int main(void)
{
int randomArray[MAX_ARRAY];
int randomNum,i;
int* compares;
int* moves;
int comNum = 0;
int moveNum = 0;
compares = &comNum;
moves = &moveNum;
//Randomize the array
srand((unsigned int)time(NULL));
for(i=0;i<MAX_ARRAY;i++){
randomNum = (rand() % (7500+1 - 0))+0;
randomArray[i] = randomNum;
}//end for
//Heap Sorting
sortHeap(randomArray,MAX_ARRAY-1,compares,moves);
if(MAX_ARRAY == 100)
printArray(randomArray);
printf("\nArray Size: %d\n",MAX_ARRAY);
printf("random list heapSort: compares = %d moves = %d\n",*compares,*moves);
makeNearSort(randomArray);
sortHeap(randomArray,MAX_ARRAY-1,compares,moves);
printf("nearly ordered heapSort: compares = %d moves = %d\n\n",*compares,*moves);
//Shell Sorting
sortShell(randomArray,MAX_ARRAY-1,compares,moves);
if(MAX_ARRAY == 100)
printArray(randomArray);
printf("\nArray Size: %d\n",MAX_ARRAY);
printf("random list shellSort: compares = %d moves = %d\n",*compares,*moves);
makeNearSort(randomArray);
sortShell(randomArray,MAX_ARRAY-1,compares,moves);
printf("nearly ordered shellSort: compares = %d moves = %d\n\n",*compares,*moves);
//Quick Sorting
*compares = 0;
*moves = 0;
sortQuick(randomArray,0,MAX_ARRAY-1,compares,moves);
if(MAX_ARRAY == 100)
printArray(randomArray);
printf("\nArray Size: %d\n",MAX_ARRAY);
printf("random list quickSort: compares = %d moves = %d\n",*compares,*moves);
makeNearSort(randomArray);
*compares = 0;
*moves = 0;
sortQuick(randomArray,0,MAX_ARRAY-1,compares,moves);
printf("nearly ordered quickSort: compares = %d moves = %d\n\n",*compares,*moves);
printf("The most efficient sort for a large, random list is: \n"); //NOT DONE YET
printf("The most efficient sort for a large, nearly ordered list is: \n");
printf("The most efficient sort for a small, random list is: \n");
printf("The most efficient sort for a small, nearly ordered list is: \n");
return 0;
}
void TestHeap::testCase1() {
int ia[9] = {0,1,2,3,4,8,9,3,5};
Vector<int> ivec(ia, ia+9);
makeHeap(ivec.begin(), ivec.end());
for(int i=0; i<ivec.size(); ++i)
std::cout << ivec[i] << ' ';
// 9 5 8 3 4 0 2 3 1
std::cout << std::endl;
ivec.push_back(7);
pushHeap(ivec.begin(), ivec.end());
for(int i=0; i<ivec.size(); ++i)
std::cout << ivec[i] << ' ';
// 9 7 8 3 5 0 2 3 1 4
std::cout << std::endl;
popHeap(ivec.begin(), ivec.end());
std::cout << ivec.back() << std::endl;
// 9. return but no remove.
