include/swift/AST/TypeRefinementContext.h - third_party/swift - Git at Google

 //===--- TypeRefinementContext.h - Swift Refinement Context -----*- C++ -*-===//
 //
 // 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 defines the TypeRefinementContext class.  A TypeRefinementContext
 // is the semantic construct that refines a type within its lexical scope.
 //
 //===----------------------------------------------------------------------===//

 #ifndef SWIFT_TYPEREFINEMENTCONTEXT_H
 #define SWIFT_TYPEREFINEMENTCONTEXT_H

 #include "swift/AST/Identifier.h"
 #include "swift/AST/Availability.h"
 #include "swift/AST/Stmt.h" // for PoundAvailableInfo
 #include "swift/Basic/LLVM.h"
 #include "swift/Basic/SourceLoc.h"
 #include "swift/Basic/STLExtras.h"
 #include "llvm/ADT/PointerUnion.h"
 #include "llvm/Support/ErrorHandling.h"

 namespace swift {
   class BraceStmt;
   class Decl;
   class IfStmt;
   class GuardStmt;
   class SourceFile;
   class Stmt;
   class Expr;
   class StmtConditionElement;

 /// Represents a lexical context in which types are refined. For now,
 /// types are refined solely for API availability checking, based on
 /// the operating system versions that the refined context may execute
 /// upon.
 ///
 /// These refinement contexts form a lexical tree parallel to the AST but much
 /// more sparse: we only introduce refinement contexts when there is something
 /// to refine.
 class TypeRefinementContext {

 public:
   /// Describes the reason a type refinement context was introduced.
   enum class Reason {
     /// The root refinement context.
     Root,

     /// The context was introduced by a declaration (e.g., the body of a
     /// function declaration or the contents of a class declaration).
     Decl,

     /// The context was introduced for the Then branch of an IfStmt.
     IfStmtThenBranch,

     /// The context was introduced for the Else branch of an IfStmt.
     IfStmtElseBranch,

     /// The context was introduced for the remaining StmtConditionElements
     /// following an #available(...) query in a StmtCondition.
     /// For example, in the IfStmt below, the optional binding let x = expr()
     /// would be contained in this kind of context:
     ///
     /// if #available(...),
     ///    let x = expr() {
     ///  }
     ConditionFollowingAvailabilityQuery,

     /// The context was introduced for the fallthrough flow of a guard
     /// statement.
     GuardStmtFallthrough,

     /// The context was introduced for the else flow of a guard
     /// statement.
     GuardStmtElseBranch,

     // The context was introduced for the body of a while statement.
     WhileStmtBody
   };

 private:

   /// Represents the AST node that introduced a refinement context.
   class IntroNode {
     Reason IntroReason;
     union {
       SourceFile *SF;
       Decl *D;
       IfStmt *IS;
       PoundAvailableInfo *PAI;
       GuardStmt *GS;
       WhileStmt *WS;
     };

   public:
     IntroNode(SourceFile *SF) : IntroReason(Reason::Root), SF(SF) {}
     IntroNode(Decl *D) : IntroReason(Reason::Decl), D(D) {}
     IntroNode(IfStmt *IS, bool IsThen) :
     IntroReason(IsThen ? Reason::IfStmtThenBranch : Reason::IfStmtElseBranch),
                 IS(IS) {}
     IntroNode(PoundAvailableInfo *PAI)
         : IntroReason(Reason::ConditionFollowingAvailabilityQuery), PAI(PAI) {}
     IntroNode(GuardStmt *GS, bool IsFallthrough)
         : IntroReason(IsFallthrough ? Reason::GuardStmtFallthrough
                                     : Reason::GuardStmtElseBranch),
           GS(GS) {}
     IntroNode(WhileStmt *WS) : IntroReason(Reason::WhileStmtBody), WS(WS) {}

     Reason getReason() const { return IntroReason; }

     SourceFile *getAsSourceFile() const {
       assert(IntroReason == Reason::Root);
       return SF;
     }

     Decl *getAsDecl() const {
       assert(IntroReason == Reason::Decl);
       return D;
     }

     IfStmt *getAsIfStmt() const {
       assert(IntroReason == Reason::IfStmtThenBranch ||
              IntroReason == Reason::IfStmtElseBranch);
       return IS;
     }

     PoundAvailableInfo *getAsPoundAvailableInfo() const {
       assert(IntroReason == Reason::ConditionFollowingAvailabilityQuery);
       return PAI;
     }

     GuardStmt *getAsGuardStmt() const {
       assert(IntroReason == Reason::GuardStmtFallthrough ||
              IntroReason == Reason::GuardStmtElseBranch);
       return GS;
     }

     WhileStmt *getAsWhileStmt() const {
       assert(IntroReason == Reason::WhileStmtBody);
       return WS;
     }
   };

