lib/Sema/ResilienceDiagnostics.cpp - third_party/swift - Git at Google

 //===--- ResilienceDiagnostics.cpp - Resilience Inlineability Diagnostics -===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
 // Licensed under Apache License v2.0 with Runtime Library Exception
 //
 // See https://swift.org/LICENSE.txt for license information
 // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
 //
 //===----------------------------------------------------------------------===//
 //
 // This file implements diagnostics for @inlineable.
 //
 //===----------------------------------------------------------------------===//

 #include "TypeChecker.h"
 #include "swift/AST/Attr.h"
 #include "swift/AST/Decl.h"
 #include "swift/AST/Initializer.h"
 #include "swift/AST/DeclContext.h"
 using namespace swift;

 enum FragileFunctionKind : unsigned {
   Transparent,
   InlineAlways,
   Inlineable,
   DefaultArgument
 };

 FragileFunctionKind getFragileFunctionKind(const DeclContext *DC) {
   for (; DC->isLocalContext(); DC = DC->getParent()) {
     if (auto *DAI = dyn_cast<DefaultArgumentInitializer>(DC))
       if (DAI->getResilienceExpansion() == ResilienceExpansion::Minimal)
         return FragileFunctionKind::DefaultArgument;

     if (auto *AFD = dyn_cast<AbstractFunctionDecl>(DC)) {
       // If the function is a nested function, we will serialize its body if
       // we serialize the parent's body.
       if (AFD->getDeclContext()->isLocalContext())
         continue;

       // Bodies of public transparent and always-inline functions are
       // serialized, so use conservative access patterns.
       if (AFD->isTransparent())
         return FragileFunctionKind::Transparent;

       if (AFD->getAttrs().hasAttribute<InlineableAttr>())
         return FragileFunctionKind::Inlineable;

       if (auto attr = AFD->getAttrs().getAttribute<InlineAttr>())
         if (attr->getKind() == InlineKind::Always)
           return FragileFunctionKind::InlineAlways;

       // If a property or subscript is @_inlineable, the accessors are
       // @_inlineable also.
       if (auto FD = dyn_cast<FuncDecl>(AFD))
         if (auto *ASD = FD->getAccessorStorageDecl())
           if (ASD->getAttrs().getAttribute<InlineableAttr>())
             return FragileFunctionKind::Inlineable;
     }
   }

   llvm_unreachable("Context is not nested inside a fragile function");
 }

 void TypeChecker::diagnoseInlineableLocalType(const NominalTypeDecl *NTD) {
   auto *DC = NTD->getDeclContext();
   auto expansion = DC->getResilienceExpansion();
   if (expansion == ResilienceExpansion::Minimal) {
     diagnose(NTD, diag::local_type_in_inlineable_function,
              NTD->getFullName(), getFragileFunctionKind(DC));
   }
 }

 bool TypeChecker::diagnoseInlineableDeclRef(SourceLoc loc,
                                             const ValueDecl *D,
                                             const DeclContext *DC) {
   auto expansion = DC->getResilienceExpansion();

   // Internal declarations referenced from non-inlineable contexts are OK.
   if (expansion == ResilienceExpansion::Maximal)
     return false;

   // Local declarations are OK.
   if (D->getDeclContext()->isLocalContext())
     return false;

   // Type parameters are OK.
   if (isa<AbstractTypeParamDecl>(D))
     return false;

   // Public declarations are OK.
   if (D->getEffectiveAccess() >= Accessibility::Public)
     return false;

   // Enum cases are handled as part of their containing enum.
   if (isa<EnumElementDecl>(D))
     return false;

   // Protocol requirements are not versioned because there's no
   // global entry point.
   if (isa<ProtocolDecl>(D->getDeclContext()) &&
       D->isProtocolRequirement())
     return false;

   // FIXME: Figure out what to do with typealiases
   if (isa<TypeAliasDecl>(D))
     return false;

   diagnose(loc, diag::resilience_decl_unavailable,
            D->getDescriptiveKind(), D->getFullName(),
            D->getFormalAccess(), getFragileFunctionKind(DC));
   diagnose(D, diag::resilience_decl_declared_here,
            D->getDescriptiveKind(), D->getFullName());
   return true;
 }

 void TypeChecker::diagnoseResilientConstructor(ConstructorDecl *ctor) {
   auto nominalDecl = ctor->getDeclContext()
     ->getAsNominalTypeOrNominalTypeExtensionContext();

   // These restrictions only apply to concrete types, and not protocol
   // extensions.
   if (isa<ProtocolDecl>(nominalDecl))
     return;

   bool isDelegating =
       (ctor->getDelegatingOrChainedInitKind(&Diags) ==
        ConstructorDecl::BodyInitKind::Delegating);

   if (!isDelegating &&
       !nominalDecl->hasFixedLayout(ctor->getParentModule(),
                                    ctor->getResilienceExpansion())) {
     if (ctor->getResilienceExpansion() == ResilienceExpansion::Minimal) {
       // An @_inlineable designated initializer defined in a resilient type
       // cannot initialize stored properties directly, and must chain to
       // another initializer.
       diagnose(ctor->getLoc(),
                isa<ClassDecl>(nominalDecl)
                  ? diag::class_designated_init_inlineable_resilient
                  : diag::designated_init_inlineable_resilient,
                nominalDecl->getDeclaredInterfaceType(),
                getFragileFunctionKind(ctor));
     } else {
       // A designated initializer defined on an extension of a resilient
       // type from a different resilience domain cannot initialize stored
       // properties directly, and must chain to another initializer.
       diagnose(ctor->getLoc(),
                diag::designated_init_in_extension_resilient,
                nominalDecl->getDeclaredInterfaceType());
     }
   }
 }
	//===--- ResilienceDiagnostics.cpp - Resilience Inlineability Diagnostics -===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
	// Licensed under Apache License v2.0 with Runtime Library Exception
	//
	// See https://swift.org/LICENSE.txt for license information
	// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
	//
	//===----------------------------------------------------------------------===//
	//
	// This file implements diagnostics for @inlineable.
	//
	//===----------------------------------------------------------------------===//

