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In order to improve its performance, I have been profiling one of my applications with the VisualVM sampler, using the minimum sampling period of 20ms. According to the profiler, the main thread spends almost a quarter of its CPU time in the DecimalFormat.format() method.

I am using DecimalFormat.format() with the 0.000000 pattern to "convert" double numbers to a string representation with exactly six decimal digits. I know that this method is relatively expensive and it is called a lot of times, but I was still somewhat surprised by these results.

  1. To what degree are the results of such a sampling profiler accurate? How would I go about verifying them - preferrably without resorting to an instrumenting profiler?

  2. Is there a faster alternative to DecimalFormat for my use case? Would it make sense to roll out my own NumberFormat subclass?

UPDATE:

I created a micro-benchmark to compare the performance of the following three methods:

  • DecimalFormat.format(): Single DecimalFormat object reused multiple times.

  • String.format(): Multiple independent calls. Internally this method boils down to

    public static String format(String format, Object ... args) {
        return new Formatter().format(format, args).toString();
    }
    

    Therefore I expected its performance to be very similar to Formatter.format().

  • Formatter.format(): Single Formatter object reused multiple times.

    This method is slightly awkward - Formatter objects created with the default constructor append all strings created by the format() method to an internal StringBuilder object, which is not properly accessible and therefore cannot be cleared. As a consequence, multiple calls to format() will create a concatenation of all resulting strings.

    To work around this issue, I provided my own StringBuilder instance that I cleared before use with a setLength(0) call.

The results where interesting:

  • DecimalFormat.format() was the baseline at 1.4us per call.
  • String.format() was slower by a factor of two at 2.7us per call.
  • Formatter.format() was also slower by a factor of two at 2.5us per call.

Right now it looks that DecimalFormat.format() is still the fastest among these alternatives.

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3 Answers 3

up vote 7 down vote accepted

You can write your own routine given you know exactly what you want.

public static void appendTo6(StringBuilder builder, double d) {
    if (d < 0) {
        builder.append('-');
        d = -d;
    }
    long scaled = (long) (d * 1e6 + 0.5);
    long factor = 1000000;
    int scale = 7;
    while (factor * 10 <= scaled) {
        factor *= 10;
        scale++;
    }
    while (scale > 0) {
        if (scale == 6)
            builder.append('.');
        long c = scaled / factor % 10;
        factor /= 10;
        builder.append((char) ('0' + c));
        scale--;
    }
}

@Test
public void testCases() {
    for (String s : "-0.000001,0.000009,-0.000010,0.100000,1.100000,10.100000".split(",")) {
        double d = Double.parseDouble(s);
        StringBuilder sb = new StringBuilder();
        appendTo6(sb, d);
        assertEquals(s, sb.toString());
    }
}

public static void main(String[] args) {
    StringBuilder sb = new StringBuilder();
    long start = System.nanoTime();
    final int runs = 20000000;
    for (int i = 0; i < runs; i++) {
        appendTo6(sb, i * 1e-6);
        sb.setLength(0);
    }
    long time = System.nanoTime() - start;
    System.out.printf("Took %,d ns per append double%n", time / runs);
}

prints

Took 128 ns per append double

If you want even more performance you can write to a direct ByteBuffer (assuming you want to write the data somewhere) so the data you produce does need to be copied or encoded. (Assuming that is ok)

NOTE: this is limited to positive/negative values of less than 9 trillion (Long.MAX_VALUE/1e6) You can add special handling if this might be an issue.

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2  
+1 I was about to write something myself - this piece of code could be a nice starting point. –  thkala Dec 18 '11 at 23:07
1  
I finally wrote a formatter using my own algorithm and it's about four times faster than DecimalFormat for the functionality subset that I need. I believe that there is still room for improvement, since I did not actually go down to the level of appending individual digits. I'll accept this answer since it is the only one that contains usable code. –  thkala Dec 19 '11 at 14:41
    
Great job Peter. I have reused your code to create fast double and even twiece faster String (containing double value) formatter. –  dantuch Aug 26 '12 at 10:12
    
@dantuch using this approach you can reduce or even eliminate any garbage produced. –  Peter Lawrey Aug 26 '12 at 10:19
1  
I use a similar form write to a direct ByteBuffer which is re-usable and writeable directly to an NIO channel. I do the reverse to read data from such a buffer which means it can read/write text to/from double without creating any objects such as Strings. github.com/peter-lawrey/Java-Chronicle/blob/master/src/main/… –  Peter Lawrey Aug 26 '12 at 13:32

Maybe your program doesn't do much intensive work and so this appears to do the most - crunching some numbers.

My point is that your results are still relative to your app.

Put a timer around each DecimalFormatter.format() and see how many millis you are using to get a clearer picture.

But if you're still worried about it, here is an article you might like:
http://onjava.com/pub/a/onjava/2000/12/15/formatting_doubles.html

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+1 for the article link - I'll probably have to write my own formatter implementation. –  thkala Dec 18 '11 at 23:09

An alternative would be to use the string Formatter, give it a try to see if it performs better:

String.format("%.6f", 1.23456789)

Or even better, create a single formatter and reuse it - as long as there are no multithreading issues, since formatters are not necessarily safe for multithreaded access:

Formatter formatter = new Formatter();
// presumably, the formatter would be called multiple times
System.out.println(formatter.format("%.6f", 1.23456789));
formatter.close();
share|improve this answer
    
re-using would be good but formatters are not thread safe so you'd have to check whether this particular formatter can handle multiple threads (as for instance in a web application) –  extraneon Dec 18 '11 at 18:36
    
@extraneon thanks for the comment, I edited my answer accordingly. –  Óscar López Dec 18 '11 at 18:51
    
Both String.format() and Formatter.format() appear to be slower than DecimalFormat.format(). I suspect it's because the pattern string has to be parsed each and every time. Formatter.format() is also harder to reuse - see my edit for details. –  thkala Dec 18 '11 at 21:00

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