   /// The AST node that introduced this context.
   IntroNode Node;

   SourceRange SrcRange;

   AvailabilityContext AvailabilityInfo;

   std::vector<TypeRefinementContext *> Children;

   TypeRefinementContext(ASTContext &Ctx, IntroNode Node,
                         TypeRefinementContext *Parent, SourceRange SrcRange,
                         const AvailabilityContext &Info);

 public:

   /// Create the root refinement context for the given SourceFile.
   static TypeRefinementContext *createRoot(SourceFile *SF,
                                            const AvailabilityContext &Info);

   /// Create a refinement context for the given declaration.
   static TypeRefinementContext *createForDecl(ASTContext &Ctx, Decl *D,
                                               TypeRefinementContext *Parent,
                                               const AvailabilityContext &Info,
                                               SourceRange SrcRange);

   /// Create a refinement context for the Then branch of the given IfStmt.
   static TypeRefinementContext *
   createForIfStmtThen(ASTContext &Ctx, IfStmt *S, TypeRefinementContext *Parent,
                       const AvailabilityContext &Info);

   /// Create a refinement context for the Else branch of the given IfStmt.
   static TypeRefinementContext *
   createForIfStmtElse(ASTContext &Ctx, IfStmt *S, TypeRefinementContext *Parent,
                       const AvailabilityContext &Info);

   /// Create a refinement context for the true-branch control flow to
   /// further StmtConditionElements following a #available() query in
   /// a StmtCondition.
   static TypeRefinementContext *
   createForConditionFollowingQuery(ASTContext &Ctx, PoundAvailableInfo *PAI,
                                    const StmtConditionElement &LastElement,
                                    TypeRefinementContext *Parent,
                                    const AvailabilityContext &Info);

   /// Create a refinement context for the fallthrough of a GuardStmt.
   static TypeRefinementContext *
   createForGuardStmtFallthrough(ASTContext &Ctx, GuardStmt *RS,
                                   BraceStmt *ContainingBraceStmt,
                                   TypeRefinementContext *Parent,
                                   const AvailabilityContext &Info);

   /// Create a refinement context for the else branch of a GuardStmt.
   static TypeRefinementContext *
   createForGuardStmtElse(ASTContext &Ctx, GuardStmt *RS,
                          TypeRefinementContext *Parent,
                          const AvailabilityContext &Info);

   /// Create a refinement context for the body of a WhileStmt.
   static TypeRefinementContext *
   createForWhileStmtBody(ASTContext &Ctx, WhileStmt *WS,
                          TypeRefinementContext *Parent,
                          const AvailabilityContext &Info);

   /// Returns the reason this context was introduced.
   Reason getReason() const;

   /// Returns the AST node that introduced this refinement context. Note that
   /// this node may be different than the refined range. For example, a
   /// refinement context covering an IfStmt Then branch will have the
   /// IfStmt as the introduction node (and its reason as IfStmtThenBranch)
   /// but its source range will cover the Then branch.
   IntroNode getIntroductionNode() const { return Node; }

   /// Returns the location of the node that introduced this refinement context
   /// or an invalid location if the context reflects the minimum deployment
   // target.
   SourceLoc getIntroductionLoc() const;

   /// Returns the source range covering a _single_ decl-attribute or statement
   /// condition that introduced the refinement context for a given platform
   /// version; if zero or multiple such responsible attributes or statements
   /// exist, returns an invalid SourceRange.
   SourceRange
   getAvailabilityConditionVersionSourceRange(
       PlatformKind Platform,
       const llvm::VersionTuple &Version) const;

   /// Returns the source range on which this context refines types.
   SourceRange getSourceRange() const { return SrcRange; }

   /// Returns the information on what can be assumed present at run time when
   /// running code contained in this context.
   const AvailabilityContext &getAvailabilityInfo() const {
     return AvailabilityInfo;
   }

   /// Adds a child refinement context.
   void addChild(TypeRefinementContext *Child) {
     assert(Child->getSourceRange().isValid());
     Children.push_back(Child);
   }

   /// Returns the inner-most TypeRefinementContext descendant of this context
   /// for the given source location.
   TypeRefinementContext *findMostRefinedSubContext(SourceLoc Loc,
                                                    SourceManager &SM);

   LLVM_ATTRIBUTE_DEPRECATED(
       void dump(SourceManager &SrcMgr) const LLVM_ATTRIBUTE_USED,
       "only for use within the debugger");
   void dump(raw_ostream &OS, SourceManager &SrcMgr) const;
   void print(raw_ostream &OS, SourceManager &SrcMgr, unsigned Indent = 0) const;

   static StringRef getReasonName(Reason R);

   // Only allow allocation of TypeRefinementContext using the allocator in
   // ASTContext.
   void *operator new(size_t Bytes, ASTContext &C,
                      unsigned Alignment = alignof(TypeRefinementContext));
 };