	#include "TypeChecker.h"
	#include "swift/AST/Attr.h"
	#include "swift/AST/Decl.h"
	#include "swift/AST/Initializer.h"
	#include "swift/AST/DeclContext.h"
	using namespace swift;

	enum FragileFunctionKind : unsigned {
	Transparent,
	InlineAlways,
	Inlineable,
	DefaultArgument
	};

	FragileFunctionKind getFragileFunctionKind(const DeclContext *DC) {
	for (; DC->isLocalContext(); DC = DC->getParent()) {
	if (auto *DAI = dyn_cast<DefaultArgumentInitializer>(DC))
	if (DAI->getResilienceExpansion() == ResilienceExpansion::Minimal)
	return FragileFunctionKind::DefaultArgument;

	if (auto *AFD = dyn_cast<AbstractFunctionDecl>(DC)) {
	// If the function is a nested function, we will serialize its body if
	// we serialize the parent's body.
	if (AFD->getDeclContext()->isLocalContext())
	continue;

	// Bodies of public transparent and always-inline functions are
	// serialized, so use conservative access patterns.
	if (AFD->isTransparent())
	return FragileFunctionKind::Transparent;

	if (AFD->getAttrs().hasAttribute<InlineableAttr>())
	return FragileFunctionKind::Inlineable;

	if (auto attr = AFD->getAttrs().getAttribute<InlineAttr>())
	if (attr->getKind() == InlineKind::Always)
	return FragileFunctionKind::InlineAlways;

	// If a property or subscript is @_inlineable, the accessors are
	// @_inlineable also.
	if (auto FD = dyn_cast<FuncDecl>(AFD))
	if (auto *ASD = FD->getAccessorStorageDecl())
	if (ASD->getAttrs().getAttribute<InlineableAttr>())
	return FragileFunctionKind::Inlineable;
	}
	}

	llvm_unreachable("Context is not nested inside a fragile function");
	}

	void TypeChecker::diagnoseInlineableLocalType(const NominalTypeDecl *NTD) {
	auto *DC = NTD->getDeclContext();
	auto expansion = DC->getResilienceExpansion();
	if (expansion == ResilienceExpansion::Minimal) {
	diagnose(NTD, diag::local_type_in_inlineable_function,
	NTD->getFullName(), getFragileFunctionKind(DC));
	}
	}

	bool TypeChecker::diagnoseInlineableDeclRef(SourceLoc loc,
	const ValueDecl *D,
	const DeclContext *DC) {
	auto expansion = DC->getResilienceExpansion();

	// Internal declarations referenced from non-inlineable contexts are OK.
	if (expansion == ResilienceExpansion::Maximal)
	return false;

	// Local declarations are OK.
	if (D->getDeclContext()->isLocalContext())
	return false;

	// Type parameters are OK.
	if (isa<AbstractTypeParamDecl>(D))
	return false;

	// Public declarations are OK.
	if (D->getEffectiveAccess() >= Accessibility::Public)
	return false;

	// Enum cases are handled as part of their containing enum.
	if (isa<EnumElementDecl>(D))
	return false;

	// Protocol requirements are not versioned because there's no
	// global entry point.
	if (isa<ProtocolDecl>(D->getDeclContext()) &&
	D->isProtocolRequirement())
	return false;

	// FIXME: Figure out what to do with typealiases
	if (isa<TypeAliasDecl>(D))
	return false;

	diagnose(loc, diag::resilience_decl_unavailable,
	D->getDescriptiveKind(), D->getFullName(),
	D->getFormalAccess(), getFragileFunctionKind(DC));
	diagnose(D, diag::resilience_decl_declared_here,
	D->getDescriptiveKind(), D->getFullName());
	return true;
	}

	void TypeChecker::diagnoseResilientConstructor(ConstructorDecl *ctor) {
	auto nominalDecl = ctor->getDeclContext()
	->getAsNominalTypeOrNominalTypeExtensionContext();

	// These restrictions only apply to concrete types, and not protocol
	// extensions.
	if (isa<ProtocolDecl>(nominalDecl))
	return;

	bool isDelegating =
	(ctor->getDelegatingOrChainedInitKind(&Diags) ==
	ConstructorDecl::BodyInitKind::Delegating);

	if (!isDelegating &&
	!nominalDecl->hasFixedLayout(ctor->getParentModule(),
	ctor->getResilienceExpansion())) {
	if (ctor->getResilienceExpansion() == ResilienceExpansion::Minimal) {
	// An @_inlineable designated initializer defined in a resilient type
	// cannot initialize stored properties directly, and must chain to
	// another initializer.
	diagnose(ctor->getLoc(),
	isa<ClassDecl>(nominalDecl)
	? diag::class_designated_init_inlineable_resilient
	: diag::designated_init_inlineable_resilient,
	nominalDecl->getDeclaredInterfaceType(),
	getFragileFunctionKind(ctor));
	} else {
	// A designated initializer defined on an extension of a resilient
	// type from a different resilience domain cannot initialize stored
	// properties directly, and must chain to another initializer.
	diagnose(ctor->getLoc(),
	diag::designated_init_in_extension_resilient,
	nominalDecl->getDeclaredInterfaceType());
	}
	}
	}