void ParserTest::testCall(){ Parser p; std::string src; src = "procedure main{\n" /*1*/ "a = c;" /*2*/ "call test2;" /*3*/ "a = d;}" /**/ "procedure test2{\n" /*4*/ "b = 1;}"; p.setSource(src); CPPUNIT_ASSERT_EQUAL(1, p.startParse()); PKB *pkb = p.getPKB(); AST *ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()) == PROCEDURE); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == CALL); }
RELATION_LIST EvaluateSibling::getSiblingUnknown(TYPE type1,TYPE type2){ RELATION_LIST returnList; if(type1==PROCEDURE&&type2==PROCEDURE){ //1. sibling ( p1,p2) int procTableSize = pkb->getProceTableSize(); for(int i =1;i<=procTableSize;i++){ for(int j =1;j<=procTableSize;j++){ if(i!=j) returnList.push_back(pair<int,int>(i,j)); } } } if(Helper::isStatement(type1)&&Helper::isStatement(type2)){//2. sibling(stmt/a/w/if/call,stmt/a/w/if/call) //get sequential sibling from Follows* returnList = EvaluateFollows::getFollowsStarResult(type1,type2); RELATION_LIST tempList; if(type1!=type2){ tempList = EvaluateFollows::getFollowsStarResult(type2,type1); }else{ tempList = returnList; } //insert reversed sibling list for(RELATION_LIST::iterator itr=tempList.begin();itr!=tempList.end();itr++){ returnList.push_back(pair<int,int>(itr->second,itr->first)); } } if(type1==VARIABLE&&type2==STMT_LIST){//3. a. sibling( x, stmtList) //get all the whiles DATA_LIST * whileList = pkb->getAllWhiles(); for(DATA_LIST::iterator itr=whileList->begin();itr!=whileList->end();itr++){ returnList.push_back(pair<int,int>(pkb->getWhileCtrVar(*itr),*itr+1)); // No. of stmtList = stmtNo of while+1 } delete whileList; //get all the ifs DATA_LIST * ifList = pkb->getAllIfs(); for(DATA_LIST::iterator itr=ifList->begin();itr!=ifList->end();itr++){ AST * ifNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==IF){ ifNode = *astItr; break; } } AST * ifVarNode = ifNode->getFirstDescendant(); AST * elseNode = ifVarNode->getRightSibling(); AST * thenNode = elseNode->getRightSibling(); returnList.push_back(pair<int,int>(ifVarNode->getRootData(),elseNode->getRootStatementNum())); returnList.push_back(pair<int,int>(ifVarNode->getRootData(),thenNode->getRootStatementNum())); } delete ifList; } if(type1==STMT_LIST&&type2==VARIABLE){ //3.b sibling(stmtList,x) //get all the whiles DATA_LIST * whileList = pkb->getAllWhiles(); for(DATA_LIST::iterator itr=whileList->begin();itr!=whileList->end();itr++){ returnList.push_back(pair<int,int>(*itr+1,pkb->getWhileCtrVar(*itr))); } delete whileList; //get all the ifs DATA_LIST * ifList = pkb->getAllIfs(); for(DATA_LIST::iterator itr=ifList->begin();itr!=ifList->end();itr++){ AST * ifNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==IF){ ifNode = *astItr; break; } } AST * ifVarNode = ifNode->getFirstDescendant(); AST * thenNode = ifVarNode->getRightSibling(); AST * elseNode = thenNode->getRightSibling(); returnList.push_back(pair<int,int>(elseNode->getRootStatementNum(),ifVarNode->getRootData())); returnList.push_back(pair<int,int>(thenNode->getRootStatementNum(),ifVarNode->getRootData())); } delete ifList; } if(type1==STMT_LIST&&type2==STMT_LIST){ //sibling (stmtList,stmtList),only possible in If stmts //get all the ifs DATA_LIST * ifList = pkb->getAllIfs(); for(DATA_LIST::iterator itr=ifList->begin();itr!