本文整理汇总了C++中TransIDSet::clear方法的典型用法代码示例。如果您正苦于以下问题:C++ TransIDSet::clear方法的具体用法?C++ TransIDSet::clear怎么用?C++ TransIDSet::clear使用的例子?那么, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在类TransIDSet的用法示例。
在下文中一共展示了TransIDSet::clear方法的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的C++代码示例。
示例1: selectWholeCFG
/*
* Constructs a region, beginning with triggerId, that includes as much of the
* TransCFG as possible. Excludes multiple translations of the same SrcKey.
*/
RegionDescPtr selectWholeCFG(TransID triggerId,
const ProfData* profData,
const TransCFG& cfg,
TransIDSet& selectedSet,
TransIDVec* selectedVec) {
selectedSet.clear();
if (selectedVec) selectedVec->clear();
return DFS(profData, cfg, selectedSet, selectedVec).go(triggerId);
}示例2: selectHotTrace
RegionDescPtr selectHotTrace(HotTransContext& ctx,
TransIDSet& selectedSet,
TransIDVec* selectedVec /* = nullptr */) {
auto region = std::make_shared<RegionDesc>();
TransID tid = ctx.tid;
TransID prevId = kInvalidTransID;
selectedSet.clear();
if (selectedVec) selectedVec->clear();
TypedLocations accumPostConds;
// Maps from BlockIds to accumulated post conditions for that block.
// Used to determine if we can add branch-over edges by checking the
// pre-conditions of the successor block.
hphp_hash_map<RegionDesc::BlockId, TypedLocations> blockPostConds;
auto numBCInstrs = ctx.maxBCInstrs;
FTRACE(1, "selectHotTrace: starting with maxBCInstrs = {}\n", numBCInstrs);
while (!selectedSet.count(tid)) {
auto rec = ctx.profData->transRec(tid);
auto blockRegion = rec->region();
if (blockRegion == nullptr) break;
// Break if region would be larger than the specified limit.
if (blockRegion->instrSize() > numBCInstrs) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} because "
"size would exceed of maximum translation limit\n", tid);
break;
}
// If the debugger is attached, only allow single-block regions.
if (prevId != kInvalidTransID && isDebuggerAttachedProcess()) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and it corresponds to the main
// function body entry. This is to prevent creating multiple
// large regions containing the function body (starting at various
// DV funclets).
if (prevId != kInvalidTransID) {
auto const func = rec->func();
auto const bcOffset = rec->startBcOff();
if (func->base() == bcOffset) {
FTRACE(2, "selectHotTrace: breaking region because reached the main "
"function body entry at Translation {} (BC offset {})\n",
tid, bcOffset);
break;
}
}
if (prevId != kInvalidTransID) {
auto sk = rec->srcKey();
if (ctx.profData->optimized(sk)) {
FTRACE(2, "selectHotTrace: breaking region because next sk already "
"optimized, for Translation {}\n", tid);
break;
}
}
bool hasPredBlock = !region->empty();
RegionDesc::BlockId predBlockId = (hasPredBlock ?
region->blocks().back().get()->id() : 0);
auto const& newFirstBlock = blockRegion->entry();
auto newFirstBlockId = newFirstBlock->id();
// Add blockRegion's blocks and arcs to region.
region->append(*blockRegion);
numBCInstrs -= blockRegion->instrSize();
assertx(numBCInstrs >= 0);
if (hasPredBlock) {
region->addArc(predBlockId, newFirstBlockId);
}
selectedSet.insert(tid);
if (selectedVec) selectedVec->push_back(tid);
const auto lastSk = rec->lastSrcKey();
if (breaksRegion(lastSk)) {
FTRACE(2, "selectHotTrace: breaking region because of last instruction "
"in Translation {}: {}\n", tid, opcodeToName(lastSk.op()));
break;
}
auto outArcs = ctx.cfg->outArcs(tid);
if (outArcs.size() == 0) {
FTRACE(2, "selectHotTrace: breaking region because there's no successor "
"for Translation {}\n", tid);
break;
}
auto newLastBlock = blockRegion->blocks().back();
discardPoppedTypes(accumPostConds,
blockRegion->entry()->initialSpOffset());
mergePostConds(accumPostConds, newLastBlock->postConds());
blockPostConds[newLastBlock->id()] = accumPostConds;
TransCFG::ArcPtrVec possibleOutArcs;
//.........这里部分代码省略.........
