Exemple #1
0
SILValue SILGenFunction::emitGlobalFunctionRef(SILLocation loc,
                                               SILDeclRef constant,
                                               SILConstantInfo constantInfo) {
  assert(constantInfo == getConstantInfo(constant));

  // Builtins must be fully applied at the point of reference.
  if (constant.hasDecl() &&
      isa<BuiltinUnit>(constant.getDecl()->getDeclContext())) {
    SGM.diagnose(loc.getSourceLoc(), diag::not_implemented,
                 "delayed application of builtin");
    return SILUndef::get(constantInfo.getSILType(), SGM.M);
  }
  
  // If the constant is a thunk we haven't emitted yet, emit it.
  if (!SGM.hasFunction(constant)) {
    if (constant.isCurried) {
      SGM.emitCurryThunk(constant);
    } else if (constant.isForeignToNativeThunk()) {
      SGM.emitForeignToNativeThunk(constant);
    } else if (constant.isNativeToForeignThunk()) {
      SGM.emitNativeToForeignThunk(constant);
    } else if (constant.kind == SILDeclRef::Kind::EnumElement) {
      SGM.emitEnumConstructor(cast<EnumElementDecl>(constant.getDecl()));
    }
  }

  auto f = SGM.getFunction(constant, NotForDefinition);
  assert(f->getLoweredFunctionType() == constantInfo.SILFnType);
  return B.createFunctionRef(loc, f);
}
SILValue SILGenFunction::emitGlobalFunctionRef(SILLocation loc,
                                               SILDeclRef constant,
                                               SILConstantInfo constantInfo) {
  assert(constantInfo == getConstantInfo(constant));

  // Builtins must be fully applied at the point of reference.
  if (constant.hasDecl() &&
      isa<BuiltinUnit>(constant.getDecl()->getDeclContext())) {
    SGM.diagnose(loc.getSourceLoc(), diag::not_implemented,
                 "delayed application of builtin");
    return SILUndef::get(constantInfo.getSILType(), SGM.M);
  }
  
  // If the constant is a thunk we haven't emitted yet, emit it.
  if (!SGM.hasFunction(constant)) {
    if (constant.isCurried) {
      auto vd = constant.getDecl();
      // Reference the next uncurrying level of the function.
      SILDeclRef next = SILDeclRef(vd, constant.kind,
                                 SILDeclRef::ConstructAtBestResilienceExpansion,
                                 constant.uncurryLevel + 1);
      // If the function is fully uncurried and natively foreign, reference its
      // foreign entry point.
      if (!next.isCurried) {
        if (requiresForeignToNativeThunk(vd))
          next = next.asForeign();
      }
      
      // Preserve whether the curry thunks lead to a direct reference to the
      // method implementation.
      next = next.asDirectReference(constant.isDirectReference);

      SGM.emitCurryThunk(vd, constant, next);
    }
    // Otherwise, if this is a calling convention thunk we haven't emitted yet,
    // emit it.
    else if (constant.isForeignToNativeThunk()) {
      SGM.emitForeignToNativeThunk(constant);
    } else if (constant.isNativeToForeignThunk()) {
      SGM.emitNativeToForeignThunk(constant);
    } else if (constant.kind == SILDeclRef::Kind::EnumElement) {
      SGM.emitEnumConstructor(cast<EnumElementDecl>(constant.getDecl()));
    }
  }

  auto f = SGM.getFunction(constant, NotForDefinition);
  assert(f->getLoweredFunctionType() == constantInfo.SILFnType);
  return B.createFunctionRef(loc, f);
}
Exemple #3
0
static std::string mangleConstant(SILDeclRef c, SILDeclRef::ManglingKind Kind) {
  using namespace Mangle;
  Mangler mangler;

  // Almost everything below gets one of the common prefixes:
  //   mangled-name ::= '_T' global     // Native symbol
  //   mangled-name ::= '_TTo' global   // ObjC interop thunk
  //   mangled-name ::= '_TTO' global   // Foreign function thunk
  //   mangled-name ::= '_TTd' global   // Direct
  StringRef introducer = "_T";
  switch (Kind) {
    case SILDeclRef::ManglingKind::Default:
      if (c.isForeign) {
        introducer = "_TTo";
      } else if (c.isDirectReference) {
        introducer = "_TTd";
      } else if (c.isForeignToNativeThunk()) {
        introducer = "_TTO";
      }
      break;
    case SILDeclRef::ManglingKind::VTableMethod:
      introducer = "_TTV";
      break;
    case SILDeclRef::ManglingKind::DynamicThunk:
      introducer = "_TTD";
      break;
  }
  
