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In Java, I have a list of positive different numbers.

Each number is used as a key in hashsets IntIntHashSet fs and cs used in code below to retrieve some condition values. Then I check the condition (if statement) and if true, swap the elements.

int[] list = // given list of positive different ints like [14, 2, 7, 19, 20, 3]
int l = list.length;
if (l > 1) {
    int elI, elJ, fI, fJ, swap;
    for (int i = 0; i < l; i++) {
        boolean swapped = false;
        for (int j = 1; j < l; j++) {
            elI = list[j - 1];
            elJ = list[j];
            fI = fs.get(elI);
            fJ = fs.get(elJ);
            if (fI > fJ || (fI == fJ && cs.get(elI) > cs.get(elJ))) {
                swap = list[j];
                list[j] = list[j - 1];
                list[j - 1] = swap;
                swapped = true;
        if (!swapped) break;

It looks like a Bubble sort, though I'm not very sure. I'm writing a time-consuming program and this part should be optimized as well as possible.

The main question: will it be faster to use another sorting approach like QuickSort?

Second question: will it be faster to use xor swap method without a temporary variable swap?

[EDIT]: I might have a very long list containing thousands of numbers. The one above is simple due to example.

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2 Answers 2

up vote 1 down vote accepted

for partial sorted array and small set of data, bubble sort would be efficient way. quicksort would be efficient only for large(huge) sets of data. you seem to be implementing bubble sort, which would be sufficient for small sets of data.

check here for efficiency for different sorting algorithms.

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With Java, you don't know until you benchmarked and profiled it extensively.

Some code that works well for small sets might work worse for larger sets and the other way around. Depending on when it is optimized, and with which preconditions. It may recognize the way XOR can be encoded efficiently in machine code, or it may encode this differently. It might even vary between client and server VM.

As a matter of fact, the sort method for collections in Java was replaced from JDK 6 to JDK 7 (from IIRC Quicksort to TimSort, a hybrid in-place mergesort coming from Python IIRC).

Just these days I've been fighting a situation where one could logically just must be faster, but any benchmark showed the opposite, which can only be explained by JIT optimization being executed differently due to different hotspots. And the less efficient code apparently triggered a better optimization.

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