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f43842e160e66f9669f57f3201e1febeee0462e8
swift-mirror/lib/IRGen/Linking.cpp
Ted Kremenek f43842e160 Change processing of @asmname to use a new internal representation. 
This representation is inspired by Clang's internal representation.
The current attribute representation, which is basically a union
of "stuff" in DeclAttributes, is not amendable to richer
attributes, such as @availability, that need to be implemented.
In Clang, attributes are modeled with actual objects that
encode both semantic and syntactic information (e.g., source ranges)
that facilitate richer checking, better diagnostics, and better tools.

This change is foundational for implementing @availability, but
also is a better long-term representation.  As a migratory path,
it creates some duplications, with AttrKind and DeclAttrKind, the
two which should eventually become the same thing.

As part of this patch, there is some additional parser recovery
(for the new attribute representation) for duplicate attributes.
The parser now parses the entire duplicate attribute, which could
be quite complex, and then issues a diagnostic that the attribute
is a duplicate (and discarding it).  This delayed diagnostic
also allows us to present ranges for the duplicate attribute, which
provides a better user experience.

Swift SVN r15365
2014-03-22 14:58:30 +00:00

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//===--- Linking.cpp - Name mangling for IRGen entities -------------------===//
//
// 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 name mangling for IRGen entities with linkage.
//
//===----------------------------------------------------------------------===//
#include "Linking.h"
#include "llvm/Support/raw_ostream.h"
#include "swift/Basic/Fallthrough.h"
#include "swift/SIL/SILGlobalVariable.h"
#include "swift/AST/Mangle.h"
#include "clang/AST/Attr.h"
#include "clang/AST/Decl.h"
#include "clang/AST/DeclObjC.h"
using namespace swift;
using namespace irgen;
using namespace Mangle;
static StringRef mangleValueWitness(ValueWitness witness) {
// The ones with at least one capital are the composite ops, and the
// capitals correspond roughly to the positions of buffers (as
// opposed to objects) in the arguments. That doesn't serve any
// direct purpose, but it's neat.
switch (witness) {
case ValueWitness::AllocateBuffer: return "al";
case ValueWitness::AssignWithCopy: return "ca";
case ValueWitness::AssignWithTake: return "ta";
case ValueWitness::DeallocateBuffer: return "de";
case ValueWitness::Destroy: return "xx";
case ValueWitness::DestroyBuffer: return "XX";
case ValueWitness::InitializeBufferWithCopyOfBuffer: return "CP";
case ValueWitness::InitializeBufferWithCopy: return "Cp";
case ValueWitness::InitializeWithCopy: return "cp";
case ValueWitness::InitializeBufferWithTake: return "Tk";
case ValueWitness::InitializeWithTake: return "tk";
case ValueWitness::ProjectBuffer: return "pr";
case ValueWitness::TypeOf: return "ty";
case ValueWitness::StoreExtraInhabitant: return "xs";
case ValueWitness::GetExtraInhabitantIndex: return "xg";
case ValueWitness::GetEnumTag: return "ug";
case ValueWitness::InplaceProjectEnumData: return "up";
case ValueWitness::Size:
case ValueWitness::Flags:
case ValueWitness::Stride:
case ValueWitness::ExtraInhabitantFlags:
llvm_unreachable("not a function witness");
}
llvm_unreachable("bad witness kind");
}
/// Mangle this entity into the given buffer.
void LinkEntity::mangle(SmallVectorImpl<char> &buffer) const {
llvm::raw_svector_ostream stream(buffer);
mangle(stream);
}
/// Mangle this entity into the given stream.
void LinkEntity::mangle(raw_ostream &buffer) const {
// Almost everything below gets the common prefix:
// mangled-name ::= '_T' global
Mangler mangler(buffer);
switch (getKind()) {
// global ::= 'w' value-witness-kind type // value witness
case Kind::ValueWitness:
buffer << "_Tw";
buffer << mangleValueWitness(getValueWitness());
mangler.mangleType(getType(), ResilienceExpansion::Minimal, 0);
return;
// global ::= 'WV' type // value witness
case Kind::ValueWitnessTable:
buffer << "_TWV";
mangler.mangleType(getType(), ResilienceExpansion::Minimal, 0);
return;
// global ::= 't' type
// Abstract type manglings just follow <type>.
case Kind::TypeMangling:
mangler.mangleType(getType(), ResilienceExpansion::Minimal, 0);
return;
// global ::= 'M' directness type // type metadata
// global ::= 'MP' directness type // type metadata pattern
