360 lines
11 KiB
C++
360 lines
11 KiB
C++
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//=- LiveVariables.cpp - Live Variable Analysis for Source CFGs -*- C++ --*-==//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements Live Variables analysis for source-level CFGs.
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//
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//===----------------------------------------------------------------------===//
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#include "clang/Analysis/Analyses/LiveVariables.h"
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#include "clang/Basic/SourceManager.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/Expr.h"
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#include "clang/AST/CFG.h"
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#include "clang/Analysis/Visitors/CFGRecStmtDeclVisitor.h"
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#include "clang/Analysis/FlowSensitive/DataflowSolver.h"
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#include "llvm/ADT/SmallPtrSet.h"
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/Support/Compiler.h"
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#include <string.h>
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#include <stdio.h>
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using namespace clang;
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//===----------------------------------------------------------------------===//
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// Useful constants.
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//===----------------------------------------------------------------------===//
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static const bool Alive = true;
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static const bool Dead = false;
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//===----------------------------------------------------------------------===//
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// Dataflow initialization logic.
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//===----------------------------------------------------------------------===//
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namespace {
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class VISIBILITY_HIDDEN RegisterDecls
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: public CFGRecStmtDeclVisitor<RegisterDecls> {
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LiveVariables::AnalysisDataTy& AD;
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typedef llvm::SmallVector<VarDecl*, 20> AlwaysLiveTy;
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AlwaysLiveTy AlwaysLive;
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public:
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RegisterDecls(LiveVariables::AnalysisDataTy& ad) : AD(ad) {}
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~RegisterDecls() {
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AD.AlwaysLive.resetValues(AD);
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for (AlwaysLiveTy::iterator I = AlwaysLive.begin(), E = AlwaysLive.end();
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I != E; ++ I)
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AD.AlwaysLive(*I, AD) = Alive;
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}
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void VisitImplicitParamDecl(ImplicitParamDecl* IPD) {
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// Register the VarDecl for tracking.
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AD.Register(IPD);
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}
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void VisitVarDecl(VarDecl* VD) {
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// Register the VarDecl for tracking.
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AD.Register(VD);
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// Does the variable have global storage? If so, it is always live.
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if (VD->hasGlobalStorage())
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AlwaysLive.push_back(VD);
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}
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CFG& getCFG() { return AD.getCFG(); }
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};
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} // end anonymous namespace
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LiveVariables::LiveVariables(ASTContext& Ctx, CFG& cfg) {
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// Register all referenced VarDecls.
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getAnalysisData().setCFG(cfg);
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getAnalysisData().setContext(Ctx);
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RegisterDecls R(getAnalysisData());
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cfg.VisitBlockStmts(R);
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}
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//===----------------------------------------------------------------------===//
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// Transfer functions.
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//===----------------------------------------------------------------------===//
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namespace {
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class VISIBILITY_HIDDEN TransferFuncs : public CFGRecStmtVisitor<TransferFuncs>{
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LiveVariables::AnalysisDataTy& AD;
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LiveVariables::ValTy LiveState;
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public:
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TransferFuncs(LiveVariables::AnalysisDataTy& ad) : AD(ad) {}
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LiveVariables::ValTy& getVal() { return LiveState; }
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CFG& getCFG() { return AD.getCFG(); }
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void VisitDeclRefExpr(DeclRefExpr* DR);
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void VisitBinaryOperator(BinaryOperator* B);
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void VisitAssign(BinaryOperator* B);
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void VisitDeclStmt(DeclStmt* DS);
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void BlockStmt_VisitObjCForCollectionStmt(ObjCForCollectionStmt* S);
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void VisitUnaryOperator(UnaryOperator* U);
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void Visit(Stmt *S);
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void VisitTerminator(CFGBlock* B);
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void SetTopValue(LiveVariables::ValTy& V) {
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V = AD.AlwaysLive;
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}
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};
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void TransferFuncs::Visit(Stmt *S) {
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if (S == getCurrentBlkStmt()) {
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if (AD.Observer)
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AD.Observer->ObserveStmt(S,AD,LiveState);
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if (getCFG().isBlkExpr(S)) LiveState(S,AD) = Dead;
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StmtVisitor<TransferFuncs,void>::Visit(S);
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}
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else if (!getCFG().isBlkExpr(S)) {
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if (AD.Observer)
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AD.Observer->ObserveStmt(S,AD,LiveState);
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StmtVisitor<TransferFuncs,void>::Visit(S);
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}
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else
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// For block-level expressions, mark that they are live.
