clang-tools-extra/clang-tidy/altera/IdDependentBackwardBranchCheck.cpp - llvm-project - Git at Google

 //===--- IdDependentBackwardBranchCheck.cpp - clang-tidy ------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "IdDependentBackwardBranchCheck.h"
 #include "clang/AST/ASTContext.h"
 #include "clang/ASTMatchers/ASTMatchFinder.h"

 using namespace clang::ast_matchers;

 namespace clang {
 namespace tidy {
 namespace altera {

 void IdDependentBackwardBranchCheck::registerMatchers(MatchFinder *Finder) {
   // Prototype to identify all variables which hold a thread-variant ID.
   // First Matcher just finds all the direct assignments of either ID call.
   const auto ThreadID = expr(hasDescendant(callExpr(callee(functionDecl(
       anyOf(hasName("get_global_id"), hasName("get_local_id")))))));

   const auto RefVarOrField = forEachDescendant(
       stmt(anyOf(declRefExpr(to(varDecl())).bind("assign_ref_var"),
                  memberExpr(member(fieldDecl())).bind("assign_ref_field"))));

   Finder->addMatcher(
       compoundStmt(
           // Bind on actual get_local/global_id calls.
           forEachDescendant(
               stmt(
                   anyOf(declStmt(hasDescendant(varDecl(hasInitializer(ThreadID))
                                                    .bind("tid_dep_var"))),
                         binaryOperator(allOf(
                             isAssignmentOperator(), hasRHS(ThreadID),
                             hasLHS(anyOf(
                                 declRefExpr(to(varDecl().bind("tid_dep_var"))),
                                 memberExpr(member(
                                     fieldDecl().bind("tid_dep_field")))))))))
                   .bind("straight_assignment"))),
       this);

   // Bind all VarDecls that include an initializer with a variable DeclRefExpr
   // (in case it is ID-dependent).
   Finder->addMatcher(
       stmt(forEachDescendant(
           varDecl(hasInitializer(RefVarOrField)).bind("pot_tid_var"))),
       this);

   // Bind all VarDecls that are assigned a value with a variable DeclRefExpr (in
   // case it is ID-dependent).
   Finder->addMatcher(
       stmt(forEachDescendant(binaryOperator(
           allOf(isAssignmentOperator(), hasRHS(RefVarOrField),
                 hasLHS(anyOf(
                     declRefExpr(to(varDecl().bind("pot_tid_var"))),
                     memberExpr(member(fieldDecl().bind("pot_tid_field"))))))))),
       this);

   // Second Matcher looks for branch statements inside of loops and bind on the
   // condition expression IF it either calls an ID function or has a variable
   // DeclRefExpr. DeclRefExprs are checked later to confirm whether the variable
   // is ID-dependent.
   const auto CondExpr =
       expr(anyOf(hasDescendant(callExpr(callee(functionDecl(
                                             anyOf(hasName("get_global_id"),
                                                   hasName("get_local_id")))))
                                    .bind("id_call")),
                  hasDescendant(stmt(anyOf(declRefExpr(to(varDecl())),
                                           memberExpr(member(fieldDecl())))))))
           .bind("cond_expr");
   Finder->addMatcher(stmt(anyOf(forStmt(hasCondition(CondExpr)),
                                 doStmt(hasCondition(CondExpr)),
                                 whileStmt(hasCondition(CondExpr))))
                          .bind("backward_branch"),
                      this);
 }

 IdDependentBackwardBranchCheck::IdDependencyRecord *
 IdDependentBackwardBranchCheck::hasIdDepVar(const Expr *Expression) {
   if (const auto *Declaration = dyn_cast<DeclRefExpr>(Expression)) {
     // It is a DeclRefExpr, so check if it's an ID-dependent variable.
     const auto *CheckVariable = dyn_cast<VarDecl>(Declaration->getDecl());
     auto FoundVariable = IdDepVarsMap.find(CheckVariable);
     if (FoundVariable == IdDepVarsMap.end())
       return nullptr;
     return &(FoundVariable->second);
   }
   for (const auto *Child : Expression->children())
     if (const auto *ChildExpression = dyn_cast<Expr>(Child))
       if (IdDependencyRecord *Result = hasIdDepVar(ChildExpression))
         return Result;
   return nullptr;
 }

