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

 //===--- CSFix.cpp - Constraint Fixes -------------------------------------===//
 //
 // This source file is part of the Swift.org open source project
 //
 // Copyright (c) 2014 - 2018 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 the \c ConstraintFix class and its related types,
 // which is used by constraint solver to attempt to fix constraints to be
 // able to produce a solution which is easily diagnosable.
 //
 //===----------------------------------------------------------------------===//

 #include "CSFix.h"
 #include "CSDiagnostics.h"
 #include "ConstraintLocator.h"
 #include "ConstraintSystem.h"
 #include "swift/AST/Expr.h"
 #include "swift/AST/Type.h"
 #include "swift/Basic/SourceManager.h"
 #include "llvm/ADT/SmallString.h"
 #include "llvm/Support/raw_ostream.h"
 #include <string>

 using namespace swift;
 using namespace constraints;

 ConstraintFix::~ConstraintFix() {}

 Expr *ConstraintFix::getAnchor() const { return getLocator()->getAnchor(); }

 void ConstraintFix::print(llvm::raw_ostream &Out) const {
   Out << "[fix: ";
   Out << getName();
   Out << ']';
   Out << " @ ";
   getLocator()->dump(&CS.getASTContext().SourceMgr, Out);
 }

 void ConstraintFix::dump() const {print(llvm::errs()); }

 std::string ForceDowncast::getName() const {
   llvm::SmallString<16> name;
   name += "force downcast (as! ";
   name += DowncastTo->getString();
   name += ")";
   return name.c_str();
 }

 bool ForceDowncast::diagnose(Expr *expr, bool asNote) const {
   MissingExplicitConversionFailure failure(expr, getConstraintSystem(),
                                            getLocator(), DowncastTo);
   return failure.diagnose(asNote);
 }

 ForceDowncast *ForceDowncast::create(ConstraintSystem &cs, Type toType,
                                      ConstraintLocator *locator) {
   return new (cs.getAllocator()) ForceDowncast(cs, toType, locator);
 }

 bool ForceOptional::diagnose(Expr *root, bool asNote) const {
   MissingOptionalUnwrapFailure failure(root, getConstraintSystem(),
                                        getLocator());
   return failure.diagnose(asNote);
 }

 ForceOptional *ForceOptional::create(ConstraintSystem &cs,
                                      ConstraintLocator *locator) {
   return new (cs.getAllocator()) ForceOptional(cs, locator);
 }

 bool UnwrapOptionalBase::diagnose(Expr *root, bool asNote) const {
   bool resultIsOptional =
       getKind() == FixKind::UnwrapOptionalBaseWithOptionalResult;
   MemberAccessOnOptionalBaseFailure failure(
       root, getConstraintSystem(), getLocator(), MemberName, resultIsOptional);
   return failure.diagnose(asNote);
 }

 UnwrapOptionalBase *UnwrapOptionalBase::create(ConstraintSystem &cs,
                                                DeclName member,
                                                ConstraintLocator *locator) {
   return new (cs.getAllocator())
       UnwrapOptionalBase(cs, FixKind::UnwrapOptionalBase, member, locator);
 }

 UnwrapOptionalBase *UnwrapOptionalBase::createWithOptionalResult(
     ConstraintSystem &cs, DeclName member, ConstraintLocator *locator) {
   return new (cs.getAllocator()) UnwrapOptionalBase(
       cs, FixKind::UnwrapOptionalBaseWithOptionalResult, member, locator);
 }

 bool AddAddressOf::diagnose(Expr *root, bool asNote) const {
   MissingAddressOfFailure failure(root, getConstraintSystem(), getLocator());
   return failure.diagnose(asNote);
 }

 AddAddressOf *AddAddressOf::create(ConstraintSystem &cs,
                                    ConstraintLocator *locator) {
   return new (cs.getAllocator()) AddAddressOf(cs, locator);
 }

 bool TreatRValueAsLValue::diagnose(Expr *root, bool asNote) const {
   RValueTreatedAsLValueFailure failure(getConstraintSystem(), getLocator());
   return failure.diagnose(asNote);
 }

