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swift-mirror/lib/AST/Module.cpp
Jordan Rose d9b7c8ad5a Move ClangModule into the ClangImporter library. 
This makes it very clear who is depending on special behavior at the
module level. Doing isa<ClangModule> now requires a header import; anything
more requires actually linking against the ClangImporter library.

If the current source file really can't import ClangModule.h, it can
still fall back to checking against the DeclContext's getContextKind()
(and indeed AST currently does in a few places).

Swift SVN r6695
2013-07-29 18:56:35 +00:00

404 lines
15 KiB
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//===--- Module.cpp - Swift Language Module Implementation ----------------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2015 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See http://swift.org/LICENSE.txt for license information
// See http://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// This file implements the Module class and subclasses.
//
//===----------------------------------------------------------------------===//
#include "swift/AST/Diagnostics.h"
#include "swift/AST/Module.h"
#include "swift/AST/ModuleLoader.h"
#include "swift/AST/NameLookup.h"
#include "swift/AST/AST.h"
#include "swift/AST/PrintOptions.h"
#include "clang/Basic/Module.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/DenseSet.h"
#include "llvm/ADT/TinyPtrVector.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/Support/raw_ostream.h"
using namespace swift;
//===----------------------------------------------------------------------===//
// Builtin Module Name lookup
//===----------------------------------------------------------------------===//
namespace {
/// BuiltinModuleCache - This is the type of the cache for the BuiltinModule.
/// This is lazily created on its first use an hangs off
/// Module::LookupCachePimpl.
class BuiltinModuleCache {
/// The cache of identifiers we've already looked up. We use a
/// single hashtable for both types and values as a minor
/// optimization; this prevents us from having both a builtin type
/// and a builtin value with the same name, but that's okay.
llvm::DenseMap<Identifier, ValueDecl*> Cache;
public:
void lookupValue(Identifier Name, NLKind LookupKind, BuiltinModule &M,
SmallVectorImpl<ValueDecl*> &Result);
};
} // end anonymous namespace.
static BuiltinModuleCache &getBuiltinCachePimpl(void *&Ptr) {
// FIXME: This leaks. Sticking this into ASTContext isn't enough because then
// the DenseMap will leak.
if (Ptr == 0)
Ptr = new BuiltinModuleCache();
return *(BuiltinModuleCache*)Ptr;
}
void BuiltinModuleCache::lookupValue(Identifier Name, NLKind LookupKind,
BuiltinModule &M,
SmallVectorImpl<ValueDecl*> &Result) {
// Only qualified lookup ever finds anything in the builtin module.
if (LookupKind != NLKind::QualifiedLookup) return;
ValueDecl *&Entry = Cache[Name];
if (Entry == 0)
if (Type Ty = getBuiltinType(M.Ctx, Name.str()))
Entry = new (M.Ctx) TypeAliasDecl(SourceLoc(), Name, SourceLoc(),
TypeLoc::withoutLoc(Ty),
M.Ctx.TheBuiltinModule,
MutableArrayRef<TypeLoc>());
if (Entry == 0)
Entry = getBuiltinValue(M.Ctx, Name);
if (Entry)
Result.push_back(Entry);
}
//===----------------------------------------------------------------------===//
// Normal Module Name Lookup
//===----------------------------------------------------------------------===//
namespace {
/// TUModuleCache - This is the type of the cache for the TranslationUnit.
/// This is lazily created on its first use an hangs off
/// Module::LookupCachePimpl.
class TUModuleCache {
llvm::DenseMap<Identifier, TinyPtrVector<ValueDecl*>> TopLevelValues;
void doPopulateCache(ArrayRef<Decl*> decls, bool onlyOperators);
public:
typedef Module::AccessPathTy AccessPathTy;
TUModuleCache(const TranslationUnit &TU);
void lookupValue(AccessPathTy AccessPath, Identifier Name,
NLKind LookupKind, TranslationUnit &TU,
SmallVectorImpl<ValueDecl*> &Result);
void lookupVisibleDecls(AccessPathTy AccessPath,
VisibleDeclConsumer &Consumer,
NLKind LookupKind,
const TranslationUnit &TU);
};
} // end anonymous namespace.
static TUModuleCache &getTUCachePimpl(void *&Ptr, const TranslationUnit &TU) {
// FIXME: This leaks. Sticking this into ASTContext isn't enough because then
// the DenseMap will leak.
if (Ptr == 0)
Ptr = new TUModuleCache(TU);
return *(TUModuleCache*)Ptr;
}
static void freeTUCachePimpl(void *&Ptr) {
delete (TUModuleCache*)Ptr;
Ptr = 0;
}
void TUModuleCache::doPopulateCache(ArrayRef<Decl*> decls, bool onlyOperators) {
for (Decl *D : decls) {
if (ValueDecl *VD = dyn_cast<ValueDecl>(D))
if (onlyOperators ? VD->getName().isOperator() : !VD->getName().empty())
TopLevelValues[VD->getName()].push_back(VD);
if (NominalTypeDecl *NTD = dyn_cast<NominalTypeDecl>(D))
doPopulateCache(NTD->getMembers(), true);
if (ExtensionDecl *ED = dyn_cast<ExtensionDecl>(D))
doPopulateCache(ED->getMembers(), true);
}
}
/// Populate our cache on the first name lookup.