 IdDependentBackwardBranchCheck::IdDependencyRecord *
 IdDependentBackwardBranchCheck::hasIdDepField(const Expr *Expression) {
   if (const auto *MemberExpression = dyn_cast<MemberExpr>(Expression)) {
     const auto *CheckField =
         dyn_cast<FieldDecl>(MemberExpression->getMemberDecl());
     auto FoundField = IdDepFieldsMap.find(CheckField);
     if (FoundField == IdDepFieldsMap.end())
       return nullptr;
     return &(FoundField->second);
   }
   for (const auto *Child : Expression->children())
     if (const auto *ChildExpression = dyn_cast<Expr>(Child))
       if (IdDependencyRecord *Result = hasIdDepField(ChildExpression))
         return Result;
   return nullptr;
 }

 void IdDependentBackwardBranchCheck::saveIdDepVar(const Stmt *Statement,
                                                   const VarDecl *Variable) {
   // Record that this variable is thread-dependent.
   IdDepVarsMap[Variable] =
       IdDependencyRecord(Variable, Variable->getBeginLoc(),
                          Twine("assignment of ID-dependent variable ") +
                              Variable->getNameAsString());
 }

 void IdDependentBackwardBranchCheck::saveIdDepField(const Stmt *Statement,
                                                     const FieldDecl *Field) {
   // Record that this field is thread-dependent.
   IdDepFieldsMap[Field] = IdDependencyRecord(
       Field, Statement->getBeginLoc(),
       Twine("assignment of ID-dependent field ") + Field->getNameAsString());
 }

 void IdDependentBackwardBranchCheck::saveIdDepVarFromReference(
     const DeclRefExpr *RefExpr, const MemberExpr *MemExpr,
     const VarDecl *PotentialVar) {
   // If the variable is already in IdDepVarsMap, ignore it.
   if (IdDepVarsMap.find(PotentialVar) != IdDepVarsMap.end())
     return;
   std::string Message;
   llvm::raw_string_ostream StringStream(Message);
   StringStream << "inferred assignment of ID-dependent value from "
                   "ID-dependent ";
   if (RefExpr) {
     const auto *RefVar = dyn_cast<VarDecl>(RefExpr->getDecl());
     // If variable isn't ID-dependent, but RefVar is.
     if (IdDepVarsMap.find(RefVar) != IdDepVarsMap.end())
       StringStream << "variable " << RefVar->getNameAsString();
   }
   if (MemExpr) {
     const auto *RefField = dyn_cast<FieldDecl>(MemExpr->getMemberDecl());
     // If variable isn't ID-dependent, but RefField is.
     if (IdDepFieldsMap.find(RefField) != IdDepFieldsMap.end())
       StringStream << "member " << RefField->getNameAsString();
   }
   IdDepVarsMap[PotentialVar] =
       IdDependencyRecord(PotentialVar, PotentialVar->getBeginLoc(), Message);
 }

 void IdDependentBackwardBranchCheck::saveIdDepFieldFromReference(
     const DeclRefExpr *RefExpr, const MemberExpr *MemExpr,
     const FieldDecl *PotentialField) {
   // If the field is already in IdDepFieldsMap, ignore it.
   if (IdDepFieldsMap.find(PotentialField) != IdDepFieldsMap.end())
     return;
   std::string Message;
   llvm::raw_string_ostream StringStream(Message);
   StringStream << "inferred assignment of ID-dependent member from "
                   "ID-dependent ";
   if (RefExpr) {
     const auto *RefVar = dyn_cast<VarDecl>(RefExpr->getDecl());
     // If field isn't ID-dependent, but RefVar is.
     if (IdDepVarsMap.find(RefVar) != IdDepVarsMap.end())
       StringStream << "variable " << RefVar->getNameAsString();
   }
   if (MemExpr) {
     const auto *RefField = dyn_cast<FieldDecl>(MemExpr->getMemberDecl());
     if (IdDepFieldsMap.find(RefField) != IdDepFieldsMap.end())
       StringStream << "member " << RefField->getNameAsString();
   }
   IdDepFieldsMap[PotentialField] = IdDependencyRecord(
       PotentialField, PotentialField->getBeginLoc(), Message);
 }