=ifList->end();itr++){ AST * ifNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==IF){ ifNode = *astItr; break; } } AST * ifVarNode = ifNode->getFirstDescendant(); AST * thenNode = ifVarNode->getRightSibling(); AST * elseNode = thenNode->getRightSibling(); //(else,then) returnList.push_back(pair<int,int>(elseNode->getRootStatementNum(),thenNode->getRootStatementNum())); //(then,else) returnList.push_back(pair<int,int>(thenNode->getRootStatementNum(),elseNode->getRootStatementNum())); } delete ifList; } if(Helper::isExprElement(type1)&&Helper::isExprElement(type2)){//4. Sibling (var/plus/minus/multiply,var/plus/minus/multiply). DATA_LIST * assignList = pkb->getAllAssigns(); for(DATA_LIST::iterator itr= assignList->begin();itr!=assignList->end();itr++){ //get assignNode AST_LIST * assignNodes = pkb->getASTBy(*itr); AST * assignNode; for(AST_LIST::iterator astItr=assignNodes->begin();astItr!=assignNodes->end();astItr++){ if((**astItr).getRootType()==ASSIGNMENT){ assignNode = *astItr; break; } } //check if modified var and expression tree root are sibling AST * leftVarNode = assignNode->getFirstDescendant(); AST * expressionRoot = leftVarNode->getRightSibling(); //pattern is symmetric bool isPattern1 = (leftVarNode->getRootType()==type1)&&(expressionRoot->getRootType()==type2); bool isPattern2 =(expressionRoot->getRootType()==type1)&&(leftVarNode->getRootType()==type2); //if in the case of x=x,y=y, pattern1 and pattern2 are same bool isLeftRightEqual = (leftVarNode->getRootType()==expressionRoot->getRootType())&&(leftVarNode->getRootData()==expressionRoot->getRootData()); if(isPattern1){ //type1 matched with left, type2 matched with right returnList.push_back(pair<int,int>(leftVarNode->getRootData(),expressionRoot->getRootData())); }else if(isPattern2){ //to avoid duplicate result,type1 matched with right, type2 matched with left returnList.push_back(pair<int,int>(expressionRoot->getRootData(),leftVarNode->getRootData())); // x = expression, x is matched with var or +,-,* } //traverse the tree and check matched pattern stack<AST *> exprStack; if(expressionRoot->getRootType()!=VARIABLE&&expressionRoot->getRootType()!=CONSTANT){ exprStack.push(expressionRoot); AST * left; AST * right; while(!exprStack.empty()){ AST * curNode = exprStack.top(); exprStack.pop(); left = curNode->getFirstDescendant(); right = left->getRightSibling(); //pattern is symmetric isPattern1 = (left->getRootType()==type1)&&(right->getRootType()==type2); isPattern2 =(right->getRootType()==type1)&&(left->getRootType()==type2); isLeftRightEqual = (left->getRootType()==right->getRootType())&&(left->getRootData()==right->getRootData()); if(isPattern1){ returnList.push_back(pair<int,int>(left->getRootData(),right->getRootData())); } else if(isPattern2){ returnList.push_back(pair<int,int>(right->getRootData(),left->getRootData())); // x = expression, x is matched with var or +,-,* } //push the next operator into stack if(left->getRootType()!=VARIABLE&&left->getRootType()!=CONSTANT) exprStack.push(left); if(right->getRootType()!=VARIABLE&&right->getRootType()!=CONSTANT) exprStack.push(right); } } } delete assignList; } return returnList; }
RELATION_LIST EvaluateSibling::getOneSibling(TYPE known,TYPE unknown,INDEX knownIndex,int knownPos){ RELATION_LIST returnList; if(known==PROCEDURE&&unknown==PROCEDURE){ //1. sibling ( "procName",p) or sibling ( p,"procName") int procTableSize = pkb->getProceTableSize(); for(int i =1;i<=procTableSize;i++){ if(knownIndex!=i){ if(knownPos==1){ //sibling (known,unknown) returnList.push_back(pair<int,int>(knownIndex,i)); }else{ //sibling(unknown,known) returnList.push_back(pair<int,int>(i,knownIndex)); } } } } if(Helper::isStatement(known)&&Helper::isStatement(unknown)){//2. sibling(stmt/a/w/if/call,stmt/a/w/if/call), either field is unknown if(knownPos==1){ //get sequential sibling from Follows* returnList = EvaluateFollows::getFollowsStarResult(unknown,knownIndex,0); //get sibling in front of the knownIndex RELATION_LIST tempList = EvaluateFollows::getFollowsStarResult(unknown,0,knownIndex); for(RELATION_LIST::iterator itr=tempList.begin();itr!