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as part of the process of populating a search engine, I populate a Berekely-DB value-store as well. This process is repeated each night and at the moment +/- 60% of the total running time each night is caused by creating the values to be inserted into the value-store ( so excluding the actual insertion into Berekely-DB and the time caused by the Berekely client

These values are created by having a stringbuilder assigned to each key, and appending on average about 1000 strings to such a stringbuilder. The resulting values on average are about 10k. Im wondering if this can be done more effciently, given that: - the (on average) 1000 strings appended to each of the Stringbuilders are of fixed length: i.e: each String has the same length and this length is known up front) - all strings are appended to the end.

Would for example swapping out the stringbuilder for a char[] or characterStream / writer be more performant? That way I could keep and index where to write to in the char[].

Thanks, Geert-Jan

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Measure it and see; it looks like you have a fair idea of what to try. –  Carl Manaster Nov 17 '09 at 17:58
yeah, I think that's what I'll do. However memory restrictions are a concern as well, so I should have an adaptive strategy which doesn't create to big char-arrays when they're not needed. I'll try and see what I can come up with –  Geert-Jan Nov 17 '09 at 20:05
AFAIK, StringBuilders double their buffer whenever they run out. That's a pretty good strategy and hard to beat. Knowledge of a reasonable minimum bound of the size, though, would help you pre-size and thereby avoid some of those expansions. Good luck! –  Carl Smotricz Nov 18 '09 at 1:13

4 Answers 4

up vote 0 down vote accepted

Revision III:

If string concatenation in StringBuilders is taking inordinately long, perhaps your memory is very full. So our goal is to achieve string concatenation without chewing up a lot of memory. Hopefully the savings in CPU time will follow automatically.

My plan went like this: Instead of concatenating those substrings into a long StringBuilder, you could build a List of references to those (pre-existing) Strings. The list of references should be shorter than the sum of the substrings and thus consume less memory.

Only when it becomes time to store that big String do we concatenate the parts in one big StringBuilder, pull out the String, store the String, throw away the reference to the String, clear the StringBuilder, repeat. I felt this was a brilliant solution!

However, from this article from 2002, a String reference in an array, probably likewise in an ArrayList, takes a whopping 8 bytes! A recent StackOverflow post confirmed that this is still so. Thus, a list of references to 10-byte Strings saves only 2 bytes per String. Thus, I present my "solution" as a possibility for similar problems, but I don't see this particular problem being able to benefit from it.

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just noticed this, and you absolutely nailed my prolem.. GC all over the place was causing the problem...I actually already implemented the exact same thing you suggested, which in this case saves a lot, because the maps that hold the substrings already existed (and should as part of a different routine) Now only when it's time I'm building the String. Thanks –  Geert-Jan Nov 18 '09 at 19:22
I put a lot of thought into this problem and I'm glad it was not for naught. (wipes a tear from the corner of eye) I love happy endings! –  Carl Smotricz Nov 18 '09 at 19:37

You could create your stringbuilders with a higher initial capacity to reduce the amount of resizing, i.e. there's a constructor that allows you to say

int SIZE=10000;
StringBuilder b = new StringBuilder(SIZE);

I would expect that manually juggling char[] and indexes wouldn't improve much on this, as (I assume) that's what StringBuilder is already doing for you.

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This is all you need. You won´t get that much of a speedup if you do it with char arrays, because that´s exactly what StringBuilder does. +´ed –  glebm Nov 18 '09 at 14:35
yes setting initial size definitely helped as well. Thanks –  Geert-Jan Nov 18 '09 at 19:23

Where are these 1000 Strings coming from? I have trouble believing that the creation time for those 1000 objects doesn't completely dwarf the time needed for amortized expansion of your StringBuilder.

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given 1000 strings, each call below constitutes 1/3th of these strings. 1. agg.sb.append(sDur); 2. agg.sb.append(sermap.get(key)); 3. agg.sb.append(doc.sbs[durIndexDCToZero]); 1. created each innerloop based on a integer 2. lookup in a static map 3. lookup in a map created once per document. I measured the difference by only commenting-out these calls above, so the creation-time of the inserted strings themselves are not measured in the difference. –  Geert-Jan Nov 17 '09 at 20:03
Fair enough, thanks for the info! But look here: You have 333 object creations for your sDurs, whereas it only takes 10 object creations and copy operations to expand a StringBuilder from 16 to over 10,000 bytes. So unless I'm missing something, sDur creation alone should take about 30x as much time as string building. In any case, I second Steve B's suggestion, it certainly won't hurt! –  Carl Smotricz Nov 17 '09 at 20:12
thanks for your reasoning. I think it's a bit odd myself. I'll investigate further. –  Geert-Jan Nov 17 '09 at 22:17

You should give ropes a try. The site is skimpy on details, but there's a great article here with a better description and some good benchmarks comparing append performance.

I haven't actually used the ropes package, haven't had a good enough excuse to. Looks promising, though.

Edit: Additional benchmark info

I downloaded the PerformanceTest class from the ropes article, and added tests for StringBuilder in addition to StringBuffer. The performance improvement of StringBuilder seems negligible.

I downloaded the test code from the ropes article and changed the test to include StringBuilder and StringBuffer.

Append plan length: 260
[StringBuilder] Average=     117,146,000 ns Median=     114,717,000ns
[StringBuffer]  Average=     117,624,400 ns Median=     115,552,000ns
[Rope]          Average=         484,600 ns Median=         483,000ns

Append plan length: 300
[StringBuilder] Average=     178,329,000 ns Median=     178,009,000ns
[StringBuffer]  Average=     217,147,800 ns Median=     216,819,000ns
[Rope]          Average=         252,800 ns Median=         253,000ns

Append plan length: 500
[StringBuilder] Average=     221,356,200 ns Median=     214,435,000ns
[StringBuffer]  Average=     227,432,200 ns Median=     219,650,000ns
[Rope]          Average=         510,000 ns Median=         507,000ns

The difference between StringBuilder and StringBuffer isn't that great. For the task at hand, Ropes seem like a clear win here.

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Ropes performs well compared with String concatenation, which is no surprise at all; and better than StringBuffer, whose operations are synchronized. The IBM page doesn't show a comparison with StringBuilder, which was created specifically to overcome this problem. –  Carl Smotricz Nov 18 '09 at 8:37
According to the article, the performance gain of Ropes over StringBuffer was due mostly to the overhead of resizing/copying the backing char[] array in the StringBuffer as it grows. This same overhead applies to StringBuilder. –  Sam Barnum Nov 18 '09 at 15:13
@Carl Smotricz: If you follow Steve B's suggestion of setting a high initial capacity for your StringBuilders, I think StringBuilder would likely be faster than Ropes. If you have many buffer objects and aren't sure how large they may grow, Ropes sound like a perfect candidate for a job like this. –  Sam Barnum Nov 18 '09 at 15:18
There's another IBM Developer article on Ropes, by Ropes' author. It's dated 2008 but still doesn't include a performance comparison with StringBuilder. I wonder if this was intentional? I would have been interested to see the result but was unable to leave a comment to that effect. –  Carl Smotricz Nov 18 '09 at 19:52

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