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I have three classes. Each creates an array of 1000 int values.

  • class a: uses QuickSort
  • class b: uses QuickSort until the size of each partition is <10 then executes InsertSort for sorting the smaller partitions.
  • class c: (this is the one I'm having trouble with): same as class b except executes InsertSort on the whole almost sorted array.

It would seem that class c is only a slight variation of the code in class b (which basically adds to class a). I just don't really know HOW to make this happen... Help! Thanks in advanced...

Class a:

import java.util.Arrays;
import java.util.Random;

public class QuickSort {

private static final Random random = new Random();
private static final int RANDOM_INT_RANGE = 9999;

private static int[] randomArray(int size) {

    // Randomize data (array)
    final int[] arr = new int[size];
    for (int i = 0; i < arr.length; i++) {
        arr[i] = random.nextInt(RANDOM_INT_RANGE);
    }
    return arr;
}

// Sort
private static void sort(int[] arr) {
    if (arr.length > 0)
        sortInPlace(arr, 0, arr.length - 1);
}

private static void sortInPlace(int[] arr, int left, int right) {

    if (left >= right)
        return; // sorted

    final int range = right - left + 1;
    int pivot = random.nextInt(range) + left;

    int newPivot = partition(arr, left, right, pivot);

    sortInPlace(arr, left, newPivot - 1);
    sortInPlace(arr, newPivot + 1, right);

}

private static int partition(int[] arr, int left, int right, int pivot) {

    int pivotVal = arr[pivot];
    swapArrayVals(arr, pivot, right);

    int storeIndex = left;
    for (int i = left; i <= (right - 1); i++) {
        if (arr[i] < pivotVal) {
            swapArrayVals(arr, i, storeIndex);
            storeIndex++;
        }
    }

    swapArrayVals(arr, storeIndex, right);

    return storeIndex;
}

private static void swapArrayVals(int[] arr, int from, int to) {
    int fromVal = arr[from];
    int toVal = arr[to];
    arr[from] = toVal;
    arr[to] = fromVal;
}

public static void main(String[] args) {

    long StartTime = System.nanoTime();

    // Array size
    int[] arr = randomArray(1000);
    int[] copy = Arrays.copyOf(arr, arr.length);

    // Print original data (array)
    System.out.println("The starting/unsorted array: \n"
            + Arrays.toString(arr));

    sort(arr);

    // check the result
    Arrays.sort(copy);
    if (Arrays.equals(arr, copy)) {
        System.out.println("The ending/sorted array: \n"
                + Arrays.toString(arr));

        // print time
        long TotalTime = System.nanoTime() - StartTime;
        System.out.println("Total elapsed time (milliseconds) " + "is: "
                + TotalTime);
    }

}
}

Class b:

import java.util.Arrays;
import java.util.Random;

public class OptQSort1 {
private static final Random random = new Random();
private static final int RANDOM_INT_RANGE = 9999;

private static int[] randomArray(int size) {

    // Randomize data (array)
    final int[] arr = new int[size];
    for (int i = 0; i < arr.length; i++) {
        arr[i] = random.nextInt(RANDOM_INT_RANGE);
    }
    return arr;
}

// Sort
private static void sort(int[] arr) {
    if (arr.length > 0)
        sortInPlace(arr, 0, arr.length - 1);
}

private static void sortInPlace(int[] arr, int left, int right) {

    boolean insertionSortCalled = false;

    // OptQSort1:
    int size = right - left + 1;
    if (size < 10 && !insertionSortCalled) {
        insertionSortCalled = true;
        insertionSort(arr, 0, arr.length - 1);
    }

    if (left >= right)
        return; // sorted

    final int range = right - left + 1;
    int pivot = random.nextInt(range) + left;

    int newPivot = partition(arr, left, right, pivot);

    sortInPlace(arr, left, newPivot - 1);
    sortInPlace(arr, newPivot + 1, right);