示例3: selectHotTrace
RegionDescPtr selectHotTrace(TransID triggerId,
const ProfData* profData,
TransCFG& cfg,
TransIDSet& selectedSet,
TransIDVec* selectedVec) {
auto region = std::make_shared<RegionDesc>();
TransID tid = triggerId;
TransID prevId = kInvalidTransID;
selectedSet.clear();
if (selectedVec) selectedVec->clear();
PostConditions accumPostConds;
// Maps BlockIds to the set of BC offsets for its successor blocks.
// Used to prevent multiple successors with the same SrcKey for now.
// This can go away once task #4157613 is done.
hphp_hash_map<RegionDesc::BlockId, SrcKeySet> succSKSet;
// Maps from BlockIds to accumulated post conditions for that block.
// Used to determine if we can add branch-over edges by checking the
// pre-conditions of the successor block.
hphp_hash_map<RegionDesc::BlockId, PostConditions> blockPostConds;
while (!selectedSet.count(tid)) {
RegionDescPtr blockRegion = profData->transRegion(tid);
if (blockRegion == nullptr) break;
// If the debugger is attached, only allow single-block regions.
if (prevId != kInvalidTransID && isDebuggerAttachedProcess()) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and requires reffiness checks.
// Task #2589970: fix translateRegion to support mid-region reffiness checks
if (prevId != kInvalidTransID) {
auto nRefDeps = blockRegion->blocks[0]->reffinessPreds().size();
if (nRefDeps > 0) {
FTRACE(2, "selectHotTrace: breaking region because of refDeps ({}) at "
"Translation {}\n", nRefDeps, tid);
break;
}
}
// Break if block is not the first and it corresponds to the main
// function body entry. This is to prevent creating multiple
// large regions containing the function body (starting at various
// DV funclets).
if (prevId != kInvalidTransID) {
const Func* func = profData->transFunc(tid);
Offset bcOffset = profData->transStartBcOff(tid);
if (func->base() == bcOffset) {
FTRACE(2, "selectHotTrace: breaking region because reached the main "
"function body entry at Translation {} (BC offset {})\n",
tid, bcOffset);
break;
}
}
if (prevId != kInvalidTransID) {
auto sk = profData->transSrcKey(tid);
if (profData->optimized(sk)) {
FTRACE(2, "selectHotTrace: breaking region because next sk already "
"optimized, for Translation {}\n", tid);
break;
}
}
// Break trace if translation tid cannot follow the execution of
// the entire translation prevId. This can only happen if the
// execution of prevId takes a side exit that leads to the
// execution of tid.
if (prevId != kInvalidTransID) {
Op* lastInstr = profData->transLastInstr(prevId);
const Unit* unit = profData->transFunc(prevId)->unit();
OffsetSet succOffs = findSuccOffsets(lastInstr, unit);
if (!succOffs.count(profData->transSrcKey(tid).offset())) {
if (HPHP::Trace::moduleEnabled(HPHP::Trace::pgo, 2)) {
FTRACE(2, "selectHotTrace: WARNING: Breaking region @: {}\n",
show(*region));
FTRACE(2, "selectHotTrace: next translation selected: tid = {}\n{}\n",
tid, show(*blockRegion));
FTRACE(2, "\nsuccOffs = {}\n", folly::join(", ", succOffs));
}
break;
}
}
if (region->blocks.size() > 0) {
auto& newBlock = blockRegion->blocks.front();
auto newBlockId = newBlock->id();
auto predBlockId = region->blocks.back().get()->id();
if (!RuntimeOption::EvalHHIRBytecodeControlFlow) {
region->addArc(predBlockId, newBlockId);
} else {
// With bytecode control-flow, we add all forward arcs in the TransCFG
// that are induced by the blocks in the region, as a simple way
// to expose control-flow for now.
// This can go away once Task #4075822 is done.
auto newBlockSrcKey = blockRegion->blocks.front().get()->start();
//.........这里部分代码省略.........
示例4: selectHotTrace
RegionDescPtr selectHotTrace(TransID triggerId,
const ProfData* profData,
TransCFG& cfg,
TransIDSet& selectedSet,
TransIDVec* selectedVec) {
auto region = std::make_shared<RegionDesc>();
TransID tid = triggerId;
TransID prevId = kInvalidTransID;
selectedSet.clear();
if (selectedVec) selectedVec->clear();
PostConditions accumPostConds;
// Maps from BlockIds to accumulated post conditions for that block.