case Kind::TypeMetadata: {
buffer << "_TM";
bool isPattern = isMetadataPattern();
if (isPattern) buffer << 'P';
mangler.mangleDirectness(isMetadataIndirect());
mangler.mangleType(getType(), ResilienceExpansion::Minimal, 0);
return;
}
// global ::= 'Mm' type // class metaclass
case Kind::SwiftMetaclassStub:
buffer << "_TMm";
mangler.mangleNominalType(cast<ClassDecl>(getDecl()),
ResilienceExpansion::Minimal,
Mangler::BindGenerics::None);
return;
// global ::= 'Mn' type // nominal type descriptor
case Kind::NominalTypeDescriptor:
buffer << "_TMn";
mangler.mangleNominalType(cast<NominalTypeDecl>(getDecl()),
ResilienceExpansion::Minimal,
Mangler::BindGenerics::None);
return;
// global ::= 'Mp' type // protocol descriptor
case Kind::ProtocolDescriptor:
buffer << "_TMp";
mangler.mangleProtocolName(cast<ProtocolDecl>(getDecl()));
return;
// global ::= 'Wo' entity
case Kind::WitnessTableOffset:
buffer << "_TWo";
// Witness table entries for constructors always refer to the allocating
// constructor.
if (auto ctor = dyn_cast<ConstructorDecl>(getDecl()))
mangler.mangleConstructorEntity(ctor, /*isAllocating=*/true,
getResilienceExpansion(),
getUncurryLevel());
else
mangler.mangleEntity(getDecl(), getResilienceExpansion(), getUncurryLevel());
return;
// global ::= 'Wv' directness entity
case Kind::FieldOffset:
buffer << "_TWv";
mangler.mangleDirectness(isOffsetIndirect());
mangler.mangleEntity(getDecl(), ResilienceExpansion::Minimal, 0);
return;
// global ::= 'WP' protocol-conformance
case Kind::DirectProtocolWitnessTable:
buffer << "_TWP";
mangler.mangleProtocolConformance(getProtocolConformance());
return;
// global ::= 'WZ' protocol-conformance
case Kind::LazyProtocolWitnessTableAccessor:
buffer << "_TWZ";
mangler.mangleProtocolConformance(getProtocolConformance());
return;
// global ::= 'Wz' protocol-conformance
case Kind::LazyProtocolWitnessTableTemplate:
buffer << "_TWz";
mangler.mangleProtocolConformance(getProtocolConformance());
return;
// global ::= 'WD' protocol-conformance
case Kind::DependentProtocolWitnessTableGenerator:
buffer << "_TWD";
mangler.mangleProtocolConformance(getProtocolConformance());
return;
// global ::= 'Wd' protocol-conformance
case Kind::DependentProtocolWitnessTableTemplate:
buffer << "_TWd";
mangler.mangleProtocolConformance(getProtocolConformance());
return;
// global ::= 'Tb' type
case Kind::BridgeToBlockConverter:
buffer << "_TTb";
mangler.mangleType(getType(), ResilienceExpansion::Minimal, 0);
return;
// For all the following, this rule was imposed above:
// global ::= local-marker? entity // some identifiable thing
// entity ::= declaration // other declaration
case Kind::Function:
// As a special case, functions can have external asm names.
if (auto AsmA = getDecl()->getAttrs().getAttribute<AsmnameAttr>()) {
buffer << AsmA->Name;
return;
}
// Otherwise, fall through into the 'other decl' case.
SWIFT_FALLTHROUGH;
case Kind::Other:
// As a special case, Clang functions and globals don't get mangled at all.
// FIXME: When we can import C++, use Clang's mangler.
if (auto clangDecl = getDecl()->getClangDecl()) {
if (auto namedClangDecl = dyn_cast<clang::DeclaratorDecl>(clangDecl)) {
if (auto asmLabel = namedClangDecl->getAttr<clang::AsmLabelAttr>()) {
buffer << '\01' << asmLabel->getLabel();
} else {
buffer << namedClangDecl->getName();
}
return;
}
}
buffer << "_T";
if (auto type = dyn_cast<NominalTypeDecl>(getDecl())) {
mangler.mangleNominalType(type, getResilienceExpansion(),
Mangler::BindGenerics::None);
} else if (auto ctor = dyn_cast<ConstructorDecl>(getDecl())) {
// FIXME: Hack. LinkInfo should be able to refer to the allocating
// constructor rather than inferring it here.
mangler.mangleConstructorEntity(ctor, /*isAllocating=*/true,
getResilienceExpansion(),
getUncurryLevel());
} else {
mangler.mangleEntity(getDecl(), getResilienceExpansion(), getUncurryLevel());
}
return;
// An Objective-C class reference; not a swift mangling.
case Kind::ObjCClass:
buffer << "OBJC_CLASS_$_" << getDecl()->getName().str();
return;
// An Objective-C metaclass reference; not a swift mangling.
case Kind::ObjCMetaclass:
buffer << "OBJC_METACLASS_$_" << getDecl()->getName().str();
return;
case Kind::SILFunction:
buffer << getSILFunction()->getName();
return;
case Kind::SILGlobalVariable:
buffer << getSILGlobalVariable()->getName();
return;
}
llvm_unreachable("bad entity kind!");
}
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