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3fd63a491f
llvm-mirror/lib/ExecutionEngine/Orc/Core.cpp
Lang Hames 3fd63a491f [ORC] Re-apply r321838 - Addition of new ORC core APIs. 
The original commit broke the builders due to a think-o in an assertion:
AsynchronousSymbolQuery's constructor needs to check the callback member
variables, not the constructor arguments.

llvm-svn: 321853
2018-01-05 02:21:02 +00:00

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//===--------- Core.cpp - Core ORC APIs (SymbolSource, VSO, etc.) ---------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/ExecutionEngine/Orc/Core.h"
#include "llvm/ExecutionEngine/Orc/OrcError.h"
namespace llvm {
namespace orc {
void SymbolSource::anchor() {}
AsynchronousSymbolQuery::AsynchronousSymbolQuery(
const SymbolNameSet &Symbols,
SymbolsResolvedCallback NotifySymbolsResolved,
SymbolsReadyCallback NotifySymbolsReady)
: NotifySymbolsResolved(std::move(NotifySymbolsResolved)),
NotifySymbolsReady(std::move(NotifySymbolsReady)) {
assert(this->NotifySymbolsResolved &&
"Symbols resolved callback must be set");
assert(this->NotifySymbolsReady && "Symbols ready callback must be set");
OutstandingResolutions = OutstandingFinalizations = Symbols.size();
}
void AsynchronousSymbolQuery::setFailed(Error Err) {
OutstandingResolutions = OutstandingFinalizations = 0;
if (NotifySymbolsResolved)
NotifySymbolsResolved(std::move(Err));
else
NotifySymbolsReady(std::move(Err));
}
void AsynchronousSymbolQuery::setDefinition(SymbolStringPtr Name,
JITSymbol Sym) {
// If OutstandingResolutions is zero we must have errored out already. Just
// ignore this.
if (OutstandingResolutions == 0)
return;
assert(!Symbols.count(Name) &&
"Symbol has already been assigned an address");
Symbols.insert(std::make_pair(std::move(Name), std::move(Sym)));
--OutstandingResolutions;
if (OutstandingResolutions == 0) {
NotifySymbolsResolved(std::move(Symbols));
// Null out NotifySymbolsResolved to indicate that we've already called it.
NotifySymbolsResolved = {};
}
}
void AsynchronousSymbolQuery::notifySymbolFinalized() {
// If OutstandingFinalizations is zero we must have errored out already. Just
// ignore this.
if (OutstandingFinalizations == 0)
return;
assert(OutstandingFinalizations > 0 && "All symbols already finalized");
--OutstandingFinalizations;
if (OutstandingFinalizations == 0)
NotifySymbolsReady(Error::success());
}
VSO::MaterializationInfo::MaterializationInfo(JITSymbolFlags Flags,
AsynchronousSymbolQuery &Query)
: Flags(std::move(Flags)), PendingResolution({ &Query }) {}
JITSymbolFlags VSO::MaterializationInfo::getFlags() const {
return Flags;
}
JITTargetAddress VSO::MaterializationInfo::getAddress() const {
return Address;
}
void VSO::MaterializationInfo::query(SymbolStringPtr Name,
AsynchronousSymbolQuery &Query) {
if (Address != 0) {
Query.setDefinition(Name, JITSymbol(Address, Flags));
PendingFinalization.push_back(&Query);
} else
PendingResolution.push_back(&Query);
}
void VSO::MaterializationInfo::resolve(SymbolStringPtr Name, JITSymbol Sym) {
// FIXME: Sanity check flags?
Flags = Sym.getFlags();
Address = cantFail(Sym.getAddress());
for (auto *Query : PendingResolution) {
Query->setDefinition(Name, std::move(Sym));
PendingFinalization.push_back(Query);
}
PendingResolution = {};
}
void VSO::MaterializationInfo::finalize() {
for (auto *Query : PendingFinalization)
Query->notifySymbolFinalized();
PendingFinalization = {};
}
VSO::SymbolTableEntry::SymbolTableEntry(JITSymbolFlags Flags, SymbolSource &Source)
: Flags(JITSymbolFlags::FlagNames(Flags | JITSymbolFlags::NotMaterialized)),
Source(&Source) {
// FIXME: Assert flag sanity.
}
VSO::SymbolTableEntry::SymbolTableEntry(JITSymbol Sym)
: Flags(Sym.getFlags()), Address(cantFail(Sym.getAddress())) {
// FIXME: Assert flag sanity.
}
VSO::SymbolTableEntry::SymbolTableEntry(SymbolTableEntry &&Other)
: Flags(Other.Flags), Address(0) {
if (Flags.isMaterializing())
MatInfo = std::move(Other.MatInfo);
else
Source = Other.Source;
}
VSO::SymbolTableEntry::~SymbolTableEntry() {
assert(!Flags.isMaterializing() &&
"Symbol table entry destroyed while symbol was being materialized");
}
JITSymbolFlags VSO::SymbolTableEntry::getFlags() const { return Flags; }
void VSO::SymbolTableEntry::replaceWithSource(VSO &V,
SymbolStringPtr Name,
JITSymbolFlags Flags,
SymbolSource &NewSource) {
assert(!this->Flags.isMaterializing() &&
"Attempted to replace symbol with lazy definition during "
"materialization");
if (!this->Flags.isMaterialized())
Source->discard(V, Name);
this->Flags = Flags;
this->Source = &NewSource;
}
SymbolSource*
VSO::SymbolTableEntry::query(SymbolStringPtr Name,
AsynchronousSymbolQuery &Query) {
if (Flags.isMaterializing()) {
MatInfo->query(std::move(Name), Query);
return nullptr;
} else if (Flags.isMaterialized()) {
Query.setDefinition(std::move(Name), JITSymbol(Address, Flags));
Query.notifySymbolFinalized();
return nullptr;
}
SymbolSource *S = Source;
new (&MatInfo) std::unique_ptr<MaterializationInfo>(
llvm::make_unique<MaterializationInfo>(Flags, Query));
Flags |= JITSymbolFlags::Materializing;
return S;
}
void VSO::SymbolTableEntry::resolve(VSO &V, SymbolStringPtr Name,
JITSymbol Sym) {
if (Flags.isMaterializing())
MatInfo->resolve(std::move(Name), std::move(Sym));
else {
// If there's a layer for this symbol.