=tempList.end();itr++){ returnList.push_back(pair<int,int>(knownIndex,itr->first)); } }else{ //get sibling before current index from Follows* returnList = EvaluateFollows::getFollowsStarResult(unknown,0,knownIndex); //get sequential siblings RELATION_LIST tempList = EvaluateFollows::getFollowsStarResult(unknown,knownIndex,0); for(RELATION_LIST::iterator itr=tempList.begin();itr!=tempList.end();itr++){ returnList.push_back(pair<int,int>(itr->second,knownIndex)); } } } if(known==VARIABLE&&unknown==STMT_LIST){//3. a. sibling( "x", stmtList) or sibling(stmtList,"x") //sibling("x",stmtList) //get all the whiles DATA_LIST * whileList = pkb->getAllWhiles(); for(DATA_LIST::iterator itr=whileList->begin();itr!=whileList->end();itr++){ if(pkb->getWhileCtrVar(*itr)==knownIndex){ if(knownPos==1) returnList.push_back(pair<int,int>(knownIndex,*itr+1)); else returnList.push_back(pair<int,int>(*itr+1,knownIndex)); } } delete whileList; //get all the ifs DATA_LIST * ifList = pkb->getAllIfs(); for(DATA_LIST::iterator itr=ifList->begin();itr!=ifList->end();itr++){ AST * ifNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==IF){ ifNode = *astItr; break; } } AST * ifVarNode = ifNode->getFirstDescendant(); AST * thenNode = ifVarNode->getRightSibling(); AST * elseNode = thenNode->getRightSibling(); if(ifVarNode->getRootData()==knownIndex){ if(knownIndex==1){ returnList.push_back(pair<int,int>(knownIndex,thenNode->getRootStatementNum())); returnList.push_back(pair<int,int>(knownIndex,elseNode->getRootStatementNum())); }else{ returnList.push_back(pair<int,int>(thenNode->getRootStatementNum(),knownIndex)); returnList.push_back(pair<int,int>(elseNode->getRootStatementNum(),knownIndex)); } } } delete ifList; } if(known==STMT_LIST&&unknown==VARIABLE){//3.b sibling(x,2) or sibling(2,x) where 2 is stmtList no. AST * stmtListNode = NULL; AST_LIST * nodeList = pkb->getASTBy(knownIndex); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==STMT_LIST){ stmtListNode = *astItr; break; } } if(stmtListNode!=NULL){ AST * varNode = stmtListNode->getFirstDescendant(); if(varNode->getRootType()==VARIABLE){ if(knownPos==1) returnList.push_back(pair<int,int>(knownIndex,varNode->getRootData())); else returnList.push_back(pair<int,int>(varNode->getRootData(),knownIndex)); } } } if(known==STMT_LIST&&unknown==STMT_LIST){ //sibling (stmtList,2) or sibling(2,stmtList) //get all the ifs DATA_LIST * ifList = pkb->getAllIfs(); for(DATA_LIST::iterator itr=ifList->begin();itr!=ifList->end();itr++){ AST * ifNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==IF){ ifNode = *astItr; break; } } AST * ifVarNode = ifNode->getFirstDescendant(); AST * thenNode = ifVarNode->getRightSibling(); AST * elseNode = thenNode->getRightSibling(); if(knownIndex==elseNode->getRootStatementNum()){ if(knownPos==1) returnList.push_back(pair<int,int>(knownIndex,thenNode->getRootStatementNum())); else returnList.push_back(pair<int,int>(thenNode->getRootStatementNum(),knownIndex)); }else if(knownIndex= thenNode->getRootStatementNum()){ if(knownPos==1) returnList.push_back(pair<int,int>(knownIndex,elseNode->getRootStatementNum())); else returnList.push_back(pair<int,int>(elseNode->getRootStatementNum(),knownIndex)); } } delete ifList; }else if(Helper::isExprElement(known)&&Helper::isExprElement(unknown)){//4. Sibling (var/plus/minus/multiply,var/plus/minus/multiply). DATA_LIST * assignList = pkb->getAllAssigns(); for(DATA_LIST::iterator itr= assignList->begin();itr!