ivec.pop_back();
// remove last elem and no return
for(int i=0; i<ivec.size(); ++i)
std::cout << ivec[i] << ' ';
std::cout << std::endl;
// 8 7 4 3 5 0 2 3 1
sortHeap(ivec.begin(), ivec.end());
for(int i=0; i<ivec.size(); ++i)
std::cout << ivec[i] << ' ';
// 0 1 2 3 3 4 5 7 8
std::cout << std::endl;
std::cout << "case1 passed" << std::endl;
}
int main(int argc, const char * argv[])
{
TYPE task1;
TYPE task2;
TYPE task3;
TYPE task4;
TYPE task5;
TYPE task6;
TYPE task7;
TYPE task8;
TYPE task9;
TYPE task10;
DynArr *mainList;
mainList = createDynArr(10);
/* create tasks */
task1 = createTask(9, "task 1");
task2 = createTask(3, "task 2");
task3 = createTask(2, "task 3");
task4 = createTask(4, "task 4");
task5 = createTask(5, "task 5");
task6 = createTask(7, "task 6");
task7 = createTask(8, "task 7");
task8 = createTask(6, "task 8");
task9 = createTask(1, "task 9");
task10 = createTask(0, "task 10");
/* add tasks to the dynamic array */
addHeap(mainList, task1, compare);
addHeap(mainList, task2, compare);
addHeap(mainList, task3, compare);
addHeap(mainList, task4, compare);
addHeap(mainList, task5, compare);
addHeap(mainList, task6, compare);
addHeap(mainList, task7, compare);
addHeap(mainList, task8, compare);
addHeap(mainList, task9, compare);
addHeap(mainList, task10, compare);
printf("Before Sort Called \n");
printDynArr(mainList, print_type);
/* sort tasks */
sortHeap(mainList, compare);
printf("After Sort Called \n");
/* print sorted tasks from the dynamic array */
printDynArr(mainList, print_type);
return 0;
}
/* Print the list
param: heap pointer to the list
pre: the list is not empty
post: The tasks from the list are printed out in priority order.
The tasks are not removed from the list.
*/
void printList(DynArr *heap)
{
/* FIXME: Write this */
struct DynArr *toPrint = createDynArr(sizeDynArr(heap));
copyDynArr(heap, toPrint);
int i, max = sizeDynArr(toPrint);
sortHeap(toPrint);
// call print_type() on each node
for(i = 0; i < max; i++)
print_type(getDynArr(toPrint, i));
deleteList(toPrint);
}
int main (int argc, const char * argv[])
{
TYPE task1, task2, task3, task4, task5, task6, task7, task8, task9, task10;
DynArr mainList;
int i;
initDynArr(&mainList, 10);
/* create tasks */
task1 = createTask(9, "task 1");
task2 = createTask(3, "task 2");
task3 = createTask(2, "task 3");
task4 = createTask(4, "task 4");
task5 = createTask(5, "task 5");
task6 = createTask(7, "task 6");
task7 = createTask(8, "task 7");
task8 = createTask(6, "task 8");
task9 = createTask(1, "task 9");
task10 = createTask(0, "task 10");
/* add tasks to the dynamic array */
addDynArr(&mainList, task1);
addDynArr(&mainList, task2);
addDynArr(&mainList, task3);
addDynArr(&mainList, task4);
addDynArr(&mainList, task5);
addDynArr(&mainList, task6);
addDynArr(&mainList, task7);
addDynArr(&mainList, task8);
addDynArr(&mainList, task9);
addDynArr(&mainList, task10);
/* sort tasks */
sortHeap(&mainList);
/* print sorted tasks from the dynamic array */
for (i = 0; i < mainList.size; i++)
{
printf("%d\n", mainList.data[i].priority);
}
printList(&mainList);
return 0;
}
heapElement binaryHeap<heapElement>::sortHeap(int index) {
int l = left(index);
int r = right(index);
int length = size();
// if there are no more childnodes, swap the value at the current index with the value at
// end of the array, sort the value at the current index then remove and return the
// last array element (the minimum element)
if (length <= l) {
heapElement value = heap[swap(index, length) - 1];
bubble(index);
heap.pop_back();
return value;
}
// if the right node is in range and less then the left node then swap
// the child with the right node, otherwise swap with the left
sortHeap(swap(index, length > r && lt(r,l) ? r : l ));
}
/* Print the list
param: heap pointer to the list
pre: the list is not empty
post: The tasks from the list are printed out in priority order.
The tasks are not removed from the list.
*/
void printList(DynArr *heap)
{
assert(sizeDynArr(heap) > 0);
DynArr *tempList; // temp list for sorting
Task *tempTask; // temp task pointer
int i;
tempList = malloc(sizeof(sizeDynArr(heap)));
copyDynArr(heap, tempList);
sortHeap(tempList);
// iterate through sorted array and print tasks
printf("\nYour list sorted by priority:\n");
for(i = sizeDynArr(tempList) - 1; i >= 0; i--) {
tempTask = getDynArr(tempList, i);
printf("%d.\t%s\n", tempTask->priority, tempTask->description);
}
printf("\n");
}
/* Print the list
param: heap pointer to the list
pre: the list is not empty
post: The tasks from the list are printed out in priority order.
