lib/Analysis/GRExprEngineInternalChecks.cpp - fp2-dev/platform/external/clang - Gitiles

 //=-- GRExprEngineInternalChecks.cpp - Builtin GRExprEngine Checks---*- 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 the BugType classes used by GRExprEngine to report
 //  bugs derived from builtin checks in the path-sensitive engine.
 //
 //===----------------------------------------------------------------------===//

 #include "clang/Analysis/PathSensitive/BugReporter.h"
 #include "clang/Analysis/PathSensitive/GRExprEngine.h"
 #include "llvm/Support/Compiler.h"
 #include <sstream>

 using namespace clang;

 //===----------------------------------------------------------------------===//
 // Utility functions.
 //===----------------------------------------------------------------------===//

 template <typename ITERATOR> inline
 ExplodedNode<GRState>* GetNode(ITERATOR I) {
   return *I;
 }

 template <> inline
 ExplodedNode<GRState>* GetNode(GRExprEngine::undef_arg_iterator I) {
   return I->first;
 }

 //===----------------------------------------------------------------------===//
 // Bug Descriptions.
 //===----------------------------------------------------------------------===//

 namespace {
 class VISIBILITY_HIDDEN BuiltinBug : public BugTypeCacheLocation {
   const char* name;
   const char* desc;
 public:
   BuiltinBug(const char* n, const char* d = 0) : name(n), desc(d) {}
   virtual const char* getName() const { return name; }
   virtual const char* getDescription() const {
     return desc ? desc : name;
   }

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) = 0;
   virtual void EmitWarnings(BugReporter& BR) {
     EmitBuiltinWarnings(BR, cast<GRBugReporter>(BR).getEngine());
   }

   template <typename ITER>
   void Emit(BugReporter& BR, ITER I, ITER E) {
     for (; I != E; ++I) {
       BugReport R(*this, GetNode(I));
       BR.EmitWarning(R);
     }
   }

   virtual const char* getCategory() const { return "Logic Errors"; }
 };

 class VISIBILITY_HIDDEN NullDeref : public BuiltinBug {
 public:
   NullDeref() : BuiltinBug("null dereference",
                            "Dereference of null pointer.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     Emit(BR, Eng.null_derefs_begin(), Eng.null_derefs_end());
   }
 };

 class VISIBILITY_HIDDEN UndefinedDeref : public BuiltinBug {
 public:
   UndefinedDeref() : BuiltinBug("uninitialized pointer dereference",
                                 "Dereference of undefined value.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     Emit(BR, Eng.undef_derefs_begin(), Eng.undef_derefs_end());
   }
 };

 class VISIBILITY_HIDDEN DivZero : public BuiltinBug {
 public:
   DivZero() : BuiltinBug("divide-by-zero",
                          "Division by zero/undefined value.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     Emit(BR, Eng.explicit_bad_divides_begin(), Eng.explicit_bad_divides_end());
   }
 };

 class VISIBILITY_HIDDEN UndefResult : public BuiltinBug {
 public:
   UndefResult() : BuiltinBug("undefined result",
                              "Result of operation is undefined.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     Emit(BR, Eng.undef_results_begin(), Eng.undef_results_end());
   }
 };

 class VISIBILITY_HIDDEN BadCall : public BuiltinBug {
 public:
   BadCall()
   : BuiltinBug("invalid function call",
         "Called function is a NULL or undefined function pointer value.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     Emit(BR, Eng.bad_calls_begin(), Eng.bad_calls_end());
   }
 };

 class VISIBILITY_HIDDEN BadArg : public BuiltinBug {
 public:
   BadArg() : BuiltinBug("uninitialized argument",
     "Pass-by-value argument in function is undefined.") {}

   BadArg(const char* d) : BuiltinBug("uninitialized argument", d) {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     for (GRExprEngine::UndefArgsTy::iterator I = Eng.undef_arg_begin(),
          E = Eng.undef_arg_end(); I!=E; ++I) {

