Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a file with a little over a million lines.

 {<uri::rdfserver#null> <uri::d41d8cd98f00b204e9800998ecf8427e> <uri::TickerDailyPriceVolume> "693702"^^<xsd:long>}
 {<uri::rdfserver#null> <uri::d41d8cd98f00b204e9800998ecf8427e> <uri::TickerDailyPriceId> <uri::20fb8f7d-30ef-dd11-a78d-001f29e570a8>}

Each line is a statement.

struct Statement
    string C;
    string S;
    string P;
    string O;
    string T;

Currently I'm using a TextReader in a while loop and parsing each line with a regular expression:

Regex lineParse = new Regex(@"[^<|\""]*\w[^>\""]*", RegexOptions.Singleline | RegexOptions.Compiled);

It takes quite awhile to do this parsing and I'm hoping someone can point me to a more efficient parsing strategy.

Some lines have 5 matchs and some 4. Here is how each line is parsed:

{<uri::rdfserver#null> <uri::d41d8cd98f00b204e9800998ecf8427e> <uri::TickerDailyPriceVolume> "693702"^^<xsd:long>}

Statement()
    C = uri::rdfserver#null
    S = uri::d41d8cd98f00b204e9800998ecf8427e
    P = uri::TickerDailyPriceVolume
    O = 693702
    T = xsd:long

{<uri::rdfserver#null> <uri::d41d8cd98f00b204e9800998ecf8427e> <uri::TickerDailyPriceId> <uri::20fb8f7d-30ef-dd11-a78d-001f29e570a8>}

Statement()
    C = uri::rdfserver#null
    S = uri::d41d8cd98f00b204e9800998ecf8427e
    P = uri::TickerDailyPriceId
    O = uri::20fb8f7d-30ef-dd11-a78d-001f29e570a8
share|improve this question
    
The poor performance I was seeing is actually due to a conditional breakpoint that I had set in the code. Without that breakpoint everything is pretty fast. Still if anyone has any improvement ideas I would be interested :) –  spoon16 Feb 4 '09 at 23:33
    
you might what to add that info to your post, so people know your not looking for speed anymore. –  Nathan W Feb 4 '09 at 23:38
    
I still am looking for speed, it's just that the regex I posted isn't necessarily as slow as I thought it was. –  spoon16 Feb 5 '09 at 0:10
    
I'd be interested to know how your approach compares to those offered by @sixlettervariables. I would expect the Split approach to be noticeably faster. –  Alan Moore Feb 5 '09 at 0:47
    
By the way, in this character class - [^<|\""] - you don't need the pipe or the backslash. The OR is implied, and double-quotes in C# verbatim strings are escaped by doubling them, which you've already done. –  Alan Moore Feb 5 '09 at 0:52
add comment

4 Answers 4

up vote 17 down vote accepted

The fastest (as shown below) is a simple string split:

line.Split(new char[] { '{', '<', '>', '}', ' ', '^', '"' },
           StringSplitOptions.RemoveEmptyEntries);

The next fastest is an anchored regular expression (ugly):

Regex lineParse
    = new Regex(@"^\{(<([^>]+)>\s*){3,4}(""([^""]+)""\^\^<([^>]+)>\s*)?\}$",
                RegexOptions.Compiled);
Match m = lineParse.Match(line);
if (m.Groups[2].Captures.Count == 3)
{
    Data data = new Data { C = m.Groups[2].Captures[0].Value,
        S = m.Groups[2].Captures[1].Value, P = m.Groups[2].Captures[2].Value,
        O = m.Groups[4].Value, T = m.Groups[5].Value };
} else {
    Data data = new Data { C = m.Groups[2].Captures[0].Value,
        S = m.Groups[2].Captures[1].Value, P = m.Groups[2].Captures[2].Value,
        O = m.Groups[2].Captures[3].Value, T = String.Empty };
}

Timings for 1M lines of random data (String.Split as the baseline):

Method                #1  Wall ( Diff)     #2  Wall ( Diff)
------------------------------------------------------------
line.Split                3.6s (1.00x)         3.1s (1.00x)
myRegex.Match             5.1s (1.43x)         3.3s (1.10x)
itDependsRegex.Matches    6.8s (1.85x)         4.4s (1.44x)
stateMachine              8.4s (2.34x)         5.6s (1.82x)
alanM.Matches             9.1s (2.52x)         7.8s (2.56x)
yourRegex.Matches        18.3s (5.06x)        12.1s (1.82x)

Updated to include @AlanM and @itdepends regular expressions. It appears that Regex.Matches is slower than Regex.Match, however, the more context clues you give the parser, the better it performs. The single negative character class used by @AlanM is the simplest to read, yet slower than the most cryptic (mine). Hats off to @itdepends for the simplest regex that produces the fastest time. Ok, and while I thought it would be crazy to write a state machine to parse the line, it actually doesn't perform poorly at all...kudos to @RexM for the suggestion. I've also added times from my Q6600 at home (#2) v. an older Xeon at work (#1).

share|improve this answer
    
Thank you for turning this into a really good post. –  it depends Feb 5 '09 at 5:00
    
really great answer –  spoon16 Feb 5 '09 at 10:21
add comment

Sometimes a state machine is significantly faster than a Regex.

share|improve this answer
    
+1, I was going to scoff at your answer, until I wrote it up myself. It isn't the worst, nor is it the best. Surprisingly decent for the amount of work required... –  user7116 Feb 5 '09 at 4:12
    
Since regex's are just a special case of a state-machine, with the right optimizations, you should be able to beat any regex engine. –  Eclipse Feb 5 '09 at 5:00
add comment

After some testing I came up with:

@"<(?<capture>[^>]+)>|""(?<capture>[^""]+)"""

The value needs to be acessed with match.Groups[1].Value.

In my unscientific test it was around 75-80% faster then the one in the original question.

Match vs Matches

In production I usually use Match, but used Matches for the above. I've never really considered the performance implications so did a little testing, so with exactly the same regex:

for(Match match = regex.Match(input); match.Success; match = match.NextMatch())
// min 5.01 sec
// max 5.15 sec

foreach(Match match in regex.Matches(input))
// min 5.66 sec
// max 6.07 sec

So Match certainly can be faster than Matches.

share|improve this answer
    
Added timing for yours to mine, shaves roughly 3s from OP's regex –  user7116 Feb 5 '09 at 0:15
    
+1, I think it is a combination of backtracking and context provided in the regular expression. The angle brackets give your regex context that just a negative character class would not give. –  user7116 Feb 5 '09 at 15:54
add comment

As far as I can see, the regexes that have been offered so far are much more complicated than they need to be. If @sixlettervariables' Split approach works, Matches should work with this regex:

@"[^{}<> ^""]+"

But I would still expect the String.Split approach to be faster.

share|improve this answer
    
On average 9.1s, I wonder if .Matches is just slower? –  user7116 Feb 5 '09 at 3:37
    
I think what makes String.Split faster is that it doesn't use regexes. Try it with Regex.Split. –  Alan Moore Feb 5 '09 at 4:20
    
Oh, I see you're talking about Matches vs. Match performance. But you're only doing one match for each line, and your regex has virtually no backtracking opportunities. All the others have to perform several matches per line. –  Alan Moore Feb 5 '09 at 4:36
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.