=assignList->end();itr++){ //get assignNode AST * assignNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==ASSIGNMENT){ assignNode = *astItr; break; } } //check if modified var and expression tree root are sibling AST * leftVarNode = assignNode->getFirstDescendant(); AST * expressionRoot = leftVarNode->getRightSibling(); int exprData = expressionRoot->getRootData(); if(expressionRoot->getRootType()==CONSTANT) exprData = pkb->getConstantValue(exprData); /*pattern is symmetric if else pattern check is used to avoid repeated result eg. x->x in expression tree, sibling("x",var)/sibling(var,"x") if pattern1 is matched, no need to check pattern2 eg. x->+ in expressoin tree, sibling("+",var)/sibling(var,"+") if pattern1 is matched, pattern2 can't be matched */ bool isPattern1 = (leftVarNode->getRootType()==known&&leftVarNode->getRootData()==knownIndex)&&(expressionRoot->getRootType()==unknown); bool isPattern2 =(expressionRoot->getRootType()==known&&exprData==knownIndex)&&(leftVarNode->getRootType()==unknown); if(isPattern1){ if(knownPos==1){ returnList.push_back(pair<int,int>(knownIndex,expressionRoot->getRootData())); }else{ returnList.push_back(pair<int,int>(expressionRoot->getRootData(),knownIndex)); } } else if(isPattern2){ if(knownPos==1){ returnList.push_back(pair<int,int>(knownIndex,leftVarNode->getRootData())); }else{ returnList.push_back(pair<int,int>(leftVarNode->getRootData(),knownIndex)); } } // x = expression, x is matched with var or +,-,* //traverse the tree and check matched pattern stack<AST *> exprStack; if(expressionRoot->getRootType()!=VARIABLE&&expressionRoot->getRootType()!=CONSTANT){ exprStack.push(expressionRoot); AST * left; AST * right; while(!exprStack.empty()){ AST * curNode = exprStack.top(); exprStack.pop(); left = curNode->getFirstDescendant(); right = left->getRightSibling(); int leftData = left->getRootData(); if(left->getRootType()==CONSTANT) leftData = pkb->getConstantValue(leftData); int rightData = right->getRootData(); if(right->getRootType()==CONSTANT) rightData = pkb->getConstantValue(rightData); //pattern is symmetric isPattern1 = (left->getRootType()==known&&leftData==knownIndex)&&(right->getRootType()==unknown); isPattern2 =(right->getRootType()==known&&rightData==knownIndex)&&(left->getRootType()==unknown); if(isPattern1){ if(knownPos==1){ returnList.push_back(pair<int,int>(known,right->getRootData())); }else{ returnList.push_back(pair<int,int>(right->getRootData(),known)); } } else if(isPattern2){ if(knownPos==1){ returnList.push_back(pair<int,int>(knownIndex,left->getRootData())); }else{ returnList.push_back(pair<int,int>(left->getRootData(),knownIndex)); } } // x = expression, x is matched with var or +,-,* //push the next operator into stack if(left->getRootType()!=VARIABLE&&left->getRootType()!=CONSTANT) exprStack.push(left); if(right->getRootType()!=VARIABLE&&right->getRootType()!=CONSTANT) exprStack.push(right); } } } delete assignList; } return returnList; }
bool EvaluateSibling::getIsSibling(TYPE type1,TYPE type2,INDEX index1,INDEX index2){ bool returnValue = false; if(type1 ==PROCEDURE&&type2 ==PROCEDURE){ //1. Sibling("procName1","procName2" if(index1!=NULL&&index2!