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LiveState(S,AD) = Alive;
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}
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void TransferFuncs::VisitTerminator(CFGBlock* B) {
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const Stmt* E = B->getTerminatorCondition();
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if (!E)
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return;
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assert (getCFG().isBlkExpr(E));
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LiveState(E, AD) = Alive;
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}
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void TransferFuncs::VisitDeclRefExpr(DeclRefExpr* DR) {
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if (VarDecl* V = dyn_cast<VarDecl>(DR->getDecl()))
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LiveState(V,AD) = Alive;
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}
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void TransferFuncs::VisitBinaryOperator(BinaryOperator* B) {
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if (B->isAssignmentOp()) VisitAssign(B);
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else VisitStmt(B);
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}
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void
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TransferFuncs::BlockStmt_VisitObjCForCollectionStmt(ObjCForCollectionStmt* S) {
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// This is a block-level expression. Its value is 'dead' before this point.
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LiveState(S, AD) = Dead;
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// This represents a 'use' of the collection.
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Visit(S->getCollection());
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// This represents a 'kill' for the variable.
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Stmt* Element = S->getElement();
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DeclRefExpr* DR = 0;
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VarDecl* VD = 0;
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if (DeclStmt* DS = dyn_cast<DeclStmt>(Element))
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VD = cast<VarDecl>(DS->getSingleDecl());
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else {
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Expr* ElemExpr = cast<Expr>(Element)->IgnoreParens();
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if ((DR = dyn_cast<DeclRefExpr>(ElemExpr)))
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VD = cast<VarDecl>(DR->getDecl());
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else {
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Visit(ElemExpr);
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return;
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}
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}
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if (VD) {
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LiveState(VD, AD) = Dead;
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if (AD.Observer && DR) { AD.Observer->ObserverKill(DR); }
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}
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}
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void TransferFuncs::VisitUnaryOperator(UnaryOperator* U) {
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Expr *E = U->getSubExpr();
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switch (U->getOpcode()) {
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case UnaryOperator::PostInc:
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case UnaryOperator::PostDec:
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case UnaryOperator::PreInc:
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case UnaryOperator::PreDec:
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// Walk through the subexpressions, blasting through ParenExprs
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// until we either find a DeclRefExpr or some non-DeclRefExpr
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// expression.
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if (DeclRefExpr* DR = dyn_cast<DeclRefExpr>(E->IgnoreParens()))
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if (VarDecl* VD = dyn_cast<VarDecl>(DR->getDecl())) {
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// Treat the --/++ operator as a kill.
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if (AD.Observer) { AD.Observer->ObserverKill(DR); }
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LiveState(VD, AD) = Alive;
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return VisitDeclRefExpr(DR);
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}
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// Fall-through.
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default:
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return Visit(E);
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}
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}
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void TransferFuncs::VisitAssign(BinaryOperator* B) {
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Expr* LHS = B->getLHS();
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// Assigning to a variable?
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if (DeclRefExpr* DR = dyn_cast<DeclRefExpr>(LHS->IgnoreParens())) {
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// Update liveness inforamtion.
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unsigned bit = AD.getIdx(DR->getDecl());
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LiveState.getDeclBit(bit) = Dead | AD.AlwaysLive.getDeclBit(bit);
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if (AD.Observer) { AD.Observer->ObserverKill(DR); }
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// Handle things like +=, etc., which also generate "uses"
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// of a variable. Do this just by visiting the subexpression.
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if (B->getOpcode() != BinaryOperator::Assign)
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VisitDeclRefExpr(DR);
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}
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else // Not assigning to a variable. Process LHS as usual.
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Visit(LHS);
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Visit(B->getRHS());
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}
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void TransferFuncs::VisitDeclStmt(DeclStmt* DS) {
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// Declarations effectively "kill" a variable since they cannot
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// possibly be live before they are declared.