The tasks are not removed from the list.
*/
void printList(DynArr *heap)
{
/* FIXME: Write this */
/* unable to effectively print in sorted order w/ tempArray, the following code is w/ help from tutor Dustin Castor */
assert(sizeDynArr(heap) > 0);
/* sort and print in reverse in order that priority order is maintained */
sortHeap(heap);
int i;
int fin = sizeDynArr(heap)-1; /* last element */
for (i = fin; i >= 0; i--)
{
print_type(getDynArr(heap, i));
}
/* rebuild to a heap from sorted array */
_buildHeap(heap);
}
void heapsort(Vector& data)
{
buildMaxHeap(data); // std::make_heap(data.begin(), data.end());
sortHeap(data); // std::sort_heap(data.begin(), data.end());
}
int main(int argc, const char * argv[])
{
Task *task1, *task2, *task3, *task4, *task5, *task6, *task7, *task8, *task9, *task10;
Task *task11, *task12, *task13, *task14, *task15, *task16, *task17, *task18, *task19, *task20;
DynArr *mainList;
int i;
mainList = createDynArr(10);
/* create tasks */
task1 = createTask(9, "task 1");
task2 = createTask(3, "task 2");
task3 = createTask(2, "task 3");
task4 = createTask(4, "task 4");
task5 = createTask(5, "task 5");
task6 = createTask(7, "task 6");
task7 = createTask(8, "task 7");
task8 = createTask(6, "task 8");
task9 = createTask(1, "task 9");
task10 = createTask(10, "task 10");
task11 = createTask(19, "task 11");
task12 = createTask(13, "task 12");
task13 = createTask(12, "task 13");
task14 = createTask(14, "task 14");
task15 = createTask(15, "task 15");
task16 = createTask(17, "task 16");
task17 = createTask(18, "task 17");
task18 = createTask(16, "task 18");
task19 = createTask(3, "task 19");
task20 = createTask(110, "task 20");
/* add tasks to the dynamic array */
addHeap(mainList, task1);
addHeap(mainList, task2);
addHeap(mainList, task3);
addHeap(mainList, task4);
addHeap(mainList, task5);
addHeap(mainList, task6);
addHeap(mainList, task7);
addHeap(mainList, task8);
addHeap(mainList, task9);
addHeap(mainList, task10);
addHeap(mainList, task11);
addHeap(mainList, task12);
addHeap(mainList, task13);
addHeap(mainList, task14);
addHeap(mainList, task15);
addHeap(mainList, task16);
addHeap(mainList, task17);
addHeap(mainList, task18);
addHeap(mainList, task19);
addHeap(mainList, task20);
#ifdef TESTHEAP
printf("Print heap\n");
for(i = 0; i < sizeDynArr(mainList);i++)
print_type(getDynArr(mainList,i));
while(!isEmptyDynArr(mainList))
{
TYPE v;
v = getMinHeap(mainList);
printf("Removing: ");
print_type(v);
removeMinHeap(mainList);
for(i = 0; i < sizeDynArr(mainList);i++)
print_type(getDynArr(mainList,i));
}
#endif
#ifdef TESTSORT
printf("Before Sort Called \n");
for(i = 0; i < sizeDynArr(mainList);i++)
printf("DynArr[%d] = %d\n", i, ((Task*)getDynArr(mainList,i))->priority);
/* sort tasks */
sortHeap(mainList);
printf("After Sort Called \n");
/* print sorted tasks from the dynamic array */
for(i = 0; i < sizeDynArr(mainList);i++)
printf("DynArr[%d] = %d\n", i, ((Task*)getDynArr(mainList,i))->priority);
return 0;
#endif
}
heapElement binaryHeap<heapElement>::pop (int index) { sortHeap(index + 1); };
int main(int argc, const char * argv[])
{
Task *task1, *task2, *task3, *task4, *task5, *task6, *task7, *task8, *task9, *task10;
DynArr *mainList;
int i;