  // As a special case, Clang functions and globals don't get mangled at all.
  if (c.hasDecl()) {
    if (auto clangDecl = c.getDecl()->getClangDecl()) {
      if (!c.isForeignToNativeThunk() && !c.isNativeToForeignThunk()
          && !c.isCurried) {
        if (auto namedClangDecl = dyn_cast<clang::DeclaratorDecl>(clangDecl)) {
          if (auto asmLabel = namedClangDecl->getAttr<clang::AsmLabelAttr>()) {
            mangler.append('\01');
            mangler.append(asmLabel->getLabel());
          } else if (namedClangDecl->hasAttr<clang::OverloadableAttr>()) {
            std::string storage;
            llvm::raw_string_ostream SS(storage);
            // FIXME: When we can import C++, use Clang's mangler all the time.
            mangleClangDecl(SS, namedClangDecl,
                            c.getDecl()->getASTContext());
            mangler.append(SS.str());
          } else {
            mangler.append(namedClangDecl->getName());
          }
          return mangler.finalize();
        }
      }
    }
  }
  
  switch (c.kind) {
  //   entity ::= declaration                     // other declaration
  case SILDeclRef::Kind::Func:
    if (!c.hasDecl()) {
      mangler.append(introducer);
      mangler.mangleClosureEntity(c.getAbstractClosureExpr(),
                                  c.uncurryLevel);
      return mangler.finalize();
    }

    // As a special case, functions can have manually mangled names.
    // Use the SILGen name only for the original non-thunked, non-curried entry
    // point.
    if (auto NameA = c.getDecl()->getAttrs().getAttribute<SILGenNameAttr>())
      if (!c.isForeignToNativeThunk() && !c.isNativeToForeignThunk()
          && !c.isCurried) {
        mangler.append(NameA->Name);
        return mangler.finalize();
      }
      
    // Use a given cdecl name for native-to-foreign thunks.
    if (auto CDeclA = c.getDecl()->getAttrs().getAttribute<CDeclAttr>())
      if (c.isNativeToForeignThunk()) {
        mangler.append(CDeclA->Name);
        return mangler.finalize();
      }

    // Otherwise, fall through into the 'other decl' case.
    SWIFT_FALLTHROUGH;

  case SILDeclRef::Kind::EnumElement:
    mangler.append(introducer);
    mangler.mangleEntity(c.getDecl(), c.uncurryLevel);
    return mangler.finalize();

  //   entity ::= context 'D'                     // deallocating destructor
  case SILDeclRef::Kind::Deallocator:
    mangler.append(introducer);
    mangler.mangleDestructorEntity(cast<DestructorDecl>(c.getDecl()),
                                   /*isDeallocating*/ true);
    return mangler.finalize();

  //   entity ::= context 'd'                     // destroying destructor
  case SILDeclRef::Kind::Destroyer:
    mangler.append(introducer);
    mangler.mangleDestructorEntity(cast<DestructorDecl>(c.getDecl()),
                                   /*isDeallocating*/ false);
    return mangler.finalize();

  //   entity ::= context 'C' type                // allocating constructor
  case SILDeclRef::Kind::Allocator:
    mangler.append(introducer);
    mangler.mangleConstructorEntity(cast<ConstructorDecl>(c.getDecl()),
                                    /*allocating*/ true,
                                    c.uncurryLevel);
    return mangler.finalize();

  //   entity ::= context 'c' type                // initializing constructor
  case SILDeclRef::Kind::Initializer:
    mangler.append(introducer);
    mangler.mangleConstructorEntity(cast<ConstructorDecl>(c.getDecl()),
                                    /*allocating*/ false,
                                    c.uncurryLevel);
    return mangler.finalize();

  //   entity ::= declaration 'e'                 // ivar initializer
  //   entity ::= declaration 'E'                 // ivar destroyer
  case SILDeclRef::Kind::IVarInitializer:
  case SILDeclRef::Kind::IVarDestroyer:
    mangler.append(introducer);
    mangler.mangleIVarInitDestroyEntity(
      cast<ClassDecl>(c.getDecl()),
      c.kind == SILDeclRef::Kind::IVarDestroyer);
    return mangler.finalize();

  //   entity ::= declaration 'a'                 // addressor
  case SILDeclRef::Kind::GlobalAccessor:
    mangler.append(introducer);
    mangler.mangleAddressorEntity(c.getDecl());
    return mangler.finalize();

  //   entity ::= declaration 'G'                 // getter
  case SILDeclRef::Kind::GlobalGetter:
    mangler.append(introducer);
    mangler.mangleGlobalGetterEntity(c.getDecl());
    return mangler.finalize();

  //   entity ::= context 'e' index               // default arg generator
  case SILDeclRef::Kind::DefaultArgGenerator:
    mangler.append(introducer);
    mangler.mangleDefaultArgumentEntity(cast<AbstractFunctionDecl>(c.getDecl()),
                                        c.defaultArgIndex);
    return mangler.finalize();

  //   entity ::= 'I' declaration 'i'             // stored property initializer
  case SILDeclRef::Kind::StoredPropertyInitializer:
    mangler.append(introducer);
    mangler.mangleInitializerEntity(cast<VarDecl>(c.getDecl()));
    return mangler.finalize();
  }

  llvm_unreachable("bad entity kind!");
}
Exemple #4
0
static std::string mangleConstant(SILDeclRef c, SILDeclRef::ManglingKind Kind) {
  using namespace NewMangling;
  ASTMangler mangler;