=NULL) returnValue = true; } if(Helper::isStatement(type1)&&Helper::isStatement(type2)){//2. Sibling(1,5),Sibling(4,2) for stmt/w/a/if/call if((type1==STATEMENT||Helper::isStatementTypeOf(type1,index1))&&(type2==STATEMENT||Helper::isStatementTypeOf(type2,index2))){ returnValue = (EvaluateFollows::getIsFollowsStarResult(index1,index2)||EvaluateFollows::getIsFollowsStarResult(index2,index1)); } } if(type1==VARIABLE&&(type2==STMT_LIST||type2==STATEMENT)){//3. a.Sibling("x",4) for while or if stmt,4 is stmtList AST * stmtListNode =NULL; AST_LIST * nodeList = pkb->getASTBy(index2); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==STMT_LIST){ stmtListNode = *astItr; break; } } if(stmtListNode!=NULL){ AST * parentNode = stmtListNode->getAncestor(); //get the parentNode to check if it is while or if AST * varNode = parentNode->getFirstDescendant(); //get the varNode of while or if if(varNode->getRootType() ==VARIABLE&&varNode->getRootData()==index1) returnValue= true; } } if(type2==VARIABLE&&(type1==STMT_LIST||type1==STATEMENT)){ //3. b.Sibling(4,"x") for while of if stmt AST * stmtListNode = NULL; AST_LIST * nodeList = pkb->getASTBy(index1); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==STMT_LIST){ stmtListNode = *astItr; break; } } if(stmtListNode!=NULL){ AST * parentNode = stmtListNode->getAncestor(); //get the parentNode to check if it is while or if AST * varNode = parentNode->getFirstDescendant(); //get the varNode of while or if if(varNode->getRootType() ==VARIABLE&&varNode->getRootData()==index2) returnValue = true; } } if((type1==STMT_LIST||type1==STATEMENT)&&(type2==STMT_LIST||type2==STATEMENT)){//3. c. Sibling( 22,23) for stmtList of if AST * stmtListNode1 =NULL; AST_LIST * nodeList = pkb->getASTBy(index1); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==STMT_LIST){ stmtListNode1 = *astItr; break; } } AST * stmtListNode2=NULL; nodeList = pkb->getASTBy(index2); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==STMT_LIST){ stmtListNode2 = *astItr; break; } } if(stmtListNode1!=NULL&&stmtListNode2!=NULL){ if(stmtListNode1->getAncestor()->getRootData()==stmtListNode2->getAncestor()->getRootData()) returnValue= true; } } if(Helper::isExprElement(type1)&&Helper::isExprElement(type2)){//4. Sibling ("x"/"*"/"+"/"-","x"/"*"/"+"/"-"). operator data: -1 DATA_LIST * assignList = pkb->getAllAssigns(); for(DATA_LIST::iterator itr= assignList->begin();itr!=assignList->end();itr++){ //get assignNode AST * assignNode = NULL; AST_LIST * nodeList = pkb->getASTBy(*itr); for(AST_LIST::iterator astItr=nodeList->begin();astItr!=nodeList->end();astItr++){ if((**astItr).getRootType()==ASSIGNMENT){ assignNode = *astItr; break; } } //check if modified var and expression tree root are sibling AST * leftVarNode = assignNode->getFirstDescendant(); AST * expressionRoot = leftVarNode->getRightSibling(); int exprData = expressionRoot->getRootData(); if(expressionRoot->getRootType()==CONSTANT) exprData = pkb->getConstantValue(exprData); //pattern is symmetric, find if x is matched with some elements in x=y+z+... bool isPattern1 = (leftVarNode->getRootType()==type1&&leftVarNode->getRootData()==index1)&&(expressionRoot->getRootType()==type2&&exprData==index2); bool isPattern2 =(expressionRoot->getRootType()==type1&&exprData==index1)&&(leftVarNode->getRootType()==type2&&leftVarNode->getRootData()==index2); if(isPattern1||isPattern2) return true; // x = expression, x is matched with var or +,-,* //traverse the tree and check matched pattern, search in left hand side x= y+z... stack<AST *> exprStack; if(expressionRoot->getRootType()!=VARIABLE&&expressionRoot->getRootType()!