}

private static int partition(int[] arr, int left, int right, int pivot) {

    int pivotVal = arr[pivot];
    swapArrayVals(arr, pivot, right);

    int storeIndex = left;
    for (int i = left; i <= (right - 1); i++) {
        if (arr[i] < pivotVal) {
            swapArrayVals(arr, i, storeIndex);
            storeIndex++;
        }
    }

    swapArrayVals(arr, storeIndex, right);

    return storeIndex;
}

private static void swapArrayVals(int[] arr, int from, int to) {
    int fromVal = arr[from];
    int toVal = arr[to];
    arr[from] = toVal;
    arr[to] = fromVal;
}

public static void insertionSort(int[] arr, int left, int right) {
    int in, out;

    for (out = left + 1; out <= right; out++) {
        int temp = arr[out];
        in = out;

        while (in > left && arr[in - 1] >= temp) {
            arr[in] = arr[in - 1];
            --in;
        }
        arr[in] = temp;
    }

}

public static void main(String[] args) {

    long StartTime = System.nanoTime();

    // Array size
    int[] arr = randomArray(1000);
    int[] copy = Arrays.copyOf(arr, arr.length);

    // Print original data (array)
    System.out.println("The starting/unsorted array: \n"
            + Arrays.toString(arr));

    sort(arr);

    // check the result
    Arrays.sort(copy);
    if (Arrays.equals(arr, copy)) {
        System.out.println("The ending/sorted array: \n"
                + Arrays.toString(arr));

        // print time
        long TotalTime = System.nanoTime() - StartTime;
        System.out.println("Total elapsed time (milliseconds) " + "is: "
                + TotalTime);
    }
}

}

Class c:

import java.util.Arrays;
import java.util.Random;

public class OptQSort2 {

private static final Random random = new Random();
private static final int RANDOM_INT_RANGE = 9999;

private static int[] randomArray(int size) {

    // Randomize data (array)
    final int[] arr = new int[size];
    for (int i = 0; i < arr.length; i++) {
        arr[i] = random.nextInt(RANDOM_INT_RANGE);
    }
    return arr;
}

// Sort
private static void sort(int[] arr) {
    if (arr.length > 0)
        sortInPlace(arr, 0, arr.length - 1);
    insertionSort(arr, 0, arr.length - 1);
}

private static void sortInPlace(int[] arr, int left, int right) {

    // OptQSort2:
    int size = right - left + 1;

    if (size < 10)
        return;

    if (left >= right)
        return; // sorted

    final int range = right - left + 1;
    int pivot = random.nextInt(range) + left;

    int newPivot = partition(arr, left, right, pivot);

    sortInPlace(arr, left, newPivot - 1);
    sortInPlace(arr, newPivot + 1, right);

}

private static int partition(int[] arr, int left, int right, int pivot) {

    int pivotVal = arr[pivot];
    swapArrayVals(arr, pivot, right);

    int storeIndex = left;
    for (int i = left; i <= (right - 1); i++) {
        if (arr[i] < pivotVal) {
            swapArrayVals(arr, i, storeIndex);
            storeIndex++;
        }
    }

    swapArrayVals(arr, storeIndex, right);

    return storeIndex;
}

private static void swapArrayVals(int[] arr, int from, int to) {
    int fromVal = arr[from];
    int toVal = arr[to];
    arr[from] = toVal;
    arr[to] = fromVal;
}

public static void insertionSort(int[] arr, int left, int right) {
    int in, out;

    for (out = left + 1; out <= right; out++) {
        int temp = arr[out];
        in = out;

        while (in > left && arr[in - 1] >= temp) {
            arr[in] = arr[in - 1];
            --in;
        }
        arr[in] = temp;
    }

}

public static void main(String[] args) {

    // Start the clock
    long StartTime = System.nanoTime();

    // Array size
    int[] arr = randomArray(1000);
    int[] copy = Arrays.copyOf(arr, arr.length);

    // Print original data (array)
    System.out.println("The starting/unsorted array: \n"
            + Arrays.toString(arr));

    sort(arr);