 TreatRValueAsLValue *TreatRValueAsLValue::create(ConstraintSystem &cs,
                                    ConstraintLocator *locator) {
   return new (cs.getAllocator()) TreatRValueAsLValue(cs, locator);
 }

 bool CoerceToCheckedCast::diagnose(Expr *root, bool asNote) const {
   MissingForcedDowncastFailure failure(root, getConstraintSystem(),
                                        getLocator());
   return failure.diagnose(asNote);
 }

 CoerceToCheckedCast *CoerceToCheckedCast::create(ConstraintSystem &cs,
                                                  ConstraintLocator *locator) {
   return new (cs.getAllocator()) CoerceToCheckedCast(cs, locator);
 }

 bool MarkExplicitlyEscaping::diagnose(Expr *root, bool asNote) const {
   NoEscapeFuncToTypeConversionFailure failure(root, getConstraintSystem(),
                                               getLocator(), ConvertTo);
   return failure.diagnose(asNote);
 }

 MarkExplicitlyEscaping *
 MarkExplicitlyEscaping::create(ConstraintSystem &cs, ConstraintLocator *locator,
                                Type convertingTo) {
   return new (cs.getAllocator())
       MarkExplicitlyEscaping(cs, locator, convertingTo);
 }

 bool RelabelArguments::diagnose(Expr *root, bool asNote) const {
   LabelingFailure failure(getConstraintSystem(), getLocator(), getLabels());
   return failure.diagnose(asNote);
 }

 RelabelArguments *
 RelabelArguments::create(ConstraintSystem &cs,
                          llvm::ArrayRef<Identifier> correctLabels,
                          ConstraintLocator *locator) {
   unsigned size = totalSizeToAlloc<Identifier>(correctLabels.size());
   void *mem = cs.getAllocator().Allocate(size, alignof(RelabelArguments));
   return new (mem) RelabelArguments(cs, correctLabels, locator);
 }

 bool MissingConformance::diagnose(Expr *root, bool asNote) const {
   MissingConformanceFailure failure(root, getConstraintSystem(), getLocator(),
                                     {NonConformingType, Protocol});
   return failure.diagnose(asNote);
 }

 MissingConformance *MissingConformance::create(ConstraintSystem &cs, Type type,
                                                ProtocolDecl *protocol,
                                                ConstraintLocator *locator) {
   return new (cs.getAllocator())
       MissingConformance(cs, type, protocol, locator);
 }

 bool SkipSameTypeRequirement::diagnose(Expr *root, bool asNote) const {
   SameTypeRequirementFailure failure(root, getConstraintSystem(), LHS, RHS,
                                      getLocator());
   return failure.diagnose(asNote);
 }

 SkipSameTypeRequirement *
 SkipSameTypeRequirement::create(ConstraintSystem &cs, Type lhs, Type rhs,
                                 ConstraintLocator *locator) {
   return new (cs.getAllocator()) SkipSameTypeRequirement(cs, lhs, rhs, locator);
 }

 bool SkipSuperclassRequirement::diagnose(Expr *root, bool asNote) const {
   SuperclassRequirementFailure failure(root, getConstraintSystem(), LHS, RHS,
                                        getLocator());
   return failure.diagnose(asNote);
 }

 SkipSuperclassRequirement *
 SkipSuperclassRequirement::create(ConstraintSystem &cs, Type lhs, Type rhs,
                                   ConstraintLocator *locator) {
   return new (cs.getAllocator())
       SkipSuperclassRequirement(cs, lhs, rhs, locator);
 }

 bool ContextualMismatch::diagnose(Expr *root, bool asNote) const {
   auto failure = ContextualFailure(root, getConstraintSystem(), getFromType(),
                                    getToType(), getLocator());
   return failure.diagnose(asNote);
 }

 ContextualMismatch *ContextualMismatch::create(ConstraintSystem &cs, Type lhs,
                                                Type rhs,
                                                ConstraintLocator *locator) {
   return new (cs.getAllocator()) ContextualMismatch(cs, lhs, rhs, locator);
 }

 bool AutoClosureForwarding::diagnose(Expr *root, bool asNote) const {
   auto failure =
       AutoClosureForwardingFailure(getConstraintSystem(), getLocator());
   return failure.diagnose(asNote);
 }