       // Generate a report for this bug.
       RangedBugReport report(*this, I->first);
       report.addRange(I->second->getSourceRange());

       // Emit the warning.
       BR.EmitWarning(report);
     }
   }
 };

 class VISIBILITY_HIDDEN BadMsgExprArg : public BadArg {
 public:
   BadMsgExprArg()
     : BadArg("Pass-by-value argument in message expression is undefined.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     for (GRExprEngine::UndefArgsTy::iterator I=Eng.msg_expr_undef_arg_begin(),
          E = Eng.msg_expr_undef_arg_end(); I!=E; ++I) {

       // Generate a report for this bug.
       RangedBugReport report(*this, I->first);
       report.addRange(I->second->getSourceRange());

       // Emit the warning.
       BR.EmitWarning(report);
     }
   }
 };

 class VISIBILITY_HIDDEN BadReceiver : public BuiltinBug {
 public:
   BadReceiver()
   : BuiltinBug("uninitialized receiver",
                "Receiver in message expression is an uninitialized value.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     for (GRExprEngine::UndefReceiversTy::iterator I=Eng.undef_receivers_begin(),
          End = Eng.undef_receivers_end(); I!=End; ++I) {

       // Generate a report for this bug.
       RangedBugReport report(*this, *I);

       ExplodedNode<GRState>* N = *I;
       Stmt *S = cast<PostStmt>(N->getLocation()).getStmt();
       Expr* E = cast<ObjCMessageExpr>(S)->getReceiver();
       assert (E && "Receiver cannot be NULL");
       report.addRange(E->getSourceRange());

       // Emit the warning.
       BR.EmitWarning(report);
     }
   }
 };

 class VISIBILITY_HIDDEN RetStack : public BuiltinBug {
 public:
   RetStack() : BuiltinBug("return of stack address") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     for (GRExprEngine::ret_stackaddr_iterator I=Eng.ret_stackaddr_begin(),
          End = Eng.ret_stackaddr_end(); I!=End; ++I) {

       ExplodedNode<GRState>* N = *I;
       Stmt *S = cast<PostStmt>(N->getLocation()).getStmt();
       Expr* E = cast<ReturnStmt>(S)->getRetValue();
       assert (E && "Return expression cannot be NULL");

       // Get the value associated with E.
       lval::DeclVal V =
         cast<lval::DeclVal>(Eng.getStateManager().GetRVal(N->getState(), E));

       // Generate a report for this bug.
       std::ostringstream os;
       os << "Address of stack memory associated with local variable '"
          << V.getDecl()->getName() << "' returned.";

       std::string s = os.str();

       RangedBugReport report(*this, N, s.c_str());
       report.addRange(E->getSourceRange());

       // Emit the warning.
       BR.EmitWarning(report);
     }
   }
 };


 class VISIBILITY_HIDDEN UndefBranch : public BuiltinBug {
   struct VISIBILITY_HIDDEN FindUndefExpr {
     GRStateManager& VM;
     const GRState* St;

     FindUndefExpr(GRStateManager& V, const GRState* S) : VM(V), St(S) {}

     Expr* FindExpr(Expr* Ex) {
       if (!MatchesCriteria(Ex))
         return 0;

       for (Stmt::child_iterator I=Ex->child_begin(), E=Ex->child_end();I!=E;++I)
         if (Expr* ExI = dyn_cast_or_null<Expr>(*I)) {
           Expr* E2 = FindExpr(ExI);
           if (E2) return E2;
         }

       return Ex;
     }

     bool MatchesCriteria(Expr* Ex) { return VM.GetRVal(St, Ex).isUndef(); }
   };

 public:
   UndefBranch()
     : BuiltinBug("uninitialized value",
                  "Branch condition evaluates to an uninitialized value.") {}

   virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
     for (GRExprEngine::undef_branch_iterator I=Eng.undef_branches_begin(),
          E=Eng.undef_branches_end(); I!=E; ++I) {

       // What's going on here: we want to highlight the subexpression of the
       // condition that is the most likely source of the "uninitialized
       // branch condition."  We do a recursive walk of the condition's
       // subexpressions and roughly look for the most nested subexpression
       // that binds to Undefined.  We then highlight that expression's range.