    // check the result
    Arrays.sort(copy);
    if (Arrays.equals(arr, copy)) {
        System.out.println("The ending/sorted array: \n"
                + Arrays.toString(arr));

        // print time
        long TotalTime = System.nanoTime() - StartTime;
        System.out.println("Total elapsed time (milliseconds) " + "is: "
                + TotalTime);
    }
}

}
share|improve this question

2 Answers 2

up vote 1 down vote accepted

To create class c copy class b and then change it in the following way: Add instance variable insertionSortCalled so you don't call insertion sort multiple times in different recursive calls

 boolean insertionSortCalled= false;

And change this part to the following: insertionSort(arr, 0, arr.length-1);

private static void sortInPlace(int[] arr, int left, int right) {

// OptQSort1:
int size = right - left + 1;
**if (size < 10 && !insertionSortCalled){**
      **insertionSortCalled=true;**
      **insertionSort(arr, 0, arr.length-1);**
  }

if (left >= right)
    return; // sorted

final int range = right - left + 1;
int pivot = random.nextInt(range) + left;

int newPivot = partition(arr, left, right, pivot);

sortInPlace(arr, left, newPivot - 1);
sortInPlace(arr, newPivot + 1, right);

}

share|improve this answer
    
I just reposted my classes... Thank you for the response. Please let me know if I'm still not on track! –  javaNewb37 Dec 4 '11 at 17:19
    
I am sorry I wasn't precise. By change class b i meant: In order to create class c change class b etc... Also boolean insertionSortCalled must be declared at class level not in the method. The easiest way check if you are on track is run a test to check if array is sorted. A simple for loop comparing if element[i]>= element[i-1] would suffice. –  Mr1159pm Dec 4 '11 at 20:09
    
Uh oh.. Read that wrong! So basically I just have class b & c swapped? But if I'm understanding correctly I also need to declare insertionSortCalled (currently in class c, but really needs to be class b) at the class level - making it static? –  javaNewb37 Dec 4 '11 at 20:35

You're saying that class c just implements insertion-sort, with no quick-sort at all, right?

Then in principle, class c could just be class b, with this line:

    sort(arr);

changed to this:

    insertionSort(arr, 0, arr.length);

(And then you'd want to start stripping out a lot of code — removing methods that are never called, modifying the insertionSort method to assume that left is 0 and right is arr.length rather than requiring them to be specified, renaming the insertionSort method to sort, etc.)

By the way, class c is actually much easier than the classes you've already managed to create. You probably just need to get some sleep. You'll have no problem with it in the morning. :-)

share|improve this answer
    
Thanks for the response! You're probably right about the sleep... ha To clarify though- my specific requirements state the following: "execute quick sort until partition's size gets lower than a given cutoff value [I chose 10], then execute insert sort on the whole 'almost sorted' array." I read that as I still need to use quick sort but then instead of using insert sort on each of the partitions (as done in b) use it on the whole array? Maybe I am just tired... –  javaNewb37 Dec 4 '11 at 6:18
    
@javaNewb37: Now understanding the requirement for class c, and having now looked more closely at what class B is doing . . . in class B, you call insertionSort in two places: once in sortInPlace, and once in sort. For class B, you shouldn't be calling it in sort. (If you find that you need to call it in sort (that is, that the result isn't sorted otherwise), then that means you have a bug in either sortInPlace or partition.) Conversely, for class C, you shouldn't be calling it in sortInPlace: if sortInPlace finds that its partition-size is less than 10, then it should just –  ruakh Dec 4 '11 at 15:25
    
return, and let sort's final call to insertionSort handle everything. –  ruakh Dec 4 '11 at 15:26
1  
By the way, your logic for setting StartTime, FinishTime, and TotalTime is wrong. You need to set them all inside main; as it is now, they all get set before main even runs! –  ruakh Dec 4 '11 at 15:27
    
Thank you for the responses @ruakh! I really appreciate your input. I think I considered all of your comments in my corrections. (especially the bit about start/finish time... WOW! I must have been more tired than I thought!) Thanks again! –  javaNewb37 Dec 4 '11 at 17:20

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