 IdDependentBackwardBranchCheck::LoopType
 IdDependentBackwardBranchCheck::getLoopType(const Stmt *Loop) {
   switch (Loop->getStmtClass()) {
   case Stmt::DoStmtClass:
     return DoLoop;
   case Stmt::WhileStmtClass:
     return WhileLoop;
   case Stmt::ForStmtClass:
     return ForLoop;
   default:
     return UnknownLoop;
   }
 }

 void IdDependentBackwardBranchCheck::check(
     const MatchFinder::MatchResult &Result) {
   // The first half of the callback only deals with identifying and storing
   // ID-dependency information into the IdDepVars and IdDepFields maps.
   const auto *Variable = Result.Nodes.getNodeAs<VarDecl>("tid_dep_var");
   const auto *Field = Result.Nodes.getNodeAs<FieldDecl>("tid_dep_field");
   const auto *Statement = Result.Nodes.getNodeAs<Stmt>("straight_assignment");
   const auto *RefExpr = Result.Nodes.getNodeAs<DeclRefExpr>("assign_ref_var");
   const auto *MemExpr = Result.Nodes.getNodeAs<MemberExpr>("assign_ref_field");
   const auto *PotentialVar = Result.Nodes.getNodeAs<VarDecl>("pot_tid_var");
   const auto *PotentialField =
       Result.Nodes.getNodeAs<FieldDecl>("pot_tid_field");

   // Save variables and fields assigned directly through ID function calls.
   if (Statement && (Variable || Field)) {
     if (Variable)
       saveIdDepVar(Statement, Variable);
     else if (Field)
       saveIdDepField(Statement, Field);
   }

   // Save variables assigned to values of Id-dependent variables and fields.
   if ((RefExpr || MemExpr) && PotentialVar)
     saveIdDepVarFromReference(RefExpr, MemExpr, PotentialVar);

   // Save fields assigned to values of ID-dependent variables and fields.
   if ((RefExpr || MemExpr) && PotentialField)
     saveIdDepFieldFromReference(RefExpr, MemExpr, PotentialField);

   // The second part of the callback deals with checking if a branch inside a
   // loop is thread dependent.
   const auto *CondExpr = Result.Nodes.getNodeAs<Expr>("cond_expr");
   const auto *IDCall = Result.Nodes.getNodeAs<CallExpr>("id_call");
   const auto *Loop = Result.Nodes.getNodeAs<Stmt>("backward_branch");
   if (!Loop)
     return;
   LoopType Type = getLoopType(Loop);
   if (CondExpr) {
     if (IDCall) { // Conditional expression calls an ID function directly.
       diag(CondExpr->getBeginLoc(),
            "backward branch (%select{do|while|for}0 loop) is ID-dependent due "
            "to ID function call and may cause performance degradation")
           << Type;
       return;
     }
     // Conditional expression has DeclRefExpr(s), check ID-dependency.
     IdDependencyRecord *IdDepVar = hasIdDepVar(CondExpr);
     IdDependencyRecord *IdDepField = hasIdDepField(CondExpr);
     if (IdDepVar) {
       // Change one of these to a Note
       diag(IdDepVar->Location, IdDepVar->Message, DiagnosticIDs::Note);
       diag(CondExpr->getBeginLoc(),
            "backward branch (%select{do|while|for}0 loop) is ID-dependent due "
            "to variable reference to %1 and may cause performance degradation")
           << Type << IdDepVar->VariableDeclaration;
     } else if (IdDepField) {
       diag(IdDepField->Location, IdDepField->Message, DiagnosticIDs::Note);
       diag(CondExpr->getBeginLoc(),
            "backward branch (%select{do|while|for}0 loop) is ID-dependent due "
            "to member reference to %1 and may cause performance degradation")
           << Type << IdDepField->FieldDeclaration;
     }
   }
 }