=CONSTANT){ exprStack.push(expressionRoot); AST * left; AST * right; while(!exprStack.empty()){ AST * curNode = exprStack.top(); exprStack.pop(); left = curNode->getFirstDescendant(); right = left->getRightSibling(); int leftData = left->getRootData(); if(left->getRootType()==CONSTANT) leftData = pkb->getConstantValue(leftData); int rightData = right->getRootData(); if(right->getRootType()==CONSTANT) rightData = pkb->getConstantValue(rightData); //pattern is symmetric isPattern1 = (left->getRootType()==type1&&leftData==index1)&&(right->getRootType()==type2&&rightData==index2); isPattern2 =(right->getRootType()==type1&&rightData==index1)&&(left->getRootType()==type2&&leftData==index2); if(isPattern1||isPattern2) return true; //push the next operator into stack if(left->getRootType()!=VARIABLE&&left->getRootType()!=CONSTANT) exprStack.push(left); if(right->getRootType()!=VARIABLE&&right->getRootType()!=CONSTANT) exprStack.push(right); } } } delete assignList; } return returnValue; }
void ParserTest::testGetPKB(){ Parser p; std::string src; src = "procedure main{\n" "a = y + 1 + 0 + x + b + a;\n" "b = y;\n" "b = x + y + 1 + u;\n" "while a {\n" "x = y; \n" "hhhhh = 2;\n" "while b { \n" "k = 1; } }}\n"; p.setSource(src); p.startParse(); PKB *pkb = p.getPKB(); // Test Procedure/ProcTable CPPUNIT_ASSERT(pkb->getProcedure(1)->getProcName() == "main"); CPPUNIT_ASSERT_EQUAL(1,pkb->getProcedure(1)->getStartProgLine()); CPPUNIT_ASSERT_EQUAL(9,pkb->getProcedure(1)->getEndProgLine()); //Test Parent PARENT_LIST parentList = pkb->getParent(0, 5); PARENT_LIST::iterator parentItr = parentList.begin(); CPPUNIT_ASSERT(parentItr->first == 4); parentList = pkb->getParent(0, 7); parentItr = parentList.begin(); CPPUNIT_ASSERT(parentItr->first == 4); //Test Follow CPPUNIT_ASSERT_EQUAL(6, pkb->getFollows(0, 7).begin()->first); CPPUNIT_ASSERT_EQUAL(1, pkb->getFollows(0, 2).begin()->first); CPPUNIT_ASSERT_EQUAL(3, pkb->getFollows(2, 0).begin()->second); CPPUNIT_ASSERT(pkb->getFollows(4, 0).empty() == true); //Test VarTable VAR_LIST varList = *pkb->getAllVar(); VAR_LIST::iterator varTableItr = varList.begin(); CPPUNIT_ASSERT(*(varTableItr++) == "a"); CPPUNIT_ASSERT(*(varTableItr++) == "y"); CPPUNIT_ASSERT(*(varTableItr++) == "hhhhh"); CPPUNIT_ASSERT(*(varTableItr++) == "x"); //Test Modifies MODIFIES_LIST modifiesList = pkb->getModifies(PROCEDURE, 1, 0); MODIFIES_LIST::iterator modifiesListItr = modifiesList.begin(); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "a"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "x"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "b"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "hhhhh"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "k"); //Test Modifies While LOOP modifiesList = pkb->getModifies(WHILE, 4, 0); modifiesListItr = modifiesList.begin(); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "x"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "hhhhh"); //Test Uses USES_LIST useList = pkb->getUses(PROCEDURE, 1, 0); CPPUNIT_ASSERT(useList.size() == 5); //Test Uses WHILE LOOP useList = pkb->getUses(WHILE, 4, 0); CPPUNIT_ASSERT(useList.size() == 3); // Test AST AST *ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); ast = ast->getFirstDescendant()->getFirstDescendant()->getRightSibling(); CPPUNIT_ASSERT(pkb->getType(ast) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()->getRightSibling()) == WHILE); ast = ast->getRightSibling()->getRightSibling(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getRightSibling()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == ASSIGNMENT); ast = ast->getFirstDescendant()->getRightSibling()->getFirstDescendant(); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getRightSibling()->getRightSibling()) == WHILE); }
