/*============================================================================== * 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; }
/** * Test a case where a phi function is not needed. */ void CfgTest::testPlacePhi2() { auto prog = Prog::open(IFTHEN_PENTIUM); CPPUNIT_ASSERT(prog); auto fe = prog->getFrontEnd(); Type::clearNamedTypes(); fe->decode(); 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 = Location::memOf( new Binary(opMinus, Location::regOf(29), new Const(8))); std::set<int> &s = df->getA_phi(e); for (const auto &pp : s) actual << pp << " "; CPPUNIT_ASSERT_EQUAL(expected, actual.str()); delete e; expected = ""; std::ostringstream actual2; // m[r29 - 12] e = Location::memOf( new Binary(opMinus, Location::regOf(29), new Const(12))); std::set<int> &s2 = df->getA_phi(e); for (const auto &pp : s2) actual2 << pp << " "; CPPUNIT_ASSERT_EQUAL(expected, actual2.str()); delete e; delete prog; }
/** * Test the placing of phi functions. */ void CfgTest::testPlacePhi() { auto prog = Prog::open(FRONTIER_PENTIUM); CPPUNIT_ASSERT(prog); auto fe = prog->getFrontEnd(); Type::clearNamedTypes(); fe->decode(); 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 = Location::memOf( 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> &A_phi = df->getA_phi(e); for (const auto &ii : A_phi) ost << ii << " "; std::string expected("7 8 10 15 20 21 "); CPPUNIT_ASSERT_EQUAL(expected, ost.str()); delete prog; }
/*============================================================================== * 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; }