       BlockEdge B = cast<BlockEdge>((*I)->getLocation());
       Expr* Ex = cast<Expr>(B.getSrc()->getTerminatorCondition());
       assert (Ex && "Block must have a terminator.");

       // Get the predecessor node and check if is a PostStmt with the Stmt
       // being the terminator condition.  We want to inspect the state
       // of that node instead because it will contain main information about
       // the subexpressions.

       assert (!(*I)->pred_empty());

       // Note: any predecessor will do.  They should have identical state,
       // since all the BlockEdge did was act as an error sink since the value
       // had to already be undefined.
       ExplodedNode<GRState> *N = *(*I)->pred_begin();
       ProgramPoint P = N->getLocation();

       const GRState* St = (*I)->getState();

       if (PostStmt* PS = dyn_cast<PostStmt>(&P))
         if (PS->getStmt() == Ex)
           St = N->getState();

       FindUndefExpr FindIt(Eng.getStateManager(), St);
       Ex = FindIt.FindExpr(Ex);

       RangedBugReport R(*this, *I);
       R.addRange(Ex->getSourceRange());

       BR.EmitWarning(R);
     }
   }
 };

 //===----------------------------------------------------------------------===//
 // __attribute__(nonnull) checking

 class VISIBILITY_HIDDEN CheckAttrNonNull : public GRSimpleAPICheck {
   SimpleBugType BT;
   std::list<RangedBugReport> Reports;

 public:
   CheckAttrNonNull() :
   BT("'nonnull' argument passed null", "API",
      "Null pointer passed as an argument to a 'nonnull' parameter") {}

   virtual bool Audit(ExplodedNode<GRState>* N, GRStateManager& VMgr) {
     CallExpr* CE = cast<CallExpr>(cast<PostStmt>(N->getLocation()).getStmt());
     const GRState* state = N->getState();

     RVal X = VMgr.GetRVal(state, CE->getCallee());

     if (!isa<lval::FuncVal>(X))
       return false;

     FunctionDecl* FD = dyn_cast<FunctionDecl>(cast<lval::FuncVal>(X).getDecl());
     const NonNullAttr* Att = FD->getAttr<NonNullAttr>();

     if (!Att)
       return false;

     // Iterate through the arguments of CE and check them for null.

     unsigned idx = 0;
     bool hasError = false;

     for (CallExpr::arg_iterator I=CE->arg_begin(), E=CE->arg_end(); I!=E;
          ++I, ++idx) {

       if (!VMgr.isEqual(state, *I, 0) || !Att->isNonNull(idx))
         continue;

       RangedBugReport R(BT, N);
       R.addRange((*I)->getSourceRange());
       Reports.push_back(R);
       hasError = true;
     }

     return hasError;
   }

   virtual void EmitWarnings(BugReporter& BR) {
     for (std::list<RangedBugReport>::iterator I=Reports.begin(),
          E=Reports.end(); I!=E; ++I)
       BR.EmitWarning(*I);
   }
 };
 } // end anonymous namespace

 //===----------------------------------------------------------------------===//
 // Check registration.

 void GRExprEngine::RegisterInternalChecks() {
   Register(new NullDeref());
   Register(new UndefinedDeref());
   Register(new UndefBranch());
   Register(new DivZero());
   Register(new UndefResult());
   Register(new BadCall());
   Register(new RetStack());
   Register(new BadArg());
   Register(new BadMsgExprArg());
   Register(new BadReceiver());
   AddCheck(new CheckAttrNonNull(), Stmt::CallExprClass);
 }
	//=-- GRExprEngineInternalChecks.cpp - Builtin GRExprEngine Checks---- 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 the BugType classes used by GRExprEngine to report
	// bugs derived from builtin checks in the path-sensitive engine.
	//
	//===----------------------------------------------------------------------===//