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for (DeclStmt::decl_iterator DI=DS->decl_begin(), DE = DS->decl_end();
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DI != DE; ++DI)
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if (VarDecl* VD = dyn_cast<VarDecl>(*DI)) {
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// The initializer is evaluated after the variable comes into scope.
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// Since this is a reverse dataflow analysis, we must evaluate the
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// transfer function for this expression first.
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if (Expr* Init = VD->getInit())
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Visit(Init);
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if (const VariableArrayType* VT =
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AD.getContext().getAsVariableArrayType(VD->getType())) {
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StmtIterator I(const_cast<VariableArrayType*>(VT));
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StmtIterator E;
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for (; I != E; ++I) Visit(*I);
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}
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// Update liveness information by killing the VarDecl.
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unsigned bit = AD.getIdx(VD);
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LiveState.getDeclBit(bit) = Dead | AD.AlwaysLive.getDeclBit(bit);
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}
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}
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} // end anonymous namespace
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//===----------------------------------------------------------------------===//
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// Merge operator: if something is live on any successor block, it is live
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// in the current block (a set union).
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//===----------------------------------------------------------------------===//
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namespace {
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struct Merge {
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typedef StmtDeclBitVector_Types::ValTy ValTy;
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void operator()(ValTy& Dst, const ValTy& Src) {
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Dst.OrDeclBits(Src);
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Dst.OrBlkExprBits(Src);
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}
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};
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typedef DataflowSolver<LiveVariables, TransferFuncs, Merge> Solver;
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} // end anonymous namespace
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//===----------------------------------------------------------------------===//
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// External interface to run Liveness analysis.
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//===----------------------------------------------------------------------===//
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void LiveVariables::runOnCFG(CFG& cfg) {
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Solver S(*this);
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S.runOnCFG(cfg);
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}
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void LiveVariables::runOnAllBlocks(const CFG& cfg,
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LiveVariables::ObserverTy* Obs,
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bool recordStmtValues) {
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Solver S(*this);
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ObserverTy* OldObserver = getAnalysisData().Observer;
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getAnalysisData().Observer = Obs;
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S.runOnAllBlocks(cfg, recordStmtValues);
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getAnalysisData().Observer = OldObserver;
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}
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//===----------------------------------------------------------------------===//
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// liveness queries
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//
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bool LiveVariables::isLive(const CFGBlock* B, const VarDecl* D) const {
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DeclBitVector_Types::Idx i = getAnalysisData().getIdx(D);
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return i.isValid() ? getBlockData(B).getBit(i) : false;
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}
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bool LiveVariables::isLive(const ValTy& Live, const VarDecl* D) const {
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DeclBitVector_Types::Idx i = getAnalysisData().getIdx(D);
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return i.isValid() ? Live.getBit(i) : false;
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}
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bool LiveVariables::isLive(const Stmt* Loc, const Stmt* StmtVal) const {
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return getStmtData(Loc)(StmtVal,getAnalysisData());
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}
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bool LiveVariables::isLive(const Stmt* Loc, const VarDecl* D) const {
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return getStmtData(Loc)(D,getAnalysisData());
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}
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//===----------------------------------------------------------------------===//
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// printing liveness state for debugging
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//
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void LiveVariables::dumpLiveness(const ValTy& V, SourceManager& SM) const {
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const AnalysisDataTy& AD = getAnalysisData();
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for (AnalysisDataTy::decl_iterator I = AD.begin_decl(),
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E = AD.end_decl(); I!=E; ++I)
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if (V.getDeclBit(I->second)) {
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fprintf(stderr, " %s <", I->first->getIdentifier()->getName());
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I->first->getLocation().dump(SM);
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fprintf(stderr, ">\n");
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}
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}
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void LiveVariables::dumpBlockLiveness(SourceManager& M) const {
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for (BlockDataMapTy::iterator I = getBlockDataMap().begin(),
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E = getBlockDataMap().end(); I!=E; ++I) {
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fprintf(stderr, "\n[ B%d (live variables at block exit) ]\n",
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I->first->getBlockID());
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dumpLiveness(I->second,M);
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}
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fprintf(stderr,"\n");
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}
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