-1;
int32_t i=0;
for ( i = startIndex+1; i<= endIndex ; i++)
{
TR_TreeRefInfo *currentTreeRefInfo = _treesRefInfoArray[i];
List<TR::Node> *firstList = currentTreeRefInfo->getFirstRefNodesList();
List<TR::Node> *midList = currentTreeRefInfo->getMidRefNodesList();
List<TR::Node> *lastList = currentTreeRefInfo->getLastRefNodesList();
List<TR::Node> *M_firstList = treeToMove->getFirstRefNodesList();
List<TR::Node> *M_midList = treeToMove->getMidRefNodesList();
List<TR::Node> *M_lastList = treeToMove->getLastRefNodesList();
if (trace())
{
traceMsg(comp(),"Before move:\n");
printRefInfo(treeToMove);
printRefInfo(currentTreeRefInfo);
}
updateRefInfo(treeToMove->getTreeTop()->getNode(), currentTreeRefInfo, treeToMove , false);
treeToMove->resetSyms();
currentTreeRefInfo->resetSyms();
populatePotentialDeps(currentTreeRefInfo,currentTreeRefInfo->getTreeTop()->getNode());
populatePotentialDeps(treeToMove,treeToMove->getTreeTop()->getNode());
if (trace())
{
traceMsg(comp(),"After move:\n");
printRefInfo(treeToMove);
printRefInfo(currentTreeRefInfo);
traceMsg(comp(),"------------------------\n");
}
}
TR_TreeRefInfo *temp = _treesRefInfoArray[startIndex];
for (i = startIndex; i< endIndex ; i++)
{
_treesRefInfoArray[i] = _treesRefInfoArray[i+1];
}
_treesRefInfoArray[endIndex]=temp;
#if defined(DEBUG) || defined(PROD_WITH_ASSUMES)
if (!(comp()->getOption(TR_EnableParanoidOptCheck) || debug("paranoidOptCheck")))
return true;
//verifier
{
TR::StackMemoryRegion stackMemoryRegion(*trMemory());
vcount_t visitCount = comp()->getVisitCount();
int32_t maxRefCount = 0;
TR::TreeTop *tt;
TR_TreeRefInfo **treesRefInfoArrayTemp = (TR_TreeRefInfo**)trMemory()->allocateStackMemory(_numTreeTops*sizeof(TR_TreeRefInfo*));
memset(treesRefInfoArrayTemp, 0, _numTreeTops*sizeof(TR_TreeRefInfo*));
TR_TreeRefInfo *treeRefInfoTemp;
//collect info
for ( int32_t i = 0; i<_numTreeTops-1; i++)
{
tt =_treesRefInfoArray[i]->getTreeTop();
treeRefInfoTemp = new (trStackMemory()) TR_TreeRefInfo(tt, trMemory());
collectRefInfo(treeRefInfoTemp, tt->getNode(),visitCount,&maxRefCount);
treesRefInfoArrayTemp[i] = treeRefInfoTemp;
}
comp()->setVisitCount(visitCount+maxRefCount);
for ( int32_t i = 0; i<_numTreeTops-1; i++)
{
if (!verifyRefInfo(treesRefInfoArrayTemp[i]->getFirstRefNodesList(),_treesRefInfoArray[i]->getFirstRefNodesList()))
{
printOnVerifyError(_treesRefInfoArray[i],treesRefInfoArrayTemp[i]);
TR_ASSERT(0,"fail to verify firstRefNodesList for %p\n",_treesRefInfoArray[i]->getTreeTop()->getNode());
}
if (!verifyRefInfo(treesRefInfoArrayTemp[i]->getMidRefNodesList(),_treesRefInfoArray[i]->getMidRefNodesList()))
{
printOnVerifyError(_treesRefInfoArray[i],treesRefInfoArrayTemp[i]);
TR_ASSERT(0,"fail to verify midRefNodesList for %p\n",_treesRefInfoArray[i]->getTreeTop()->getNode());
}
if (!verifyRefInfo(treesRefInfoArrayTemp[i]->getLastRefNodesList(),_treesRefInfoArray[i]->getLastRefNodesList()))
{
printOnVerifyError(_treesRefInfoArray[i],treesRefInfoArrayTemp[i]);
TR_ASSERT(0,"fail to verify lastRefNodesList for %p\n",_treesRefInfoArray[i]->getTreeTop()->getNode());
}
}
} // scope of the stack memory region
#endif
return true;
}