TUModuleCache::TUModuleCache(const TranslationUnit &TU) {
doPopulateCache(TU.Decls, false);
}
void TUModuleCache::lookupValue(AccessPathTy AccessPath, Identifier Name,
NLKind LookupKind, TranslationUnit &TU,
SmallVectorImpl<ValueDecl*> &Result) {
// TODO: ImportDecls cannot specified namespaces or individual entities
// yet, so everything is just a lookup at the top-level.
assert(AccessPath.size() <= 1 && "Don't handle this yet");
// If this import is specific to some named type or decl ("import swift.int")
// then filter out any lookups that don't match.
if (AccessPath.size() == 1 && AccessPath[0].first != Name)
return;
auto I = TopLevelValues.find(Name);
if (I == TopLevelValues.end()) return;
Result.reserve(I->second.size());
for (ValueDecl *Elt : I->second)
Result.push_back(Elt);
}
void TUModuleCache::lookupVisibleDecls(AccessPathTy AccessPath,
VisibleDeclConsumer &Consumer,
NLKind LookupKind,
const TranslationUnit &TU) {
// TODO: ImportDecls cannot specified namespaces or individual entities
// yet, so everything is just a lookup at the top-level.
assert(AccessPath.size() <= 1 && "Don't handle this yet");
// TODO: If this import is specific to some named type or decl ("import swift.int")
// then filter out any lookups that don't match.
for (auto &tlv : TopLevelValues) {
for (ValueDecl *vd : tlv.second)
Consumer.foundDecl(vd);
}
}
//===----------------------------------------------------------------------===//
// Module Implementation
//===----------------------------------------------------------------------===//
/// lookupValue - Look up a (possibly overloaded) value set at top-level scope
/// (but with the specified access path, which may come from an import decl)
/// within the current module. This does a simple local lookup, not
/// recursively looking through imports.
void Module::lookupValue(AccessPathTy AccessPath, Identifier Name,
NLKind LookupKind,
SmallVectorImpl<ValueDecl*> &Result) {
if (BuiltinModule *BM = dyn_cast<BuiltinModule>(this)) {
assert(AccessPath.empty() && "builtin module's access path always empty!");
return getBuiltinCachePimpl(LookupCachePimpl)
.lookupValue(Name, LookupKind, *BM, Result);
}
if (auto TU = dyn_cast<TranslationUnit>(this)) {
// Look in the translation unit.
return getTUCachePimpl(LookupCachePimpl, *TU)
.lookupValue(AccessPath, Name, LookupKind, *TU, Result);
}
return cast<LoadedModule>(this)->lookupValue(AccessPath, Name, LookupKind,
Result);
}
/// lookupVisibleDecls - Find ValueDecls in the module and pass them to the
/// given consumer object.
void Module::lookupVisibleDecls(AccessPathTy AccessPath,
VisibleDeclConsumer &Consumer,
NLKind LookupKind) const {
if (auto BM = dyn_cast<BuiltinModule>(this)) {
// TODO Look through the Builtin module.
(void)BM;
return;
}
if (auto TU = dyn_cast<TranslationUnit>(this)) {
return getTUCachePimpl(LookupCachePimpl, *TU)
.lookupVisibleDecls(AccessPath, Consumer, LookupKind, *TU);
}
// TODO: Visit clang modules using Clang's Sema::LookupVisibleDecls.
// Importing every single Clang decl as a Swift decl currently makes
// everything horrendously slow.
return cast<LoadedModule>(this)->lookupVisibleDecls(AccessPath, Consumer,
LookupKind);
}
namespace {
// Returns Nothing on error, Optional(nullptr) if no operator decl found, or
// Optional(decl) if decl was found.
template<typename OP_DECL>
Optional<OP_DECL *> lookupOperatorDeclForName(Module *M,
SourceLoc Loc,
Identifier Name,
llvm::StringMap<OP_DECL *> TranslationUnit::*OP_MAP)
{
if (auto loadedModule = dyn_cast<LoadedModule>(M))
return loadedModule->lookupOperator<OP_DECL>(Name);
auto *TU = dyn_cast<TranslationUnit>(M);
if (!TU)
return nullptr;
// Look for an operator declaration in the current module.
auto found = (TU->*OP_MAP).find(Name.get());
if (found != (TU->*OP_MAP).end())
return found->getValue();
// Look for imported operator decls.
llvm::DenseSet<OP_DECL*> importedOperators;
for (auto &imported : TU->getImportedModules()) {
Optional<OP_DECL *> maybeOp
= lookupOperatorDeclForName(imported.second, Loc, Name, OP_MAP);
if (!maybeOp)
return Nothing;
if (OP_DECL *op = *maybeOp)
importedOperators.insert(op);
}
// If we found a single import, use it.
if (importedOperators.empty()) {
// Cache the mapping so we don't need to troll imports next time.
