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swift-mirror/lib/AST/Module.cpp
Joe Groff 7a7e3d5615 REPL: Hook up completions to name lookup. 
Implement a 'lookupVisibleDecls' API similar to Clang's that replicates the UnqualifiedLookup logic for walking through a given scope looking for decls. Use it to populate the completion list in the repl.

Still to be done: Clang module lookup via Clang's lookupVisibleDecls, and context deduction from dotted path expressions.

Swift SVN r4056
2013-02-15 20:17:44 +00:00

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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/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 (ValueDecl *VD = dyn_cast_or_null<ValueDecl>(Entry))
Result.push_back(VD);
}
//===----------------------------------------------------------------------===//
// 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(TranslationUnit &TU);
void lookupValue(AccessPathTy AccessPath, Identifier Name,
NLKind LookupKind, TranslationUnit &TU,
SmallVectorImpl<ValueDecl*> &Result);
void lookupVisibleDecls(AccessPathTy AccessPath,
VisibleDeclConsumer &Consumer,
NLKind LookupKind,
TranslationUnit &TU);
};
} // end anonymous namespace.
static TUModuleCache &getTUCachePimpl(void *&Ptr, 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(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,
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 Extension Name Lookup
//===----------------------------------------------------------------------===//
namespace {
class TUExtensionCache {
llvm::DenseMap<CanType, TinyPtrVector<ExtensionDecl*>> Extensions;
public:
TUExtensionCache(TranslationUnit &TU);
ArrayRef<ExtensionDecl*> getExtensions(CanType T) const{
auto I = Extensions.find(T);
if (I == Extensions.end())
return ArrayRef<ExtensionDecl*>();
return I->second;
}
};
}
static TUExtensionCache &getTUExtensionCachePimpl(void *&Ptr,
TranslationUnit &TU) {
// FIXME: This leaks. Sticking this into ASTContext isn't enough because then
// the DenseMap will leak.
if (Ptr == 0)
Ptr = new TUExtensionCache(TU);
return *(TUExtensionCache*)Ptr;
}
static void freeTUExtensionCachePimpl(void *&Ptr) {
delete (TUExtensionCache*)Ptr;
Ptr = 0;
}
TUExtensionCache::TUExtensionCache(TranslationUnit &TU) {
for (Decl *D : TU.Decls) {
if (ExtensionDecl *ED = dyn_cast<ExtensionDecl>(D)) {
// Ignore failed name lookups.
if (ED->getExtendedType()->is<ErrorType>()) continue;
Extensions[ED->getExtendedType()->getCanonicalType()].push_back(ED);
}
}
}
/// lookupExtensions - Look up all of the extensions in the module that are
/// extending the specified type and return a list of them.
ArrayRef<ExtensionDecl*> Module::lookupExtensions(Type T) {
assert(ASTStage >= Parsed &&
"Extensions should only be looked up after name binding is underway");
// The builtin module just has free functions, not extensions.
if (isa<BuiltinModule>(this)) return ArrayRef<ExtensionDecl*>();
if (auto tu = dyn_cast<TranslationUnit>(this)) {
TUExtensionCache &Cache = getTUExtensionCachePimpl(ExtensionCachePimpl,*tu);
return Cache.getExtensions(T->getCanonicalType());
}
return Ctx.getModuleLoader().lookupExtensions(cast<ClangModule>(this), T);
}
//===----------------------------------------------------------------------===//
// 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 Ctx.getModuleLoader().lookupValue(cast<ClangModule>(this), 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) {
if (BuiltinModule *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 Delegate to Clang lookupVisibleDecls.
return;
}
//===----------------------------------------------------------------------===//
// 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);
freeTUExtensionCachePimpl(ExtensionCachePimpl);
}
//===----------------------------------------------------------------------===//
// ClangModule Implementation
//===----------------------------------------------------------------------===//
ClangModule::ClangModule(ASTContext &ctx, Component *comp,
clang::Module *clangModule)
: Module(DeclContextKind::ClangModule,
ctx.getIdentifier(clangModule->getFullModuleName()),
comp, ctx),
clangModule(clangModule)
{
// Clang modules are always well-formed.
ASTStage = TypeChecked;
}
//===----------------------------------------------------------------------===//
// ModuleLoader Implementation
//===----------------------------------------------------------------------===//
ModuleLoader::~ModuleLoader() {}
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