	#include "clang/Analysis/PathSensitive/BugReporter.h"
	#include "clang/Analysis/PathSensitive/GRExprEngine.h"
	#include "llvm/Support/Compiler.h"
	#include <sstream>

	using namespace clang;

	//===----------------------------------------------------------------------===//
	// Utility functions.
	//===----------------------------------------------------------------------===//

	template <typename ITERATOR> inline
	ExplodedNode<GRState>* GetNode(ITERATOR I) {
	return *I;
	}

	template <> inline
	ExplodedNode<GRState>* GetNode(GRExprEngine::undef_arg_iterator I) {
	return I->first;
	}

	//===----------------------------------------------------------------------===//
	// Bug Descriptions.
	//===----------------------------------------------------------------------===//

	namespace {
	class VISIBILITY_HIDDEN BuiltinBug : public BugTypeCacheLocation {
	const char* name;
	const char* desc;
	public:
	BuiltinBug(const char* n, const char* d = 0) : name(n), desc(d) {}
	virtual const char* getName() const { return name; }
	virtual const char* getDescription() const {
	return desc ? desc : name;
	}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) = 0;
	virtual void EmitWarnings(BugReporter& BR) {
	EmitBuiltinWarnings(BR, cast<GRBugReporter>(BR).getEngine());
	}

	template <typename ITER>
	void Emit(BugReporter& BR, ITER I, ITER E) {
	for (; I != E; ++I) {
	BugReport R(*this, GetNode(I));
	BR.EmitWarning(R);
	}
	}

	virtual const char* getCategory() const { return "Logic Errors"; }
	};

	class VISIBILITY_HIDDEN NullDeref : public BuiltinBug {
	public:
	NullDeref() : BuiltinBug("null dereference",
	"Dereference of null pointer.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	Emit(BR, Eng.null_derefs_begin(), Eng.null_derefs_end());
	}
	};

	class VISIBILITY_HIDDEN UndefinedDeref : public BuiltinBug {
	public:
	UndefinedDeref() : BuiltinBug("uninitialized pointer dereference",
	"Dereference of undefined value.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	Emit(BR, Eng.undef_derefs_begin(), Eng.undef_derefs_end());
	}
	};

	class VISIBILITY_HIDDEN DivZero : public BuiltinBug {
	public:
	DivZero() : BuiltinBug("divide-by-zero",
	"Division by zero/undefined value.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	Emit(BR, Eng.explicit_bad_divides_begin(), Eng.explicit_bad_divides_end());
	}
	};

	class VISIBILITY_HIDDEN UndefResult : public BuiltinBug {
	public:
	UndefResult() : BuiltinBug("undefined result",
	"Result of operation is undefined.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	Emit(BR, Eng.undef_results_begin(), Eng.undef_results_end());
	}
	};

	class VISIBILITY_HIDDEN BadCall : public BuiltinBug {
	public:
	BadCall()
	: BuiltinBug("invalid function call",
	"Called function is a NULL or undefined function pointer value.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	Emit(BR, Eng.bad_calls_begin(), Eng.bad_calls_end());
	}
	};

	class VISIBILITY_HIDDEN BadArg : public BuiltinBug {
	public:
	BadArg() : BuiltinBug("uninitialized argument",
	"Pass-by-value argument in function is undefined.") {}

	BadArg(const char* d) : BuiltinBug("uninitialized argument", d) {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	for (GRExprEngine::UndefArgsTy::iterator I = Eng.undef_arg_begin(),
	E = Eng.undef_arg_end(); I!=E; ++I) {