void ParserTest::testOperators(){ Parser p; std::string src; src = "procedure main{\n" "a = y;}\n"; p.setSource(src); p.startParse(); PKB *pkb = p.getPKB(); AST *ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == VARIABLE); src = "procedure main{\n" "a = 1;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == CONSTANT); src = "procedure main{\n" "a = y*1;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MULTIPLY); src = "procedure main{\n" "a = y+1;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); src = "procedure main{\n" "a = y-1;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MINUS); src = "procedure main{\n" "a = (y+1);}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); src = "procedure main{\n" "a = (y-1);}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MINUS); src = "procedure main{\n" "a = (y*1);}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MULTIPLY); src = "procedure main{\n" "a = b + c * d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getVarName(pkb->getData(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()))=="b"); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getVarName(pkb->getData(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()))=="c"); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == VARIABLE); CPPUNIT_ASSERT(pkb->getVarName(pkb->getData(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()))=="d"); src = "procedure main{\n" "a = b - c * d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MINUS); src = "procedure main{\n" "a = b * c + d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == VARIABLE); src = "procedure main{\n" "a = b * c - d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MINUS); src = "procedure main{\n" "a = (b + c) * d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == VARIABLE); src = "procedure main{\n" "a = (c + d) * (d * e) ;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == MULTIPLY); src = "procedure main{\n" "a = b + c + d;}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == PLUS); src = "procedure main{\n" "a = (b * c - d) * a + (t + e * f * e * g);}\n"; p.setSource(src); p.startParse(); pkb = p.getPKB(); ast = pkb->getRootAST(); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()) == MINUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == PLUS); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == MULTIPLY); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getFirstDescendant()) == MULTIPLY); }
void ParserTest::testIf() { Parser p; std::string src; // Follows(2, 3), Follows(4, 5) //cout << "Start=====\n"; src = "procedure test1{\n" /*1*/ "if b then {" /*2*/ "a = c;" /*3*/ "a = d;}" /**/ "else{" /*4*/ "c = d;" /*5*/ "e = d;}}"; p.setSource(src); CPPUNIT_ASSERT_EQUAL(1, p.startParse()); PKB *pkb = p.getPKB(); CPPUNIT_ASSERT(pkb->isFollows(1, 2) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 3) == false); CPPUNIT_ASSERT(pkb->isFollows(2, 3) == true); CPPUNIT_ASSERT(pkb->isFollows(4, 5) == true); CPPUNIT_ASSERT(pkb->isFollows(2, 4) == false); CPPUNIT_ASSERT(pkb->isFollows(2, 5) == false); CPPUNIT_ASSERT(pkb->isFollows(2, 6) == false); CPPUNIT_ASSERT(pkb->isFollows(3, 4) == false); CPPUNIT_ASSERT(pkb->isFollows(4, 6) == false); // Test Uses and Modifies for if MODIFIES_LIST modifiesList = pkb->getModifies(IF, 1, 0); MODIFIES_LIST::iterator modifiesListItr = modifiesList.begin(); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "a"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "c"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "e"); USES_LIST useList = pkb->getUses(IF, 1, 0); USES_LIST::iterator usesListItr = useList.begin(); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "b"); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "c"); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "d"); // Follows(2, 3), Follows(3, 4), Follows(7, 8), Follows(1, 9) // Parent(1, 2) (1, 3), (1, 4), (4, 5), (4, 6), (1, 7), (1, 8) src = "procedure test2{\n" /*1*/ "if b then {" /*2*/ "a = c;" /*3*/ "a = d;" /*4*/ "if b then{" /*5*/ "a = 1;}" /**/ "else{" /*6*/ "b = 1;}}" /**/ "else{" /*7*/ "c = d;" /*8*/ "e = d;}" /*9*/ "z = y;}"; p.setSource(src); CPPUNIT_ASSERT_EQUAL(1, p.startParse()); pkb = p.getPKB(); CPPUNIT_ASSERT(pkb->isFollows(2, 3) == true); CPPUNIT_ASSERT(pkb->isFollows(3, 4) == true); CPPUNIT_ASSERT(pkb->isFollows(7, 8) == true); CPPUNIT_ASSERT(pkb->isFollows(1, 9) == true); CPPUNIT_ASSERT(pkb->isFollows(1, 8) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 2) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 4) == false); CPPUNIT_ASSERT(pkb->isParent(1, 2) == true); CPPUNIT_ASSERT(pkb->isParent(1, 3) == true); CPPUNIT_ASSERT(pkb->isParent(1, 4) == true); CPPUNIT_ASSERT(pkb->isParent(4, 5) == true); CPPUNIT_ASSERT(pkb->isParent(4, 6) == true); CPPUNIT_ASSERT(pkb->isParent(1, 7) == true); CPPUNIT_ASSERT(pkb->isParent(1, 8) == true); CPPUNIT_ASSERT(pkb->isParent(1, 9) == false); // Test Uses and Modifies for if modifiesList = pkb->getModifies(IF, 1, 0); modifiesListItr = modifiesList.begin(); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "b"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "a"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "c"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "e"); modifiesList = pkb->getModifies(IF, 4, 0); modifiesListItr = modifiesList.begin(); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "b"); CPPUNIT_ASSERT( pkb->getVarName((modifiesListItr++->second)) == "a"); useList = pkb->getUses(IF, 1, 0); usesListItr = useList.begin(); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "b"); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "c"); CPPUNIT_ASSERT( pkb->getVarName((usesListItr++->second)) == "d"); // varindex 7 is variable y CPPUNIT_ASSERT(pkb->isUses(IF, 1, 7) == false); // Follows(1, 2), Follows(3, 4), Follows(5, 6), Follows(2, 7) src = "procedure test3{\n" "a = y;" "if b then {" "a = c;" "a = d;}" "else{" "c = d;" "e = d;}" "a = 1;}"; p.setSource(src); CPPUNIT_ASSERT_EQUAL(1, p.startParse()); pkb = p.getPKB(); // Test Follows, Parent CPPUNIT_ASSERT(pkb->isFollows(1, 2) == true); CPPUNIT_ASSERT(pkb->isFollows(3, 4) == true); CPPUNIT_ASSERT(pkb->isFollows(5, 6) == true); CPPUNIT_ASSERT(pkb->isFollows(2, 7) == true); CPPUNIT_ASSERT(pkb->isFollows(1, 3) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 4) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 5) == false); CPPUNIT_ASSERT(pkb->isFollows(1, 6) == false); CPPUNIT_ASSERT(pkb->isParent(2, 3) == true); CPPUNIT_ASSERT(pkb->isParent(2, 4) == true); CPPUNIT_ASSERT(pkb->isParent(2, 5) == true); CPPUNIT_ASSERT(pkb->isParent(2, 6) == true); CPPUNIT_ASSERT(pkb->isParent(2, 7) == false); // Test AST AST *ast = pkb->getRootAST(); CPPUNIT_ASSERT(ast->getRootData() == 1); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()) == IF); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == VARIABLE); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getFirstDescendant()) == ASSIGNMENT); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getRightSibling()) == STMT_LIST); CPPUNIT_ASSERT(pkb->getType(ast->getFirstDescendant()->getFirstDescendant()->getRightSibling()->getFirstDescendant()->getRightSibling()->getRightSibling()->getFirstDescendant()) == ASSIGNMENT); }