  // As a special case, Clang functions and globals don't get mangled at all.
  if (c.hasDecl()) {
    if (auto clangDecl = c.getDecl()->getClangDecl()) {
      if (!c.isForeignToNativeThunk() && !c.isNativeToForeignThunk()
          && !c.isCurried) {
        if (auto namedClangDecl = dyn_cast<clang::DeclaratorDecl>(clangDecl)) {
          if (auto asmLabel = namedClangDecl->getAttr<clang::AsmLabelAttr>()) {
            std::string s(1, '\01');
            s += asmLabel->getLabel();
            return s;
          } else if (namedClangDecl->hasAttr<clang::OverloadableAttr>()) {
            std::string storage;
            llvm::raw_string_ostream SS(storage);
            // FIXME: When we can import C++, use Clang's mangler all the time.
            mangleClangDecl(SS, namedClangDecl,
                            c.getDecl()->getASTContext());
            return SS.str();
          }
          return namedClangDecl->getName();
        }
      }
    }
  }

  ASTMangler::SymbolKind SKind = ASTMangler::SymbolKind::Default;
  switch (Kind) {
    case SILDeclRef::ManglingKind::Default:
      if (c.isForeign) {
        SKind = ASTMangler::SymbolKind::SwiftAsObjCThunk;
      } else if (c.isDirectReference) {
        SKind = ASTMangler::SymbolKind::DirectMethodReferenceThunk;
      } else if (c.isForeignToNativeThunk()) {
        SKind = ASTMangler::SymbolKind::ObjCAsSwiftThunk;
      }
      break;
    case SILDeclRef::ManglingKind::VTableMethod:
      SKind = ASTMangler::SymbolKind::VTableMethod;
      break;
    case SILDeclRef::ManglingKind::DynamicThunk:
      SKind = ASTMangler::SymbolKind::DynamicThunk;
      break;
  }

  switch (c.kind) {
  case SILDeclRef::Kind::Func:
    if (!c.hasDecl())
      return mangler.mangleClosureEntity(c.getAbstractClosureExpr(), SKind);

    // As a special case, functions can have manually mangled names.
    // Use the SILGen name only for the original non-thunked, non-curried entry
    // point.
    if (auto NameA = c.getDecl()->getAttrs().getAttribute<SILGenNameAttr>())
      if (!c.isForeignToNativeThunk() && !c.isNativeToForeignThunk()
          && !c.isCurried) {
        return NameA->Name;
      }
      
    // Use a given cdecl name for native-to-foreign thunks.
    if (auto CDeclA = c.getDecl()->getAttrs().getAttribute<CDeclAttr>())
      if (c.isNativeToForeignThunk()) {
        return CDeclA->Name;
      }

    // Otherwise, fall through into the 'other decl' case.
    SWIFT_FALLTHROUGH;

  case SILDeclRef::Kind::EnumElement:
    return mangler.mangleEntity(c.getDecl(), c.isCurried, SKind);

  case SILDeclRef::Kind::Deallocator:
    assert(!c.isCurried);
    return mangler.mangleDestructorEntity(cast<DestructorDecl>(c.getDecl()),
                                          /*isDeallocating*/ true,
                                          SKind);

  case SILDeclRef::Kind::Destroyer:
    assert(!c.isCurried);
    return mangler.mangleDestructorEntity(cast<DestructorDecl>(c.getDecl()),
                                          /*isDeallocating*/ false,
                                          SKind);

  case SILDeclRef::Kind::Allocator:
    return mangler.mangleConstructorEntity(cast<ConstructorDecl>(c.getDecl()),
                                           /*allocating*/ true,
                                           c.isCurried,
                                           SKind);

  case SILDeclRef::Kind::Initializer:
    return mangler.mangleConstructorEntity(cast<ConstructorDecl>(c.getDecl()),
                                           /*allocating*/ false,
                                           c.isCurried,
                                           SKind);

  case SILDeclRef::Kind::IVarInitializer:
  case SILDeclRef::Kind::IVarDestroyer:
    assert(!c.isCurried);
    return mangler.mangleIVarInitDestroyEntity(cast<ClassDecl>(c.getDecl()),
                                  c.kind == SILDeclRef::Kind::IVarDestroyer,
                                  SKind);

  case SILDeclRef::Kind::GlobalAccessor:
    assert(!c.isCurried);
    return mangler.mangleAccessorEntity(AccessorKind::IsMutableAddressor,
                                        AddressorKind::Unsafe,
                                        c.getDecl(),
                                        /*isStatic*/ false,
                                        SKind);

  case SILDeclRef::Kind::GlobalGetter:
    assert(!c.isCurried);
    return mangler.mangleGlobalGetterEntity(c.getDecl(), SKind);

  case SILDeclRef::Kind::DefaultArgGenerator:
    assert(!c.isCurried);
    return mangler.mangleDefaultArgumentEntity(
                                        cast<AbstractFunctionDecl>(c.getDecl()),
                                        c.defaultArgIndex,
                                        SKind);

  case SILDeclRef::Kind::StoredPropertyInitializer:
    assert(!c.isCurried);
    return mangler.mangleInitializerEntity(cast<VarDecl>(c.getDecl()), SKind);
  }

  llvm_unreachable("bad entity kind!");
}