if (!Flags.isMaterialized())
Source->discard(V, Name);
// FIXME: Should we assert flag state here (flags must match except for
// materialization state, overrides must be legal) or in the caller
// in VSO?
Flags = Sym.getFlags();
Address = cantFail(Sym.getAddress());
}
}
void VSO::SymbolTableEntry::finalize() {
if (Flags.isMaterializing()) {
auto TmpMatInfo = std::move(MatInfo);
MatInfo.std::unique_ptr<MaterializationInfo>::~unique_ptr();
// FIXME: Assert flag sanity?
Flags = TmpMatInfo->getFlags();
Address = TmpMatInfo->getAddress();
TmpMatInfo->finalize();
}
assert(Flags.isMaterialized() && "Trying to finalize not-emitted symbol");
}
VSO::RelativeLinkageStrength
VSO::compareLinkage(Optional<JITSymbolFlags> Old, JITSymbolFlags New) {
if (Old == None)
return llvm::orc::VSO::NewDefinitionIsStronger;
if (Old->isStrongDefinition()) {
if (New.isStrongDefinition())
return llvm::orc::VSO::DuplicateDefinition;
else
return llvm::orc::VSO::ExistingDefinitionIsStronger;
} else {
if (New.isStrongDefinition())
return llvm::orc::VSO::NewDefinitionIsStronger;
else
return llvm::orc::VSO::ExistingDefinitionIsStronger;
}
}
VSO::RelativeLinkageStrength
VSO::compareLinkage(SymbolStringPtr Name, JITSymbolFlags NewFlags) const {
auto I = Symbols.find(Name);
return compareLinkage(I == Symbols.end()
? None
: Optional<JITSymbolFlags>(I->second.getFlags()),
NewFlags);
}
Error VSO::define(SymbolMap NewSymbols) {
Error Err = Error::success();
for (auto &KV : NewSymbols) {
auto I = Symbols.find(KV.first);
auto LinkageResult =
compareLinkage(I == Symbols.end()
? None
: Optional<JITSymbolFlags>(I->second.getFlags()),
KV.second.getFlags());
// Silently discard weaker definitions.
if (LinkageResult == ExistingDefinitionIsStronger)
continue;
// Report duplicate definition errors.
if (LinkageResult == DuplicateDefinition) {
Err = joinErrors(std::move(Err),
make_error<orc::DuplicateDefinition>(*KV.first));
continue;
}
if (I != Symbols.end()) {
I->second.resolve(*this, KV.first, std::move(KV.second));
I->second.finalize();
} else
Symbols.insert(std::make_pair(KV.first, std::move(KV.second)));
}
return Err;
}
Error VSO::defineLazy(const SymbolFlagsMap &NewSymbols, SymbolSource &Source) {
Error Err = Error::success();
for (auto &KV : NewSymbols) {
auto I = Symbols.find(KV.first);
auto LinkageResult =
compareLinkage(I == Symbols.end()
? None
: Optional<JITSymbolFlags>(I->second.getFlags()),
KV.second);
// Discard weaker definitions.
if (LinkageResult == ExistingDefinitionIsStronger)
Source.discard(*this, KV.first);
// Report duplicate definition errors.
if (LinkageResult == DuplicateDefinition) {
Err = joinErrors(std::move(Err),
make_error<orc::DuplicateDefinition>(*KV.first));
continue;
}
if (I != Symbols.end())
I->second.replaceWithSource(*this, KV.first, KV.second, Source);
else
Symbols.emplace(std::make_pair(KV.first,
SymbolTableEntry(KV.second, Source)));
}
return Err;
}
void VSO::resolve(SymbolMap SymbolValues) {
for (auto &KV : SymbolValues) {
auto I = Symbols.find(KV.first);
assert(I != Symbols.end() && "Resolving symbol not present in this dylib");
I->second.resolve(*this, KV.first, std::move(KV.second));
}
}
void VSO::finalize(SymbolNameSet SymbolsToFinalize) {
for (auto &S : SymbolsToFinalize) {
auto I = Symbols.find(S);
assert(I != Symbols.end() && "Finalizing symbol not present in this dylib");
I->second.finalize();
}
}
VSO::LookupResult VSO::lookup(AsynchronousSymbolQuery &Query,
SymbolNameSet Names) {
SourceWorkMap MaterializationWork;
for (SymbolNameSet::iterator I = Names.begin(), E = Names.end(); I != E;) {
auto Tmp = I;
++I;
auto SymI = Symbols.find(*Tmp);
// If the symbol isn't in this dylib then just continue.
// If it is, erase it from Names and proceed.
if (SymI == Symbols.end())
continue;
else
Names.erase(Tmp);
// Forward the query to the given SymbolTableEntry, and if it return a
// layer to perform materialization with, add that to the
// MaterializationWork map.
if (auto *Source = SymI->second.query(SymI->first, Query))
MaterializationWork[Source].insert(SymI->first);
}
return { std::move(MaterializationWork), std::move(Names) };
}
} // End namespace orc.
} // End namespace llvm.
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