	// Generate a report for this bug.
	RangedBugReport report(*this, I->first);
	report.addRange(I->second->getSourceRange());

	// Emit the warning.
	BR.EmitWarning(report);
	}
	}
	};

	class VISIBILITY_HIDDEN BadMsgExprArg : public BadArg {
	public:
	BadMsgExprArg()
	: BadArg("Pass-by-value argument in message expression is undefined.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	for (GRExprEngine::UndefArgsTy::iterator I=Eng.msg_expr_undef_arg_begin(),
	E = Eng.msg_expr_undef_arg_end(); I!=E; ++I) {

	// Generate a report for this bug.
	RangedBugReport report(*this, I->first);
	report.addRange(I->second->getSourceRange());

	// Emit the warning.
	BR.EmitWarning(report);
	}
	}
	};

	class VISIBILITY_HIDDEN BadReceiver : public BuiltinBug {
	public:
	BadReceiver()
	: BuiltinBug("uninitialized receiver",
	"Receiver in message expression is an uninitialized value.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	for (GRExprEngine::UndefReceiversTy::iterator I=Eng.undef_receivers_begin(),
	End = Eng.undef_receivers_end(); I!=End; ++I) {

	// Generate a report for this bug.
	RangedBugReport report(this, I);

	ExplodedNode<GRState>* N = *I;
	Stmt *S = cast<PostStmt>(N->getLocation()).getStmt();
	Expr* E = cast<ObjCMessageExpr>(S)->getReceiver();
	assert (E && "Receiver cannot be NULL");
	report.addRange(E->getSourceRange());

	// Emit the warning.
	BR.EmitWarning(report);
	}
	}
	};

	class VISIBILITY_HIDDEN RetStack : public BuiltinBug {
	public:
	RetStack() : BuiltinBug("return of stack address") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	for (GRExprEngine::ret_stackaddr_iterator I=Eng.ret_stackaddr_begin(),
	End = Eng.ret_stackaddr_end(); I!=End; ++I) {

	ExplodedNode<GRState>* N = *I;
	Stmt *S = cast<PostStmt>(N->getLocation()).getStmt();
	Expr* E = cast<ReturnStmt>(S)->getRetValue();
	assert (E && "Return expression cannot be NULL");

	// Get the value associated with E.
	lval::DeclVal V =
	cast<lval::DeclVal>(Eng.getStateManager().GetRVal(N->getState(), E));

	// Generate a report for this bug.
	std::ostringstream os;
	os << "Address of stack memory associated with local variable '"
	<< V.getDecl()->getName() << "' returned.";

	std::string s = os.str();

	RangedBugReport report(*this, N, s.c_str());
	report.addRange(E->getSourceRange());

	// Emit the warning.
	BR.EmitWarning(report);
	}
	}
	};


	class VISIBILITY_HIDDEN UndefBranch : public BuiltinBug {
	struct VISIBILITY_HIDDEN FindUndefExpr {
	GRStateManager& VM;
	const GRState* St;

	FindUndefExpr(GRStateManager& V, const GRState* S) : VM(V), St(S) {}

	Expr* FindExpr(Expr* Ex) {
	if (!MatchesCriteria(Ex))
	return 0;

	for (Stmt::child_iterator I=Ex->child_begin(), E=Ex->child_end();I!=E;++I)
	if (Expr* ExI = dyn_cast_or_null<Expr>(*I)) {
	Expr* E2 = FindExpr(ExI);
	if (E2) return E2;
	}

	return Ex;
	}

	bool MatchesCriteria(Expr* Ex) { return VM.GetRVal(St, Ex).isUndef(); }
	};

	public:
	UndefBranch()
	: BuiltinBug("uninitialized value",
	"Branch condition evaluates to an uninitialized value.") {}

	virtual void EmitBuiltinWarnings(BugReporter& BR, GRExprEngine& Eng) {
	for (GRExprEngine::undef_branch_iterator I=Eng.undef_branches_begin(),
	E=Eng.undef_branches_end(); I!=E; ++I) {

	// What's going on here: we want to highlight the subexpression of the
	// condition that is the most likely source of the "uninitialized
	// branch condition." We do a recursive walk of the condition's
	// subexpressions and roughly look for the most nested subexpression
	// that binds to Undefined. We then highlight that expression's range.

