Ejemplo n.º 1
0
/*==============================================================================
 * FUNCTION:		CfgTest::testRenameVars
 * OVERVIEW:		Test the renaming of variables
 *============================================================================*/
void CfgTest::testRenameVars ()
{
  BinaryFileFactory bff;
  BinaryFile* pBF = bff.Load(FRONTIER_PENTIUM);
  CPPUNIT_ASSERT(pBF != 0);
  Prog* prog = new Prog;
  FrontEnd* pFE = new PentiumFrontEnd(pBF, prog, &bff);
  Type::clearNamedTypes();
  prog->setFrontEnd(pFE);
  pFE->decode(prog);

  UserProc* pProc = (UserProc*) prog->getProc(0);
  Cfg* cfg = pProc->getCFG();
  DataFlow* df = pProc->getDataFlow();

  // Simplify expressions (e.g. m[ebp + -8] -> m[ebp - 8]
  prog->finishDecode();

  df->dominators(cfg);
  df->placePhiFunctions(pProc);
  pProc->numberStatements();				// After placing phi functions!
  df->renameBlockVars(pProc, 0, 1);		// Block 0, mem depth 1

  // MIKE: something missing here?

  delete pFE;
}
Ejemplo n.º 2
0
/*==============================================================================
 * FUNCTION:		CfgTest::testPlacePhi2
 * OVERVIEW:		Test a case where a phi function is not needed
 *============================================================================*/
void CfgTest::testPlacePhi2 ()
{
  BinaryFileFactory bff;
  BinaryFile* pBF = bff.Load(IFTHEN_PENTIUM);
  CPPUNIT_ASSERT(pBF != 0);
  Prog* prog = new Prog;
  FrontEnd* pFE = new PentiumFrontEnd(pBF, prog, &bff);
  Type::clearNamedTypes();
  prog->setFrontEnd(pFE);
  pFE->decode(prog);

  UserProc* pProc = (UserProc*) prog->getProc(0);
  Cfg* cfg = pProc->getCFG();
  DataFlow* df = pProc->getDataFlow();

  // Simplify expressions (e.g. m[ebp + -8] -> m[ebp - 8]
  prog->finishDecode();

  df->dominators(cfg);
  df->placePhiFunctions(pProc);

  // In this program, x is allocated at [ebp-4], a at [ebp-8], and
  // b at [ebp-12]
  // We check that A_phi[ m[ebp-8] ] is 4, and that
  // A_phi A_phi[ m[ebp-8] ] is null
  // (block 4 comes out with n=4)

  std::string expected = "4 ";
  std::ostringstream actual;
  // m[r29 - 8]
  Exp* e = new Unary(opMemOf,
                     new Binary(opMinus,
                                Location::regOf(29),
                                new Const(8)));
  std::set<int>& s = df->getA_phi(e);
  std::set<int>::iterator pp;
  for (pp = s.begin(); pp != s.end(); pp++)
    actual << *pp << " ";
  CPPUNIT_ASSERT_EQUAL(expected, actual.str());
  delete e;

  expected = "";
  std::ostringstream actual2;
  // m[r29 - 12]
  e = new Unary(opMemOf,
                new Binary(opMinus,
                           Location::regOf(29),
                           new Const(12)));

  std::set<int>& s2 = df->getA_phi(e);
  for (pp = s2.begin(); pp != s2.end(); pp++)
    actual2 << *pp << " ";
  CPPUNIT_ASSERT_EQUAL(expected, actual2.str());
  delete e;
  delete pFE;
}
Ejemplo n.º 3
0
void CfgTest::testSemiDominators ()
{
  BinaryFileFactory bff;
  BinaryFile* pBF = bff.Load(SEMI_PENTIUM);
  CPPUNIT_ASSERT(pBF != 0);
  Prog* prog = new Prog;
  FrontEnd* pFE = new PentiumFrontEnd(pBF, prog, &bff);
  Type::clearNamedTypes();
  prog->setFrontEnd(pFE);
  pFE->decode(prog);

  bool gotMain;
  ADDRESS addr = pFE->getMainEntryPoint(gotMain);
  CPPUNIT_ASSERT (addr != NO_ADDRESS);

  UserProc* pProc = (UserProc*) prog->getProc(0);
  Cfg* cfg = pProc->getCFG();

  DataFlow* df = pProc->getDataFlow();
  df->dominators(cfg);

  // Find BB "L (6)" (as per Appel, Figure 19.8).
  BB_IT it;
  PBB bb = cfg->getFirstBB(it);
  while (bb && bb->getLowAddr() != SEMI_L)
    {
      bb = cfg->getNextBB(it);
    }
  CPPUNIT_ASSERT(bb);
  int nL = df->pbbToNode(bb);