(TU->*OP_MAP)[Name.get()] = nullptr;
return nullptr;
}
if (importedOperators.size() == 1) {
// Cache the mapping so we don't need to troll imports next time.
OP_DECL *result = *importedOperators.begin();
(TU->*OP_MAP)[Name.get()] = result;
return result;
}
// Otherwise, check for conflicts.
auto i = importedOperators.begin(), end = importedOperators.end();
OP_DECL *first = *i;
for (++i; i != end; ++i) {
if ((*i)->conflictsWith(first)) {
if (Loc.isValid()) {
ASTContext &C = M->getASTContext();
C.Diags.diagnose(Loc, diag::ambiguous_operator_decls);
C.Diags.diagnose(first->getLoc(), diag::found_this_operator_decl);
C.Diags.diagnose((*i)->getLoc(), diag::found_this_operator_decl);
}
return Nothing;
}
}
// Cache the mapping so we don't need to troll imports next time.
(TU->*OP_MAP)[Name.get()] = first;
return first;
}
} // end anonymous namespace
Optional<PrefixOperatorDecl *> Module::lookupPrefixOperator(Identifier name,
SourceLoc diagLoc) {
return lookupOperatorDeclForName(this, diagLoc, name,
&TranslationUnit::PrefixOperators);
}
Optional<PostfixOperatorDecl *> Module::lookupPostfixOperator(Identifier name,
SourceLoc diagLoc) {
return lookupOperatorDeclForName(this, diagLoc, name,
&TranslationUnit::PostfixOperators);
}
Optional<InfixOperatorDecl *> Module::lookupInfixOperator(Identifier name,
SourceLoc diagLoc) {
return lookupOperatorDeclForName(this, diagLoc, name,
&TranslationUnit::InfixOperators);
}
void
Module::getReexportedModules(SmallVectorImpl<ImportedModule> &modules) const {
if (isa<BuiltinModule>(this))
return;
if (auto TU = dyn_cast<TranslationUnit>(this)) {
modules.append(TU->getImportedModules().begin(),
TU->getImportedModules().end());
return;
}
return cast<LoadedModule>(this)->getReexportedModules(modules);
}
//===----------------------------------------------------------------------===//
// TranslationUnit Implementation
//===----------------------------------------------------------------------===//
void TranslationUnit::print(raw_ostream &os) {
print(os, PrintOptions::printEverything());
}
void TranslationUnit::print(raw_ostream &os, const PrintOptions &options) {
for (auto decl : Decls) {
if (!decl->shouldPrintInContext())
continue;
decl->print(os, options);
os << "\n";
}
}
void TranslationUnit::clearLookupCache() {
freeTUCachePimpl(LookupCachePimpl);
}
//===----------------------------------------------------------------------===//
// LoadedModule Implementation
//===----------------------------------------------------------------------===//
void LoadedModule::lookupValue(AccessPathTy accessPath, Identifier name,
NLKind lookupKind,
SmallVectorImpl<ValueDecl*> &result) {
auto owner = static_cast<ModuleLoader*>(LookupCachePimpl);
return owner->lookupValue(this, accessPath, name, lookupKind, result);
}
OperatorDecl *LoadedModule::lookupOperator(Identifier name, DeclKind fixity) {
auto owner = static_cast<ModuleLoader*>(LookupCachePimpl);
return owner->lookupOperator(this, name, fixity);
}
template<>
PrefixOperatorDecl *
LoadedModule::lookupOperator<PrefixOperatorDecl>(Identifier name) {
auto result = lookupOperator(name, DeclKind::PrefixOperator);
return cast_or_null<PrefixOperatorDecl>(result);
}
template<>
PostfixOperatorDecl *
LoadedModule::lookupOperator<PostfixOperatorDecl>(Identifier name) {
auto result = lookupOperator(name, DeclKind::PostfixOperator);
return cast_or_null<PostfixOperatorDecl>(result);
}
template<>
InfixOperatorDecl *
LoadedModule::lookupOperator<InfixOperatorDecl>(Identifier name) {
auto result = lookupOperator(name, DeclKind::InfixOperator);
return cast_or_null<InfixOperatorDecl>(result);
}
void LoadedModule::getReexportedModules(
SmallVectorImpl<ImportedModule> &exports) const {
auto owner = static_cast<ModuleLoader*>(LookupCachePimpl);
return owner->getReexportedModules(this, exports);
}
void LoadedModule::lookupVisibleDecls(AccessPathTy accessPath,
VisibleDeclConsumer &consumer,
NLKind lookupKind) const {
auto owner = static_cast<ModuleLoader*>(LookupCachePimpl);
return owner->lookupVisibleDecls(this, accessPath, consumer, lookupKind);
}
//===----------------------------------------------------------------------===//
// ModuleLoader Implementation
//===----------------------------------------------------------------------===//
ModuleLoader::~ModuleLoader() {}
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