mainList = createDynArr(10);
/* create tasks */
task1 = createTask(9, "task 1");
task2 = createTask(3, "task 2");
task3 = createTask(2, "task 3");
task4 = createTask(4, "task 4");
task5 = createTask(5, "task 5");
task6 = createTask(7, "task 6");
task7 = createTask(8, "task 7");
task8 = createTask(6, "task 8");
task9 = createTask(1, "task 9");
task10 = createTask(0, "task 10");
/* add tasks to the dynamic array */
addHeap(mainList, task1);
addHeap(mainList, task2);
addHeap(mainList, task3);
addHeap(mainList, task4);
addHeap(mainList, task5);
addHeap(mainList, task6);
addHeap(mainList, task7);
addHeap(mainList, task8);
addHeap(mainList, task9);
addHeap(mainList, task10);
#ifdef TESTHEAP
for(i = 0; i < sizeDynArr(mainList);i++)
printf("DynArr[%d] = %d\n", i, getDynArr(mainList,i).priority);
while(!isEmptyDynArr(mainList))
{
TYPE v;
v = getMinHeap(mainList);
printf("Val = %s ___%d\n", v->description, v->priority);
removeMinHeap(mainList);
}
#endif
#ifdef TESTSORT
printf("Before Sort Called \n");
for(i = 0; i < sizeDynArr(mainList);i++)
printf("DynArr[%d] = %d\n", i, ((Task*)getDynArr(mainList,i))->priority);
/* sort tasks */
sortHeap(mainList);
printf("After Sort Called \n");
/* print sorted tasks from the dynamic array */
for(i = 0; i < sizeDynArr(mainList);i++)
printf("DynArr[%d] = %d\n", i, ((Task*)getDynArr(mainList,i))->priority);
return 0;
#endif
}
int main() {
struct task task1, task2, task3, task4, task5, task6, task7, task8, task9, task10;
struct DynArr taskList;
initDynArr(&taskList, 10);
/* create tasks */
task1 = createTask(10, "Clean house");
task2 = createTask(6, "Eat dinner");
task3 = createTask(2, "Do laundry");
task4 = createTask(4, "Do dishes");
task5 = createTask(5, "Grocery shopping");
task6 = createTask(7, "Change oil");
task7 = createTask(13, "Do taxes");
task8 = createTask(8, "Sleep");
task9 = createTask(1, "Do other homework");
task10 = createTask(0, "Finish heap homework");
/* add tasks to the dynamic array */
addHeap(&taskList, task1);
addHeap(&taskList, task2);
addHeap(&taskList, task3);
addHeap(&taskList, task4);
addHeap(&taskList, task5);
addHeap(&taskList, task6);
addHeap(&taskList, task7);
addHeap(&taskList, task8);
addHeap(&taskList, task9);
addHeap(&taskList, task10);
printf("Beginning testing... \n");
/* Should print: heap size: 10 */
printf("heap size: %d \n", sizeDynArr(&taskList));
/* Should print - Priority: 0 - Description: Finish heap homework */
printTask(getMinHeap(&taskList));
/* Remove top node from head */
removeMinHeap(&taskList);
/* Should print - Priority: 1 - Do other homework */
printTask(getMinHeap(&taskList));
int i;
printf("printing heap... \n");
/* Should print - 1 2 6 4 5 7 13 10 8 9 */
for(i = 0; i <sizeDynArr(&taskList);i++) {
printf("%d ", getDynArr(&taskList, i).priority);
}
printf("\n");
/* Sort heap */
sortHeap(&taskList);
printf("printing sorted heap... \n");
/* Should print (without descriptions) : 1, 2, 4, 5, 6, 7, 8, 10, 13 */
/*Not sure how to both print "Priority: 1 - Do Other homework" like you asked
above and in this order ascending, using the same function.
Doesn't really make sense.*/
for (i = 0; i < taskList.size; i++) {
printTask(getDynArr(&taskList, i));
}
printf("\n");
return 0;
}