 } // namespace altera
 } // namespace tidy
 } // namespace clang
	//===--- IdDependentBackwardBranchCheck.cpp - clang-tidy ------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "IdDependentBackwardBranchCheck.h"
	#include "clang/AST/ASTContext.h"
	#include "clang/ASTMatchers/ASTMatchFinder.h"

	using namespace clang::ast_matchers;

	namespace clang {
	namespace tidy {
	namespace altera {

	void IdDependentBackwardBranchCheck::registerMatchers(MatchFinder *Finder) {
	// Prototype to identify all variables which hold a thread-variant ID.
	// First Matcher just finds all the direct assignments of either ID call.
	const auto ThreadID = expr(hasDescendant(callExpr(callee(functionDecl(
	anyOf(hasName("get_global_id"), hasName("get_local_id")))))));

	const auto RefVarOrField = forEachDescendant(
	stmt(anyOf(declRefExpr(to(varDecl())).bind("assign_ref_var"),
	memberExpr(member(fieldDecl())).bind("assign_ref_field"))));

	Finder->addMatcher(
	compoundStmt(
	// Bind on actual get_local/global_id calls.
	forEachDescendant(
	stmt(
	anyOf(declStmt(hasDescendant(varDecl(hasInitializer(ThreadID))
	.bind("tid_dep_var"))),
	binaryOperator(allOf(
	isAssignmentOperator(), hasRHS(ThreadID),
	hasLHS(anyOf(
	declRefExpr(to(varDecl().bind("tid_dep_var"))),
	memberExpr(member(
	fieldDecl().bind("tid_dep_field")))))))))
	.bind("straight_assignment"))),
	this);

	// Bind all VarDecls that include an initializer with a variable DeclRefExpr
	// (in case it is ID-dependent).
	Finder->addMatcher(
	stmt(forEachDescendant(
	varDecl(hasInitializer(RefVarOrField)).bind("pot_tid_var"))),
	this);

	// Bind all VarDecls that are assigned a value with a variable DeclRefExpr (in
	// case it is ID-dependent).
	Finder->addMatcher(
	stmt(forEachDescendant(binaryOperator(
	allOf(isAssignmentOperator(), hasRHS(RefVarOrField),
	hasLHS(anyOf(
	declRefExpr(to(varDecl().bind("pot_tid_var"))),
	memberExpr(member(fieldDecl().bind("pot_tid_field"))))))))),
	this);

	// Second Matcher looks for branch statements inside of loops and bind on the
	// condition expression IF it either calls an ID function or has a variable
	// DeclRefExpr. DeclRefExprs are checked later to confirm whether the variable
	// is ID-dependent.
	const auto CondExpr =
	expr(anyOf(hasDescendant(callExpr(callee(functionDecl(
	anyOf(hasName("get_global_id"),
	hasName("get_local_id")))))
	.bind("id_call")),
	hasDescendant(stmt(anyOf(declRefExpr(to(varDecl())),
	memberExpr(member(fieldDecl())))))))
	.bind("cond_expr");
	Finder->addMatcher(stmt(anyOf(forStmt(hasCondition(CondExpr)),
	doStmt(hasCondition(CondExpr)),
	whileStmt(hasCondition(CondExpr))))
	.bind("backward_branch"),
	this);
	}

	IdDependentBackwardBranchCheck::IdDependencyRecord *
	IdDependentBackwardBranchCheck::hasIdDepVar(const Expr *Expression) {
	if (const auto *Declaration = dyn_cast<DeclRefExpr>(Expression)) {
	// It is a DeclRefExpr, so check if it's an ID-dependent variable.
	const auto *CheckVariable = dyn_cast<VarDecl>(Declaration->getDecl());
	auto FoundVariable = IdDepVarsMap.find(CheckVariable);
	if (FoundVariable == IdDepVarsMap.end())
	return nullptr;
	return &(FoundVariable->second);
	}
	for (const auto *Child : Expression->children())
	if (const auto *ChildExpression = dyn_cast<Expr>(Child))
	if (IdDependencyRecord *Result = hasIdDepVar(ChildExpression))
	return Result;
	return nullptr;
	}

