Exemple #1
0
void bagTester() 
{
	LinkedBag<string> bag;
	cout << "Testing the Link-Based Bag:" << endl;
	cout << "isEmpty: returns " << bag.isEmpty() << "; should be 1 (true)" << endl;
	cout << bag;

	string numbers[] = { "one", "two", "three", "four", "five", "one" };
	cout << "Add 6 items to the bag: " << endl;
	for (int i = 0; i < sizeof(numbers)/sizeof(numbers[0]); i++)
	{
		bag.add(numbers[i]);
	}  // end for

	cout << bag;
	cout << "isEmpty: returns " << boolalpha << bag.isEmpty() << "; should be 0 (false)" << endl;
	cout << "getCurrentSize: returns " << bag.getCurrentSize() << "; should be 6" << endl;
	cout << "Try to add another entry: add(\"extra\") returns " << bag.add(string("extra")) << endl;
	cout << "contains(\"three\"): returns " << boolalpha << bag.contains(string("three")) << "; should be 1 (true)" << endl;
	cout << "contains(\"ten\"): returns " << bag.contains(string("ten")) << "; should be 0 (false)" << endl;
	cout << "getFrequencyOf(\"one\"): returns " << bag.getFrequencyOf(string("one")) << " should be 2" << endl;
	cout << "remove(\"one\"): returns " << boolalpha << bag.remove(string("one")) << "; should be 1 (true)" << endl;
	cout << "getFrequencyOf(\"one\"): returns " << bag.getFrequencyOf(string("one")) << " should be 1" << endl;
	cout << "remove(\"one\"): returns " << boolalpha << bag.remove(string("one")) << "; should be 1 (true)" << endl;
	cout << "remove(\"one\"): returns " << boolalpha << bag.remove(string("one")) << "; should be 0 (false)" << endl;
	cout << endl;

	cout << bag;

	cout << "After clearing the bag, ";
	bag.clear();

	cout << "isEmpty: returns " << bag.isEmpty() << "; should be 1 (true)" << endl;
}  // end bagTester
Exemple #2
0
LinkedBag<ItemType> LinkedBag<ItemType>::trueDifference(const LinkedBag& input) const{
	// make a new LinkedBag that will hold the difference
	LinkedBag<ItemType> theDiff;
	// traverse the existing linked list
	Node<ItemType>* callerPtr = headPtr;
	Node<ItemType>* paramPtr = input.headPtr;
	int callerCount = 0;
	int inputCount = 0; 
	int diff = 0;
	int diffCount = 0;
	while (callerPtr != nullptr)
	{
		while(paramPtr != nullptr){
		// compare item entries
			if(callerPtr->getItem() == paramPtr->getItem()){
				//check to see if already in difference
				diffCount = theDiff.getFrequencyOf(callerPtr->getItem());
				// if already in difference, break
				if(diffCount > 0)
					break; 
				callerCount = getFrequencyOf(callerPtr->getItem());
				//cout<<"callerCount is: "<<callerCount<<endl;
				inputCount = input.getFrequencyOf(paramPtr->getItem());
				//cout<<"inputCount is: "<<inputCount<<endl; 
				diff = callerCount - inputCount;
				//cout<<"diff is: "<<diff<<endl;
				if (diff < 0)
					diff = 0; 
				if (diff > 0){
					for(int i=0; i<diff; i++)
						theDiff.add(callerPtr->getItem());
				}
				break;
	
			}		
			//if we get to the end of input and don't find it.
			if(paramPtr->getNext() == nullptr){ 
				// items are not equivalent. 
				//add to difference
				theDiff.add(callerPtr->getItem());
				break;
			}
		//advance to next item in paramPtr
		paramPtr = paramPtr->getNext();
		}
	//reset paramPtr
	paramPtr = input.headPtr;
	//advance to next item in callerPtr
	callerPtr = callerPtr->getNext();

	}
return theDiff; 
}
Exemple #3
0
LinkedBag<ItemType> LinkedBag<ItemType>::trueIntersect(const LinkedBag& input) const{
	// make a new LinkedBag that will hold the intersect
	LinkedBag<ItemType> theIntersect;
	// traverse the existing linked list
	Node<ItemType>* callerPtr = headPtr;
	Node<ItemType>* paramPtr = input.headPtr;
	int callerCount = 0;
	int inputCount = 0; 
	int intersect = 0;
	int sectCount = 0;
	while (callerPtr != nullptr)
	{
		//cout<<"caller: "<<callerPtr->getItem()<<endl;
		while(paramPtr != nullptr){
		// compare item entries
		//cout<<"input: "<<paramPtr->getItem()<<endl;
			if(callerPtr->getItem() == paramPtr->getItem()){ //if there's a match
			//check to see if already in intersect
				sectCount = theIntersect.getFrequencyOf(callerPtr->getItem());
				// if already in difference, break
				if(sectCount > 0)
					break; 
				callerCount = getFrequencyOf(callerPtr->getItem());
				//cout<<"callerCount is: "<<callerCount<<endl;
				inputCount = input.getFrequencyOf(paramPtr->getItem());
				//cout<<"inputCount is: "<<inputCount<<endl; 
				if(callerCount < inputCount) 
					intersect = callerCount;
				else if (inputCount < callerCount)
					intersect = inputCount;
				else
					// they're the same
					intersect = inputCount;
				//add to intersect
				for(int i=0; i<intersect; i++)
					theIntersect.add(callerPtr->getItem());
				// stop looking for this value 
				paramPtr = paramPtr->getNext();
				break; 
			}
			//advance to next item in paramPtr
			paramPtr = paramPtr->getNext();
		}
	//reset paramPtr
	paramPtr = input.headPtr;
	//advance to next item in callerPtr
	callerPtr = callerPtr->getNext();
	}
return theIntersect; 
}