  // The dominator for L should be B, where the semi dominator is D
  // (book says F)
  unsigned actual_dom	 = (unsigned)df->nodeToBB(df->getIdom(nL))->getLowAddr();
  unsigned actual_semi = (unsigned)df->nodeToBB(df->getSemi(nL))->getLowAddr();
  CPPUNIT_ASSERT_EQUAL((unsigned)SEMI_B, actual_dom);
  CPPUNIT_ASSERT_EQUAL((unsigned)SEMI_D, actual_semi);
  // Check the final dominator frontier as well; should be M and B
  std::ostringstream expected, actual;
  //expected << std::hex << SEMI_M << " " << SEMI_B << " ";
  expected << std::hex << SEMI_B << " " << SEMI_M << " ";
  std::set<int>::iterator ii;
  std::set<int>& DFset = df->getDF(nL);
  for (ii=DFset.begin(); ii != DFset.end(); ii++)
    actual << std::hex << (unsigned)df->nodeToBB(*ii)->getLowAddr() << " ";
  CPPUNIT_ASSERT_EQUAL(expected.str(), actual.str());
  delete pFE;
}
Ejemplo n.º 4
0
void CfgTest::testDominators ()
{
  BinaryFileFactory bff;
  BinaryFile *pBF = bff.Load(FRONTIER_PENTIUM);
  CPPUNIT_ASSERT(pBF != 0);
  Prog* prog = new Prog;
  FrontEnd *pFE = new PentiumFrontEnd(pBF, prog, &bff);
  Type::clearNamedTypes();
  prog->setFrontEnd(pFE);
  pFE->decode(prog);

  bool gotMain;
  ADDRESS addr = pFE->getMainEntryPoint(gotMain);
  CPPUNIT_ASSERT (addr != NO_ADDRESS);

  UserProc* pProc = (UserProc*) prog->getProc(0);
  Cfg* cfg = pProc->getCFG();
  DataFlow* df = pProc->getDataFlow();
  df->dominators(cfg);

  // Find BB "5" (as per Appel, Figure 19.5).
  BB_IT it;
  PBB bb = cfg->getFirstBB(it);
  while (bb && bb->getLowAddr() != FRONTIER_FIVE)
    {
      bb = cfg->getNextBB(it);
    }
  CPPUNIT_ASSERT(bb);

  std::ostringstream expected, actual;
  //expected << std::hex << FRONTIER_FIVE << " " << FRONTIER_THIRTEEN << " " << FRONTIER_TWELVE << " " <<
  //	FRONTIER_FOUR << " ";
  expected << std::hex << FRONTIER_THIRTEEN << " " << FRONTIER_FOUR << " " << FRONTIER_TWELVE << " " <<
  FRONTIER_FIVE << " ";
  int n5 = df->pbbToNode(bb);
  std::set<int>::iterator ii;
  std::set<int>& DFset = df->getDF(n5);
  for (ii=DFset.begin(); ii != DFset.end(); ii++)
    actual << std::hex << (unsigned)df->nodeToBB(*ii)->getLowAddr() << " ";
  CPPUNIT_ASSERT_EQUAL(expected.str(), actual.str());

  pBF->UnLoad();
  delete pFE;
}
Ejemplo n.º 5
0
/*==============================================================================
 * FUNCTION:		CfgTest::testPlacePhi
 * OVERVIEW:		Test the placing of phi functions
 *============================================================================*/
void CfgTest::testPlacePhi ()
{
  BinaryFileFactory bff;
  BinaryFile* pBF = bff.Load(FRONTIER_PENTIUM);
  CPPUNIT_ASSERT(pBF != 0);
  Prog* prog = new Prog;
  FrontEnd* pFE = new PentiumFrontEnd(pBF, prog, &bff);
  Type::clearNamedTypes();
  prog->setFrontEnd(pFE);
  pFE->decode(prog);

  UserProc* pProc = (UserProc*) prog->getProc(0);
  Cfg* cfg = pProc->getCFG();

  // Simplify expressions (e.g. m[ebp + -8] -> m[ebp - 8]
  prog->finishDecode();

  DataFlow* df = pProc->getDataFlow();
  df->dominators(cfg);
  df->placePhiFunctions(pProc);

  // m[r29 - 8] (x for this program)
  Exp* e = new Unary(opMemOf,
                     new Binary(opMinus,
                                Location::regOf(29),
                                new Const(4)));

  // A_phi[x] should be the set {7 8 10 15 20 21} (all the join points)
  std::ostringstream ost;
  std::set<int>::iterator ii;
  std::set<int>& A_phi = df->getA_phi(e);
  for (ii = A_phi.begin(); ii != A_phi.end(); ++ii)
    ost << *ii << " ";
  std::string expected("7 8 10 15 20 21 ");
  CPPUNIT_ASSERT_EQUAL(expected, ost.str());
  delete pFE;
}