 AutoClosureForwarding *AutoClosureForwarding::create(ConstraintSystem &cs,
                                                      ConstraintLocator *locator) {
   return new (cs.getAllocator()) AutoClosureForwarding(cs, locator);
 }
	//===--- CSFix.cpp - Constraint Fixes -------------------------------------===//
	//
	// This source file is part of the Swift.org open source project
	//
	// Copyright (c) 2014 - 2018 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 the \c ConstraintFix class and its related types,
	// which is used by constraint solver to attempt to fix constraints to be
	// able to produce a solution which is easily diagnosable.
	//
	//===----------------------------------------------------------------------===//

	#include "CSFix.h"
	#include "CSDiagnostics.h"
	#include "ConstraintLocator.h"
	#include "ConstraintSystem.h"
	#include "swift/AST/Expr.h"
	#include "swift/AST/Type.h"
	#include "swift/Basic/SourceManager.h"
	#include "llvm/ADT/SmallString.h"
	#include "llvm/Support/raw_ostream.h"
	#include <string>

	using namespace swift;
	using namespace constraints;

	ConstraintFix::~ConstraintFix() {}

	Expr *ConstraintFix::getAnchor() const { return getLocator()->getAnchor(); }

	void ConstraintFix::print(llvm::raw_ostream &Out) const {
	Out << "[fix: ";
	Out << getName();
	Out << ']';
	Out << " @ ";
	getLocator()->dump(&CS.getASTContext().SourceMgr, Out);
	}

	void ConstraintFix::dump() const {print(llvm::errs()); }

	std::string ForceDowncast::getName() const {
	llvm::SmallString<16> name;
	name += "force downcast (as! ";
	name += DowncastTo->getString();
	name += ")";
	return name.c_str();
	}

	bool ForceDowncast::diagnose(Expr *expr, bool asNote) const {
	MissingExplicitConversionFailure failure(expr, getConstraintSystem(),
	getLocator(), DowncastTo);
	return failure.diagnose(asNote);
	}

	ForceDowncast *ForceDowncast::create(ConstraintSystem &cs, Type toType,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) ForceDowncast(cs, toType, locator);
	}

	bool ForceOptional::diagnose(Expr *root, bool asNote) const {
	MissingOptionalUnwrapFailure failure(root, getConstraintSystem(),
	getLocator());
	return failure.diagnose(asNote);
	}

	ForceOptional *ForceOptional::create(ConstraintSystem &cs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) ForceOptional(cs, locator);
	}

	bool UnwrapOptionalBase::diagnose(Expr *root, bool asNote) const {
	bool resultIsOptional =
	getKind() == FixKind::UnwrapOptionalBaseWithOptionalResult;
	MemberAccessOnOptionalBaseFailure failure(
	root, getConstraintSystem(), getLocator(), MemberName, resultIsOptional);
	return failure.diagnose(asNote);
	}

	UnwrapOptionalBase *UnwrapOptionalBase::create(ConstraintSystem &cs,
	DeclName member,
	ConstraintLocator *locator) {
	return new (cs.getAllocator())
	UnwrapOptionalBase(cs, FixKind::UnwrapOptionalBase, member, locator);
	}

	UnwrapOptionalBase *UnwrapOptionalBase::createWithOptionalResult(
	ConstraintSystem &cs, DeclName member, ConstraintLocator *locator) {
	return new (cs.getAllocator()) UnwrapOptionalBase(
	cs, FixKind::UnwrapOptionalBaseWithOptionalResult, member, locator);
	}

	bool AddAddressOf::diagnose(Expr *root, bool asNote) const {
	MissingAddressOfFailure failure(root, getConstraintSystem(), getLocator());
	return failure.diagnose(asNote);
	}

	AddAddressOf *AddAddressOf::create(ConstraintSystem &cs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) AddAddressOf(cs, locator);
	}

	bool TreatRValueAsLValue::diagnose(Expr *root, bool asNote) const {
	RValueTreatedAsLValueFailure failure(getConstraintSystem(), getLocator());
	return failure.diagnose(asNote);
	}