// Used to determine if we can add branch-over edges by checking the
// pre-conditions of the successor block.
hphp_hash_map<RegionDesc::BlockId, PostConditions> blockPostConds;
uint32_t numBCInstrs = 0;
while (!selectedSet.count(tid)) {
RegionDescPtr blockRegion = profData->transRegion(tid);
if (blockRegion == nullptr) break;
// Break if region would be larger than the specified limit.
auto newInstrSize = numBCInstrs + blockRegion->instrSize();
if (newInstrSize > RuntimeOption::EvalJitMaxRegionInstrs) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} because "
"size ({}) would exceed of maximum translation limit\n",
tid, newInstrSize);
break;
}
// If the debugger is attached, only allow single-block regions.
if (prevId != kInvalidTransID && isDebuggerAttachedProcess()) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and it corresponds to the main
// function body entry. This is to prevent creating multiple
// large regions containing the function body (starting at various
// DV funclets).
if (prevId != kInvalidTransID) {
const Func* func = profData->transFunc(tid);
Offset bcOffset = profData->transStartBcOff(tid);
if (func->base() == bcOffset) {
FTRACE(2, "selectHotTrace: breaking region because reached the main "
"function body entry at Translation {} (BC offset {})\n",
tid, bcOffset);
break;
}
}
if (prevId != kInvalidTransID) {
auto sk = profData->transSrcKey(tid);
if (profData->optimized(sk)) {
FTRACE(2, "selectHotTrace: breaking region because next sk already "
"optimized, for Translation {}\n", tid);
break;
}
}
bool hasPredBlock = !region->empty();
RegionDesc::BlockId predBlockId = (hasPredBlock ?
region->blocks().back().get()->id() : 0);
auto const& newFirstBlock = blockRegion->entry();
auto newFirstBlockId = newFirstBlock->id();
auto newLastBlockId = blockRegion->blocks().back()->id();
// Add blockRegion's blocks and arcs to region.
region->append(*blockRegion);
numBCInstrs += blockRegion->instrSize();
if (hasPredBlock) {
region->addArc(predBlockId, newFirstBlockId);
}
// When Eval.JitLoops is set, insert back-edges in the region if
// they exist in the TransCFG.
if (RuntimeOption::EvalJitLoops) {
assertx(hasTransId(newFirstBlockId));
auto newTransId = getTransId(newFirstBlockId);
// Don't add the arc if the last opcode in the source block ends
// the region.
if (!breaksRegion(*profData->transLastInstr(newTransId))) {
auto& blocks = region->blocks();
for (auto iOther = 0; iOther < blocks.size(); iOther++) {
auto other = blocks[iOther];
auto otherFirstBlockId = other.get()->id();
if (!hasTransId(otherFirstBlockId)) continue;
auto otherTransId = getTransId(otherFirstBlockId);
if (cfg.hasArc(newTransId, otherTransId)) {
region->addArc(newLastBlockId, otherFirstBlockId);
}
}
}
}
//.........这里部分代码省略.........
示例5: selectHotTrace
RegionDescPtr selectHotTrace(TransID triggerId,
const ProfData* profData,
TransCFG& cfg,
TransIDSet& selectedSet,
TransIDVec* selectedVec) {
auto region = std::make_shared<RegionDesc>();
TransID tid = triggerId;
TransID prevId = InvalidID;
selectedSet.clear();
if (selectedVec) selectedVec->clear();
PostConditions accumPostConds;
while (!selectedSet.count(tid)) {
RegionDescPtr blockRegion = profData->transRegion(tid);
if (blockRegion == nullptr) break;
// If the debugger is attached, only allow single-block regions.
if (prevId != InvalidID && isDebuggerAttachedProcess()) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and requires reffiness checks.
// Task #2589970: fix translateRegion to support mid-region reffiness checks
if (prevId != InvalidID) {
auto nRefDeps = blockRegion->blocks[0]->reffinessPreds().size();
if (nRefDeps > 0) {
FTRACE(2, "selectHotTrace: breaking region because of refDeps ({}) at "
"Translation {}\n", nRefDeps, tid);
break;
}
}
// Break if block is not the first and it corresponds to the main
// function body entry. This is to prevent creating multiple
// large regions containing the function body (starting at various
// DV funclets).