	BlockEdge B = cast<BlockEdge>((*I)->getLocation());
	Expr* Ex = cast<Expr>(B.getSrc()->getTerminatorCondition());
	assert (Ex && "Block must have a terminator.");

	// Get the predecessor node and check if is a PostStmt with the Stmt
	// being the terminator condition. We want to inspect the state
	// of that node instead because it will contain main information about
	// the subexpressions.

	assert (!(*I)->pred_empty());

	// Note: any predecessor will do. They should have identical state,
	// since all the BlockEdge did was act as an error sink since the value
	// had to already be undefined.
	ExplodedNode<GRState> N = (*I)->pred_begin();
	ProgramPoint P = N->getLocation();

	const GRState* St = (*I)->getState();

	if (PostStmt* PS = dyn_cast<PostStmt>(&P))
	if (PS->getStmt() == Ex)
	St = N->getState();

	FindUndefExpr FindIt(Eng.getStateManager(), St);
	Ex = FindIt.FindExpr(Ex);

	RangedBugReport R(this, I);
	R.addRange(Ex->getSourceRange());

	BR.EmitWarning(R);
	}
	}
	};

	//===----------------------------------------------------------------------===//
	// __attribute__(nonnull) checking

	class VISIBILITY_HIDDEN CheckAttrNonNull : public GRSimpleAPICheck {
	SimpleBugType BT;
	std::list<RangedBugReport> Reports;

	public:
	CheckAttrNonNull() :
	BT("'nonnull' argument passed null", "API",
	"Null pointer passed as an argument to a 'nonnull' parameter") {}

	virtual bool Audit(ExplodedNode<GRState>* N, GRStateManager& VMgr) {
	CallExpr* CE = cast<CallExpr>(cast<PostStmt>(N->getLocation()).getStmt());
	const GRState* state = N->getState();

	RVal X = VMgr.GetRVal(state, CE->getCallee());

	if (!isa<lval::FuncVal>(X))
	return false;

	FunctionDecl* FD = dyn_cast<FunctionDecl>(cast<lval::FuncVal>(X).getDecl());
	const NonNullAttr* Att = FD->getAttr<NonNullAttr>();

	if (!Att)
	return false;

	// Iterate through the arguments of CE and check them for null.

	unsigned idx = 0;
	bool hasError = false;

	for (CallExpr::arg_iterator I=CE->arg_begin(), E=CE->arg_end(); I!=E;
	++I, ++idx) {

	if (!VMgr.isEqual(state, *I, 0) \|\| !Att->isNonNull(idx))
	continue;

	RangedBugReport R(BT, N);
	R.addRange((*I)->getSourceRange());
	Reports.push_back(R);
	hasError = true;
	}

	return hasError;
	}

	virtual void EmitWarnings(BugReporter& BR) {
	for (std::list<RangedBugReport>::iterator I=Reports.begin(),
	E=Reports.end(); I!=E; ++I)
	BR.EmitWarning(*I);
	}
	};
	} // end anonymous namespace

	//===----------------------------------------------------------------------===//
	// Check registration.

	void GRExprEngine::RegisterInternalChecks() {
	Register(new NullDeref());
	Register(new UndefinedDeref());
	Register(new UndefBranch());
	Register(new DivZero());
	Register(new UndefResult());
	Register(new BadCall());
	Register(new RetStack());
	Register(new BadArg());
	Register(new BadMsgExprArg());
	Register(new BadReceiver());
	AddCheck(new CheckAttrNonNull(), Stmt::CallExprClass);
	}