	IdDependentBackwardBranchCheck::IdDependencyRecord *
	IdDependentBackwardBranchCheck::hasIdDepField(const Expr *Expression) {
	if (const auto *MemberExpression = dyn_cast<MemberExpr>(Expression)) {
	const auto *CheckField =
	dyn_cast<FieldDecl>(MemberExpression->getMemberDecl());
	auto FoundField = IdDepFieldsMap.find(CheckField);
	if (FoundField == IdDepFieldsMap.end())
	return nullptr;
	return &(FoundField->second);
	}
	for (const auto *Child : Expression->children())
	if (const auto *ChildExpression = dyn_cast<Expr>(Child))
	if (IdDependencyRecord *Result = hasIdDepField(ChildExpression))
	return Result;
	return nullptr;
	}

	void IdDependentBackwardBranchCheck::saveIdDepVar(const Stmt *Statement,
	const VarDecl *Variable) {
	// Record that this variable is thread-dependent.
	IdDepVarsMap[Variable] =
	IdDependencyRecord(Variable, Variable->getBeginLoc(),
	Twine("assignment of ID-dependent variable ") +
	Variable->getNameAsString());
	}

	void IdDependentBackwardBranchCheck::saveIdDepField(const Stmt *Statement,
	const FieldDecl *Field) {
	// Record that this field is thread-dependent.
	IdDepFieldsMap[Field] = IdDependencyRecord(
	Field, Statement->getBeginLoc(),
	Twine("assignment of ID-dependent field ") + Field->getNameAsString());
	}

	void IdDependentBackwardBranchCheck::saveIdDepVarFromReference(
	const DeclRefExpr RefExpr, const MemberExpr MemExpr,
	const VarDecl *PotentialVar) {
	// If the variable is already in IdDepVarsMap, ignore it.
	if (IdDepVarsMap.find(PotentialVar) != IdDepVarsMap.end())
	return;
	std::string Message;
	llvm::raw_string_ostream StringStream(Message);
	StringStream << "inferred assignment of ID-dependent value from "
	"ID-dependent ";
	if (RefExpr) {
	const auto *RefVar = dyn_cast<VarDecl>(RefExpr->getDecl());
	// If variable isn't ID-dependent, but RefVar is.
	if (IdDepVarsMap.find(RefVar) != IdDepVarsMap.end())
	StringStream << "variable " << RefVar->getNameAsString();
	}
	if (MemExpr) {
	const auto *RefField = dyn_cast<FieldDecl>(MemExpr->getMemberDecl());
	// If variable isn't ID-dependent, but RefField is.
	if (IdDepFieldsMap.find(RefField) != IdDepFieldsMap.end())
	StringStream << "member " << RefField->getNameAsString();
	}
	IdDepVarsMap[PotentialVar] =
	IdDependencyRecord(PotentialVar, PotentialVar->getBeginLoc(), Message);
	}

	void IdDependentBackwardBranchCheck::saveIdDepFieldFromReference(
	const DeclRefExpr RefExpr, const MemberExpr MemExpr,
	const FieldDecl *PotentialField) {
	// If the field is already in IdDepFieldsMap, ignore it.
	if (IdDepFieldsMap.find(PotentialField) != IdDepFieldsMap.end())
	return;
	std::string Message;
	llvm::raw_string_ostream StringStream(Message);
	StringStream << "inferred assignment of ID-dependent member from "
	"ID-dependent ";
	if (RefExpr) {
	const auto *RefVar = dyn_cast<VarDecl>(RefExpr->getDecl());
	// If field isn't ID-dependent, but RefVar is.
	if (IdDepVarsMap.find(RefVar) != IdDepVarsMap.end())
	StringStream << "variable " << RefVar->getNameAsString();
	}
	if (MemExpr) {
	const auto *RefField = dyn_cast<FieldDecl>(MemExpr->getMemberDecl());
	if (IdDepFieldsMap.find(RefField) != IdDepFieldsMap.end())
	StringStream << "member " << RefField->getNameAsString();
	}
	IdDepFieldsMap[PotentialField] = IdDependencyRecord(
	PotentialField, PotentialField->getBeginLoc(), Message);
	}