if (prevId != InvalidID) {
const Func* func = profData->transFunc(tid);
Offset bcOffset = profData->transStartBcOff(tid);
if (func->base() == bcOffset) {
FTRACE(2, "selectHotTrace: breaking region because reached the main "
"function body entry at Translation {} (BC offset {})\n",
tid, bcOffset);
break;
}
}
if (prevId != InvalidID) {
auto sk = profData->transSrcKey(tid);
if (profData->optimized(sk)) {
FTRACE(2, "selectHotTrace: breaking region because next sk already "
"optimized, for Translation {}\n", tid);
break;
}
}
// Break trace if translation tid cannot follow the execution of
// the entire translation prevId. This can only happen if the
// execution of prevId takes a side exit that leads to the
// execution of tid.
if (prevId != InvalidID) {
Op* lastInstr = profData->transLastInstr(prevId);
const Unit* unit = profData->transFunc(prevId)->unit();
OffsetSet succOffs = findSuccOffsets(lastInstr, unit);
if (!succOffs.count(profData->transSrcKey(tid).offset())) {
if (HPHP::Trace::moduleEnabled(HPHP::Trace::pgo, 2)) {
FTRACE(2, "selectHotTrace: WARNING: Breaking region @: {}\n",
JIT::show(*region));
FTRACE(2, "selectHotTrace: next translation selected: tid = {}\n{}\n",
tid, JIT::show(*blockRegion));
FTRACE(2, "\nsuccOffs = {}\n", folly::join(", ", succOffs));
}
break;
}
}
region->blocks.insert(region->blocks.end(), blockRegion->blocks.begin(),
blockRegion->blocks.end());
selectedSet.insert(tid);
if (selectedVec) selectedVec->push_back(tid);
Op lastOp = *(profData->transLastInstr(tid));
if (breaksRegion(lastOp)) {
FTRACE(2, "selectHotTrace: breaking region because of last instruction "
"in Translation {}: {}\n", tid, opcodeToName(lastOp));
break;
}
auto outArcs = cfg.outArcs(tid);
if (outArcs.size() == 0) {
FTRACE(2, "selectHotTrace: breaking region because there's no successor "
"for Translation {}\n", tid);
break;
}
auto lastNewBlock = blockRegion->blocks.back();
discardPoppedTypes(accumPostConds,
//.........这里部分代码省略.........
示例6: selectHotTrace
RegionDescPtr selectHotTrace(TransID triggerId,
const ProfData* profData,
TransCFG& cfg,
TransIDSet& selectedSet,
TransIDVec* selectedVec) {
auto region = std::make_shared<RegionDesc>();
TransID tid = triggerId;
TransID prevId = kInvalidTransID;
selectedSet.clear();
if (selectedVec) selectedVec->clear();
PostConditions accumPostConds;
// Maps BlockIds to the set of BC offsets for its successor blocks.
// Used to prevent multiple successors with the same SrcKey for now.
// This can go away once task #4157613 is done.
hphp_hash_map<RegionDesc::BlockId, SrcKeySet> succSKSet;
// Maps from BlockIds to accumulated post conditions for that block.
// Used to determine if we can add branch-over edges by checking the
// pre-conditions of the successor block.
hphp_hash_map<RegionDesc::BlockId, PostConditions> blockPostConds;
while (!selectedSet.count(tid)) {
RegionDescPtr blockRegion = profData->transRegion(tid);
if (blockRegion == nullptr) break;
// If the debugger is attached, only allow single-block regions.
if (prevId != kInvalidTransID && isDebuggerAttachedProcess()) {
FTRACE(2, "selectHotTrace: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and it corresponds to the main
// function body entry. This is to prevent creating multiple
// large regions containing the function body (starting at various
// DV funclets).
if (prevId != kInvalidTransID) {
const Func* func = profData->transFunc(tid);
Offset bcOffset = profData->transStartBcOff(tid);
if (func->base() == bcOffset) {
FTRACE(2, "selectHotTrace: breaking region because reached the main "
"function body entry at Translation {} (BC offset {})\n",
tid, bcOffset);
break;
}
}
if (prevId != kInvalidTransID) {
auto sk = profData->transSrcKey(tid);
if (profData->optimized(sk)) {
FTRACE(2, "selectHotTrace: breaking region because next sk already "
"optimized, for Translation {}\n", tid);
break;
}
}
bool hasPredBlock = !region->empty();
RegionDesc::BlockId predBlockId = (hasPredBlock ?
region->blocks().back().get()->id() : 0);
auto const& newFirstBlock = blockRegion->entry();
auto newFirstBlockId = newFirstBlock->id();
auto newFirstBlockSk = newFirstBlock->start();
auto newLastBlockId = blockRegion->blocks().back()->id();
// Make sure we don't end up with multiple successors for the same
// SrcKey. Task #4157613 will allow the following check to go away.
