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# Java backtracking problem

i want to build a sorting method to sort array "4,2,7,5,1" into "1,2,4,5,7" my current code is

``````public static Node<Integer> sort_it(int[] arr, int fst, int last, Node<Integer> part_soln)

{
if (fst>last)
return part_soln; // return a sorted list
else {
for (int row=0; row<=last; row++)
{
if (!exists(arr[row],part_soln) && ((arr[row]<=part_soln.getItem())||part_soln==null))
{
Node<Integer> new_soln = new Node<Integer>(row,part_soln);
Node<Integer> ret=sort_it(arr,fst++,last,new_soln);
if(ret!=null)
return ret;
}
}
return null;
}
}
``````

what is wrong

-
Your formatting, for starters :-) – user166390 Oct 25 '10 at 1:47
Use plain English variable names for readability, e.g. "first" instead of "fst", "array" instead of "arr", etc. We're not writing in C here. ;-) – Andrew Swan Oct 25 '10 at 2:43

First thing I see is that when you called the recursive method, you used `fst++` instead of `++fst`.

-
As for the logic, anything is wrong? – user454578 Oct 25 '10 at 2:10
fst++ would result in an infinite loop because fst has not yet been incremented when you call the method. – irrelephant Oct 25 '10 at 2:24

If this isn't homework, then you should be using Arrays.sort(int[]) to sort ints in Java.

-
this is homework, i just keep getting bugs...and a bit desperate now – user454578 Oct 25 '10 at 2:27
Don't Panic. Put the code into Eclipse and use the debugger. You'll find the problem in 5 minutes. It will be better for your next assignments for you to figure out how to use the tools and solve the problem yourself. – James Branigan Oct 25 '10 at 2:56

You can use the pre-existing sorting methods, and rely on the natural ordering of `Integer` (or any other type). All you need to do is write a forwarding `compareTo` method (implementing `Comparable`) for `Node` that checks if the generic argument implements `'Comparable'` and then forwards the method call to `compareTo` of the stored object.

You store the value as a field, and then just use the normal 'instanceof' check to check that `Comparable` is implemented, cast to `Comparable` and then just call that method. Easy. Now, you can use `Arrays.sort(nodearray)` where `nodearray` is an array of `Node<?>`. Is that what you were after? :)

The sort algorithm is a tuned quicksort.

As another poster mentioned, if you have an array of `int` or `Integer`, you can use an `Arrays.sort(..)` method directly, but we need to forward the call due to the encapsulation in the `Node` class.

Implementation of quicksort from Arrays.java (you can modify this):

``````    1   /*
2    *  Licensed to the Apache Software Foundation (ASF) under one or more
3    *  contributor license agreements.  See the NOTICE file distributed with
5    *  The ASF licenses this file to You under the Apache License, Version 2.0
6    *  (the "License"); you may not use this file except in compliance with
7    *  the License.  You may obtain a copy of the License at
8    *
10    *
11    *  Unless required by applicable law or agreed to in writing, software
13    *  WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
14    *  See the License for the specific language governing permissions and
15    *  limitations under the License.
16    */

2390       private static void sort(int start, int end, int[] array) {
2391           int temp;
2392           int length = end - start;
2393           if (length < 7) {
2394               for (int i = start + 1; i < end; i++) {
2395                   for (int j = i; j > start && array[j - 1] > array[j]; j--) {
2396                       temp = array[j];
2397                       array[j] = array[j - 1];
2398                       array[j - 1] = temp;
2399                   }
2400               }
2401               return;
2402           }
2403           int middle = (start + end) / 2;
2404           if (length > 7) {
2405               int bottom = start;
2406               int top = end - 1;
2407               if (length > 40) {
2408                   length /= 8;
2409                   bottom = med3(array, bottom, bottom + length, bottom
2410                           + (2 * length));
2411                   middle = med3(array, middle - length, middle, middle + length);
2412                   top = med3(array, top - (2 * length), top - length, top);
2413               }
2414               middle = med3(array, bottom, middle, top);
2415           }
2416           int partionValue = array[middle];
2417           int a, b, c, d;
2418           a = b = start;
2419           c = d = end - 1;
2420           while (true) {
2421               while (b <= c && array[b] <= partionValue) {
2422                   if (array[b] == partionValue) {
2423                       temp = array[a];
2424                       array[a++] = array[b];
2425                       array[b] = temp;
2426                   }
2427                   b++;
2428               }
2429               while (c >= b && array[c] >= partionValue) {
2430                   if (array[c] == partionValue) {
2431                       temp = array[c];
2432                       array[c] = array[d];
2433                       array[d--] = temp;
2434                   }
2435                   c--;
2436               }
2437               if (b > c) {
2438                   break;
2439               }
2440               temp = array[b];
2441               array[b++] = array[c];
2442               array[c--] = temp;
2443           }
2444           length = a - start < b - a ? a - start : b - a;
2445           int l = start;
2446           int h = b - length;
2447           while (length-- > 0) {
2448               temp = array[l];
2449               array[l++] = array[h];
2450               array[h++] = temp;
2451           }
2452           length = d - c < end - 1 - d ? d - c : end - 1 - d;
2453           l = b;
2454           h = end - length;
2455           while (length-- > 0) {
2456               temp = array[l];
2457               array[l++] = array[h];
2458               array[h++] = temp;
2459           }
2460           if ((length = b - a) > 0) {
2461               sort(start, start + length, array);
2462           }
2463           if ((length = d - c) > 0) {
2464               sort(end - length, end, array);
2465           }
2466       }
``````
-
hi this is homework, i need to get the logic right – user454578 Oct 25 '10 at 2:28