 } // end namespace swift

 #endif
	//===--- TypeRefinementContext.h - Swift Refinement Context ------ C++ --===//
	//
	// 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 defines the TypeRefinementContext class. A TypeRefinementContext
	// is the semantic construct that refines a type within its lexical scope.
	//
	//===----------------------------------------------------------------------===//

	#ifndef SWIFT_TYPEREFINEMENTCONTEXT_H
	#define SWIFT_TYPEREFINEMENTCONTEXT_H

	#include "swift/AST/Identifier.h"
	#include "swift/AST/Availability.h"
	#include "swift/AST/Stmt.h" // for PoundAvailableInfo
	#include "swift/Basic/LLVM.h"
	#include "swift/Basic/SourceLoc.h"
	#include "swift/Basic/STLExtras.h"
	#include "llvm/ADT/PointerUnion.h"
	#include "llvm/Support/ErrorHandling.h"

	namespace swift {
	class BraceStmt;
	class Decl;
	class IfStmt;
	class GuardStmt;
	class SourceFile;
	class Stmt;
	class Expr;
	class StmtConditionElement;

	/// Represents a lexical context in which types are refined. For now,
	/// types are refined solely for API availability checking, based on
	/// the operating system versions that the refined context may execute
	/// upon.
	///
	/// These refinement contexts form a lexical tree parallel to the AST but much
	/// more sparse: we only introduce refinement contexts when there is something
	/// to refine.
	class TypeRefinementContext {

	public:
	/// Describes the reason a type refinement context was introduced.
	enum class Reason {
	/// The root refinement context.
	Root,

	/// The context was introduced by a declaration (e.g., the body of a
	/// function declaration or the contents of a class declaration).
	Decl,

	/// The context was introduced for the Then branch of an IfStmt.
	IfStmtThenBranch,

	/// The context was introduced for the Else branch of an IfStmt.
	IfStmtElseBranch,

	/// The context was introduced for the remaining StmtConditionElements
	/// following an #available(...) query in a StmtCondition.
	/// For example, in the IfStmt below, the optional binding let x = expr()
	/// would be contained in this kind of context:
	///
	/// if #available(...),
	/// let x = expr() {
	/// }
	ConditionFollowingAvailabilityQuery,

	/// The context was introduced for the fallthrough flow of a guard
	/// statement.
	GuardStmtFallthrough,

	/// The context was introduced for the else flow of a guard
	/// statement.
	GuardStmtElseBranch,

	// The context was introduced for the body of a while statement.
	WhileStmtBody
	};

	private:

	/// Represents the AST node that introduced a refinement context.
	class IntroNode {
	Reason IntroReason;
	union {
	SourceFile *SF;
	Decl *D;
	IfStmt *IS;
	PoundAvailableInfo *PAI;
	GuardStmt *GS;
	WhileStmt *WS;
	};

	public:
	IntroNode(SourceFile *SF) : IntroReason(Reason::Root), SF(SF) {}
	IntroNode(Decl *D) : IntroReason(Reason::Decl), D(D) {}
	IntroNode(IfStmt *IS, bool IsThen) :
	IntroReason(IsThen ? Reason::IfStmtThenBranch : Reason::IfStmtElseBranch),
	IS(IS) {}
	IntroNode(PoundAvailableInfo *PAI)
	: IntroReason(Reason::ConditionFollowingAvailabilityQuery), PAI(PAI) {}
	IntroNode(GuardStmt *GS, bool IsFallthrough)
	: IntroReason(IsFallthrough ? Reason::GuardStmtFallthrough
	: Reason::GuardStmtElseBranch),
	GS(GS) {}
	IntroNode(WhileStmt *WS) : IntroReason(Reason::WhileStmtBody), WS(WS) {}

	Reason getReason() const { return IntroReason; }

	SourceFile *getAsSourceFile() const {
	assert(IntroReason == Reason::Root);
	return SF;
	}

	Decl *getAsDecl() const {
	assert(IntroReason == Reason::Decl);
	return D;
	}

	IfStmt *getAsIfStmt() const {
	assert(IntroReason == Reason::IfStmtThenBranch \|\|
	IntroReason == Reason::IfStmtElseBranch);
	return IS;
	}

	PoundAvailableInfo *getAsPoundAvailableInfo() const {
	assert(IntroReason == Reason::ConditionFollowingAvailabilityQuery);
	return PAI;
	}

	GuardStmt *getAsGuardStmt() const {
	assert(IntroReason == Reason::GuardStmtFallthrough \|\|
	IntroReason == Reason::GuardStmtElseBranch);
	return GS;
	}

	WhileStmt *getAsWhileStmt() const {
	assert(IntroReason == Reason::WhileStmtBody);
	return WS;
	}
	};