// This needs to be done before we insert blockRegion into region,
// to avoid creating unreachable blocks.
if (RuntimeOption::EvalHHIRBytecodeControlFlow && hasPredBlock &&
succSKSet[predBlockId].count(newFirstBlockSk)) {
break;
}
// Add blockRegion's blocks and arcs to region.
region->append(*blockRegion);
if (hasPredBlock) {
if (RuntimeOption::EvalHHIRBytecodeControlFlow) {
// This is checked above.
assert(succSKSet[predBlockId].count(newFirstBlockSk) == 0);
succSKSet[predBlockId].insert(newFirstBlockSk);
}
region->addArc(predBlockId, newFirstBlockId);
}
// With bytecode control-flow, we add all forward arcs in the TransCFG
// that are induced by the blocks in the region, as a simple way
// to expose control-flow for now.
// This can go away once Task #4075822 is done.
if (RuntimeOption::EvalHHIRBytecodeControlFlow) {
assert(hasTransId(newFirstBlockId));
auto newTransId = getTransId(newFirstBlockId);
auto& blocks = region->blocks();
for (auto iOther = 0; iOther < blocks.size(); iOther++) {
auto other = blocks[iOther];
auto otherFirstBlockId = other.get()->id();
if (!hasTransId(otherFirstBlockId)) continue;
auto otherTransId = getTransId(otherFirstBlockId);
//.........这里部分代码省略.........
示例7: selectHotTrace
RegionDescPtr selectHotTrace(TransID triggerId,
const ProfData* profData,
TransCFG& cfg,
TransIDSet& selectedSet) {
JIT::RegionDescPtr region = smart::make_unique<JIT::RegionDesc>();
TransID tid = triggerId;
TransID prevId = InvalidID;
selectedSet.clear();
while (!setContains(selectedSet, tid)) {
RegionDesc::BlockPtr block = profData->transBlock(tid);
if (block == nullptr) break;
// If the debugger is attached, only allow single-block regions.
if (prevId != InvalidID && isDebuggerAttachedProcess()) {
FTRACE(5, "selectHotRegion: breaking region at Translation {} "
"because of debugger is attached\n", tid);
break;
}
// Break if block is not the first and requires reffiness checks.
// Task #2589970: fix translateRegion to support mid-region reffiness checks
if (prevId != InvalidID) {
auto nRefDeps = block->reffinessPreds().size();
if (nRefDeps > 0) {
FTRACE(5, "selectHotRegion: breaking region because of refDeps ({}) at "
"Translation {}\n", nRefDeps, tid);
break;
}
}
// Break trace if translation tid cannot follow the execution of
// the entire translation prevTd. This can only happen if the
// execution of prevId takes a side exit that leads to the
// execution of tid.
if (prevId != InvalidID) {
Op* lastInstr = profData->transLastInstr(prevId);
const Unit* unit = profData->transFunc(prevId)->unit();
OffsetSet succOffs = findSuccOffsets(lastInstr, unit);
if (!setContains(succOffs, profData->transSrcKey(tid).offset())) {
if (HPHP::Trace::moduleEnabled(HPHP::Trace::pgo, 5)) {
FTRACE(5, "selectHotTrace: WARNING: Breaking region @: {}\n",
JIT::show(*region));
FTRACE(5, "selectHotTrace: next translation selected: tid = {}\n{}\n",
tid, JIT::show(*block));
std::string succStr("succOffs = ");
for (auto succ : succOffs) {
succStr += lexical_cast<std::string>(succ);
}
FTRACE(5, "\n{}\n", succStr);
}
break;
}
}
region->blocks.emplace_back(block);
selectedSet.insert(tid);
Op lastOp = *(profData->transLastInstr(tid));
if (breaksRegion(lastOp)) {
FTRACE(5, "selectHotTrace: breaking region because of last instruction "
"in Translation {}: {}\n", tid, opcodeToName(lastOp));
break;
}
auto outArcs = cfg.outArcs(tid);
if (outArcs.size() == 0) {
FTRACE(5, "selectHotTrace: breaking region because there's no successor "
"for Translation {}\n", tid);
break;
}
auto maxWeight = std::numeric_limits<int64_t>::min();
TransCFG::Arc* maxArc = nullptr;
for (auto arc : outArcs) {
if (arc->weight() >= maxWeight) {
maxWeight = arc->weight();
maxArc = arc;
}
}
assert(maxArc != nullptr);
prevId = tid;
tid = maxArc->dst();
}
return region;
}