linux-x64/clang/include/clang/Analysis/Analyses/ThreadSafetyLogical.h - hafnium/prebuilts - Git at Google

 //===- ThreadSafetyLogical.h -----------------------------------*- C++ --*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 // This file defines a representation for logical expressions with SExpr leaves
 // that are used as part of fact-checking capability expressions.
 //===----------------------------------------------------------------------===//

 #ifndef LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETYLOGICAL_H
 #define LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETYLOGICAL_H

 #include "clang/Analysis/Analyses/ThreadSafetyTIL.h"

 namespace clang {
 namespace threadSafety {
 namespace lexpr {

 class LExpr {
 public:
   enum Opcode {
     Terminal,
     And,
     Or,
     Not
   };
   Opcode kind() const { return Kind; }

   /// \brief Logical implication. Returns true if the LExpr implies RHS, i.e. if
   /// the LExpr holds, then RHS must hold. For example, (A & B) implies A.
   inline bool implies(const LExpr *RHS) const;

 protected:
   LExpr(Opcode Kind) : Kind(Kind) {}

 private:
   Opcode Kind;
 };

 class Terminal : public LExpr {
   til::SExpr *Expr;

 public:
   Terminal(til::SExpr *Expr) : LExpr(LExpr::Terminal), Expr(Expr) {}

   const til::SExpr *expr() const { return Expr; }
   til::SExpr *expr() { return Expr; }

   static bool classof(const LExpr *E) { return E->kind() == LExpr::Terminal; }
 };

 class BinOp : public LExpr {
   LExpr *LHS, *RHS;

 protected:
   BinOp(LExpr *LHS, LExpr *RHS, Opcode Code) : LExpr(Code), LHS(LHS), RHS(RHS) {}

 public:
   const LExpr *left() const { return LHS; }
   LExpr *left() { return LHS; }

   const LExpr *right() const { return RHS; }
   LExpr *right() { return RHS; }
 };

 class And : public BinOp {
 public:
   And(LExpr *LHS, LExpr *RHS) : BinOp(LHS, RHS, LExpr::And) {}

   static bool classof(const LExpr *E) { return E->kind() == LExpr::And; }
 };

 class Or : public BinOp {
 public:
   Or(LExpr *LHS, LExpr *RHS) : BinOp(LHS, RHS, LExpr::Or) {}

   static bool classof(const LExpr *E) { return E->kind() == LExpr::Or; }
 };

 class Not : public LExpr {
   LExpr *Exp;

 public:
   Not(LExpr *Exp) : LExpr(LExpr::Not), Exp(Exp) {}

   const LExpr *exp() const { return Exp; }
   LExpr *exp() { return Exp; }

   static bool classof(const LExpr *E) { return E->kind() == LExpr::Not; }
 };

 /// \brief Logical implication. Returns true if LHS implies RHS, i.e. if LHS
 /// holds, then RHS must hold. For example, (A & B) implies A.
 bool implies(const LExpr *LHS, const LExpr *RHS);

 bool LExpr::implies(const LExpr *RHS) const {
   return lexpr::implies(this, RHS);
 }

 }
 }
 }

 #endif
	//===- ThreadSafetyLogical.h ------------------------------------ C++ ---===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	// This file defines a representation for logical expressions with SExpr leaves
	// that are used as part of fact-checking capability expressions.
	//===----------------------------------------------------------------------===//

	#ifndef LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETYLOGICAL_H
	#define LLVM_CLANG_ANALYSIS_ANALYSES_THREADSAFETYLOGICAL_H

	#include "clang/Analysis/Analyses/ThreadSafetyTIL.h"

	namespace clang {
	namespace threadSafety {
	namespace lexpr {

	class LExpr {
	public:
	enum Opcode {
	Terminal,
	And,
	Or,
	Not
	};
	Opcode kind() const { return Kind; }

	/// \brief Logical implication. Returns true if the LExpr implies RHS, i.e. if
	/// the LExpr holds, then RHS must hold. For example, (A & B) implies A.
	inline bool implies(const LExpr *RHS) const;

	protected:
	LExpr(Opcode Kind) : Kind(Kind) {}

	private:
	Opcode Kind;
	};

	class Terminal : public LExpr {
	til::SExpr *Expr;

	public:
	Terminal(til::SExpr *Expr) : LExpr(LExpr::Terminal), Expr(Expr) {}

	const til::SExpr *expr() const { return Expr; }
	til::SExpr *expr() { return Expr; }

	static bool classof(const LExpr *E) { return E->kind() == LExpr::Terminal; }
	};

	class BinOp : public LExpr {
	LExpr LHS, RHS;

	protected:
	BinOp(LExpr LHS, LExpr RHS, Opcode Code) : LExpr(Code), LHS(LHS), RHS(RHS) {}

	public:
	const LExpr *left() const { return LHS; }
	LExpr *left() { return LHS; }

	const LExpr *right() const { return RHS; }
	LExpr *right() { return RHS; }
	};

	class And : public BinOp {
	public:
	And(LExpr LHS, LExpr RHS) : BinOp(LHS, RHS, LExpr::And) {}

	static bool classof(const LExpr *E) { return E->kind() == LExpr::And; }
	};

	class Or : public BinOp {
	public:
	Or(LExpr LHS, LExpr RHS) : BinOp(LHS, RHS, LExpr::Or) {}

	static bool classof(const LExpr *E) { return E->kind() == LExpr::Or; }
	};

	class Not : public LExpr {
	LExpr *Exp;

	public:
	Not(LExpr *Exp) : LExpr(LExpr::Not), Exp(Exp) {}

	const LExpr *exp() const { return Exp; }
	LExpr *exp() { return Exp; }

	static bool classof(const LExpr *E) { return E->kind() == LExpr::Not; }
	};

	/// \brief Logical implication. Returns true if LHS implies RHS, i.e. if LHS
	/// holds, then RHS must hold. For example, (A & B) implies A.
	bool implies(const LExpr LHS, const LExpr RHS);

	bool LExpr::implies(const LExpr *RHS) const {
	return lexpr::implies(this, RHS);
	}

	}
	}
	}

	#endif