	TreatRValueAsLValue *TreatRValueAsLValue::create(ConstraintSystem &cs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) TreatRValueAsLValue(cs, locator);
	}

	bool CoerceToCheckedCast::diagnose(Expr *root, bool asNote) const {
	MissingForcedDowncastFailure failure(root, getConstraintSystem(),
	getLocator());
	return failure.diagnose(asNote);
	}

	CoerceToCheckedCast *CoerceToCheckedCast::create(ConstraintSystem &cs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) CoerceToCheckedCast(cs, locator);
	}

	bool MarkExplicitlyEscaping::diagnose(Expr *root, bool asNote) const {
	NoEscapeFuncToTypeConversionFailure failure(root, getConstraintSystem(),
	getLocator(), ConvertTo);
	return failure.diagnose(asNote);
	}

	MarkExplicitlyEscaping *
	MarkExplicitlyEscaping::create(ConstraintSystem &cs, ConstraintLocator *locator,
	Type convertingTo) {
	return new (cs.getAllocator())
	MarkExplicitlyEscaping(cs, locator, convertingTo);
	}

	bool RelabelArguments::diagnose(Expr *root, bool asNote) const {
	LabelingFailure failure(getConstraintSystem(), getLocator(), getLabels());
	return failure.diagnose(asNote);
	}

	RelabelArguments *
	RelabelArguments::create(ConstraintSystem &cs,
	llvm::ArrayRef<Identifier> correctLabels,
	ConstraintLocator *locator) {
	unsigned size = totalSizeToAlloc<Identifier>(correctLabels.size());
	void *mem = cs.getAllocator().Allocate(size, alignof(RelabelArguments));
	return new (mem) RelabelArguments(cs, correctLabels, locator);
	}

	bool MissingConformance::diagnose(Expr *root, bool asNote) const {
	MissingConformanceFailure failure(root, getConstraintSystem(), getLocator(),
	{NonConformingType, Protocol});
	return failure.diagnose(asNote);
	}

	MissingConformance *MissingConformance::create(ConstraintSystem &cs, Type type,
	ProtocolDecl *protocol,
	ConstraintLocator *locator) {
	return new (cs.getAllocator())
	MissingConformance(cs, type, protocol, locator);
	}

	bool SkipSameTypeRequirement::diagnose(Expr *root, bool asNote) const {
	SameTypeRequirementFailure failure(root, getConstraintSystem(), LHS, RHS,
	getLocator());
	return failure.diagnose(asNote);
	}

	SkipSameTypeRequirement *
	SkipSameTypeRequirement::create(ConstraintSystem &cs, Type lhs, Type rhs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) SkipSameTypeRequirement(cs, lhs, rhs, locator);
	}

	bool SkipSuperclassRequirement::diagnose(Expr *root, bool asNote) const {
	SuperclassRequirementFailure failure(root, getConstraintSystem(), LHS, RHS,
	getLocator());
	return failure.diagnose(asNote);
	}

	SkipSuperclassRequirement *
	SkipSuperclassRequirement::create(ConstraintSystem &cs, Type lhs, Type rhs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator())
	SkipSuperclassRequirement(cs, lhs, rhs, locator);
	}

	bool ContextualMismatch::diagnose(Expr *root, bool asNote) const {
	auto failure = ContextualFailure(root, getConstraintSystem(), getFromType(),
	getToType(), getLocator());
	return failure.diagnose(asNote);
	}

	ContextualMismatch *ContextualMismatch::create(ConstraintSystem &cs, Type lhs,
	Type rhs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) ContextualMismatch(cs, lhs, rhs, locator);
	}

	bool AutoClosureForwarding::diagnose(Expr *root, bool asNote) const {
	auto failure =
	AutoClosureForwardingFailure(getConstraintSystem(), getLocator());
	return failure.diagnose(asNote);
	}

	AutoClosureForwarding *AutoClosureForwarding::create(ConstraintSystem &cs,
	ConstraintLocator *locator) {
	return new (cs.getAllocator()) AutoClosureForwarding(cs, locator);
	}