	IdDependentBackwardBranchCheck::LoopType
	IdDependentBackwardBranchCheck::getLoopType(const Stmt *Loop) {
	switch (Loop->getStmtClass()) {
	case Stmt::DoStmtClass:
	return DoLoop;
	case Stmt::WhileStmtClass:
	return WhileLoop;
	case Stmt::ForStmtClass:
	return ForLoop;
	default:
	return UnknownLoop;
	}
	}

	void IdDependentBackwardBranchCheck::check(
	const MatchFinder::MatchResult &Result) {
	// The first half of the callback only deals with identifying and storing
	// ID-dependency information into the IdDepVars and IdDepFields maps.
	const auto *Variable = Result.Nodes.getNodeAs<VarDecl>("tid_dep_var");
	const auto *Field = Result.Nodes.getNodeAs<FieldDecl>("tid_dep_field");
	const auto *Statement = Result.Nodes.getNodeAs<Stmt>("straight_assignment");
	const auto *RefExpr = Result.Nodes.getNodeAs<DeclRefExpr>("assign_ref_var");
	const auto *MemExpr = Result.Nodes.getNodeAs<MemberExpr>("assign_ref_field");
	const auto *PotentialVar = Result.Nodes.getNodeAs<VarDecl>("pot_tid_var");
	const auto *PotentialField =
	Result.Nodes.getNodeAs<FieldDecl>("pot_tid_field");

	// Save variables and fields assigned directly through ID function calls.
	if (Statement && (Variable \|\| Field)) {
	if (Variable)
	saveIdDepVar(Statement, Variable);
	else if (Field)
	saveIdDepField(Statement, Field);
	}

	// Save variables assigned to values of Id-dependent variables and fields.
	if ((RefExpr \|\| MemExpr) && PotentialVar)
	saveIdDepVarFromReference(RefExpr, MemExpr, PotentialVar);

	// Save fields assigned to values of ID-dependent variables and fields.
	if ((RefExpr \|\| MemExpr) && PotentialField)
	saveIdDepFieldFromReference(RefExpr, MemExpr, PotentialField);

	// The second part of the callback deals with checking if a branch inside a
	// loop is thread dependent.
	const auto *CondExpr = Result.Nodes.getNodeAs<Expr>("cond_expr");
	const auto *IDCall = Result.Nodes.getNodeAs<CallExpr>("id_call");
	const auto *Loop = Result.Nodes.getNodeAs<Stmt>("backward_branch");
	if (!Loop)
	return;
	LoopType Type = getLoopType(Loop);
	if (CondExpr) {
	if (IDCall) { // Conditional expression calls an ID function directly.
	diag(CondExpr->getBeginLoc(),
	"backward branch (%select{do\|while\|for}0 loop) is ID-dependent due "
	"to ID function call and may cause performance degradation")
	<< Type;
	return;
	}
	// Conditional expression has DeclRefExpr(s), check ID-dependency.
	IdDependencyRecord *IdDepVar = hasIdDepVar(CondExpr);
	IdDependencyRecord *IdDepField = hasIdDepField(CondExpr);
	if (IdDepVar) {
	// Change one of these to a Note
	diag(IdDepVar->Location, IdDepVar->Message, DiagnosticIDs::Note);
	diag(CondExpr->getBeginLoc(),
	"backward branch (%select{do\|while\|for}0 loop) is ID-dependent due "
	"to variable reference to %1 and may cause performance degradation")
	<< Type << IdDepVar->VariableDeclaration;
	} else if (IdDepField) {
	diag(IdDepField->Location, IdDepField->Message, DiagnosticIDs::Note);
	diag(CondExpr->getBeginLoc(),
	"backward branch (%select{do\|while\|for}0 loop) is ID-dependent due "
	"to member reference to %1 and may cause performance degradation")
	<< Type << IdDepField->FieldDeclaration;
	}
	}
	}

	} // namespace altera
	} // namespace tidy
	} // namespace clang