	/// The AST node that introduced this context.
	IntroNode Node;

	SourceRange SrcRange;

	AvailabilityContext AvailabilityInfo;

	std::vector<TypeRefinementContext *> Children;

	TypeRefinementContext(ASTContext &Ctx, IntroNode Node,
	TypeRefinementContext *Parent, SourceRange SrcRange,
	const AvailabilityContext &Info);

	public:

	/// Create the root refinement context for the given SourceFile.
	static TypeRefinementContext createRoot(SourceFile SF,
	const AvailabilityContext &Info);

	/// Create a refinement context for the given declaration.
	static TypeRefinementContext createForDecl(ASTContext &Ctx, Decl D,
	TypeRefinementContext *Parent,
	const AvailabilityContext &Info,
	SourceRange SrcRange);

	/// Create a refinement context for the Then branch of the given IfStmt.
	static TypeRefinementContext *
	createForIfStmtThen(ASTContext &Ctx, IfStmt S, TypeRefinementContext Parent,
	const AvailabilityContext &Info);

	/// Create a refinement context for the Else branch of the given IfStmt.
	static TypeRefinementContext *
	createForIfStmtElse(ASTContext &Ctx, IfStmt S, TypeRefinementContext Parent,
	const AvailabilityContext &Info);

	/// Create a refinement context for the true-branch control flow to
	/// further StmtConditionElements following a #available() query in
	/// a StmtCondition.
	static TypeRefinementContext *
	createForConditionFollowingQuery(ASTContext &Ctx, PoundAvailableInfo *PAI,
	const StmtConditionElement &LastElement,
	TypeRefinementContext *Parent,
	const AvailabilityContext &Info);

	/// Create a refinement context for the fallthrough of a GuardStmt.
	static TypeRefinementContext *
	createForGuardStmtFallthrough(ASTContext &Ctx, GuardStmt *RS,
	BraceStmt *ContainingBraceStmt,
	TypeRefinementContext *Parent,
	const AvailabilityContext &Info);

	/// Create a refinement context for the else branch of a GuardStmt.
	static TypeRefinementContext *
	createForGuardStmtElse(ASTContext &Ctx, GuardStmt *RS,
	TypeRefinementContext *Parent,
	const AvailabilityContext &Info);

	/// Create a refinement context for the body of a WhileStmt.
	static TypeRefinementContext *
	createForWhileStmtBody(ASTContext &Ctx, WhileStmt *WS,
	TypeRefinementContext *Parent,
	const AvailabilityContext &Info);

	/// Returns the reason this context was introduced.
	Reason getReason() const;

	/// Returns the AST node that introduced this refinement context. Note that
	/// this node may be different than the refined range. For example, a
	/// refinement context covering an IfStmt Then branch will have the
	/// IfStmt as the introduction node (and its reason as IfStmtThenBranch)
	/// but its source range will cover the Then branch.
	IntroNode getIntroductionNode() const { return Node; }

	/// Returns the location of the node that introduced this refinement context
	/// or an invalid location if the context reflects the minimum deployment
	// target.
	SourceLoc getIntroductionLoc() const;

	/// Returns the source range covering a _single_ decl-attribute or statement
	/// condition that introduced the refinement context for a given platform
	/// version; if zero or multiple such responsible attributes or statements
	/// exist, returns an invalid SourceRange.
	SourceRange
	getAvailabilityConditionVersionSourceRange(
	PlatformKind Platform,
	const llvm::VersionTuple &Version) const;

	/// Returns the source range on which this context refines types.
	SourceRange getSourceRange() const { return SrcRange; }

	/// Returns the information on what can be assumed present at run time when
	/// running code contained in this context.
	const AvailabilityContext &getAvailabilityInfo() const {
	return AvailabilityInfo;
	}

	/// Adds a child refinement context.
	void addChild(TypeRefinementContext *Child) {
	assert(Child->getSourceRange().isValid());
	Children.push_back(Child);
	}

	/// Returns the inner-most TypeRefinementContext descendant of this context
	/// for the given source location.
	TypeRefinementContext *findMostRefinedSubContext(SourceLoc Loc,
	SourceManager &SM);

	LLVM_ATTRIBUTE_DEPRECATED(
	void dump(SourceManager &SrcMgr) const LLVM_ATTRIBUTE_USED,
	"only for use within the debugger");
	void dump(raw_ostream &OS, SourceManager &SrcMgr) const;
	void print(raw_ostream &OS, SourceManager &SrcMgr, unsigned Indent = 0) const;

	static StringRef getReasonName(Reason R);

	// Only allow allocation of TypeRefinementContext using the allocator in
	// ASTContext.
	void *operator new(size_t Bytes, ASTContext &C,
	unsigned Alignment = alignof(TypeRefinementContext));
	};

	} // end namespace swift

	#endif