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Recently I have been reading up on some of the flaws with the Java substring method - specifically relating to memory, and how java keeps a reference to the original string. Ironically I am also developing a server application that uses C# .Net's implementation of substring many tens of times in a second. That got me thinking...

  1. Are there memory issues with the C# (.Net) string.Substring?
  2. What is the performance like on string.Substring? Is there a faster way to split a string based on start/end position?
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8  
50 times per minute hardly seems like a heavy load to me. Hundreds to thousands of times per second would be intense, but once every second and a bit? –  jball Nov 8 '10 at 2:38
    
@jball: Right now its about once a second, but as the server load increases, so does the usage of substring. –  caesay Nov 8 '10 at 2:42
2  
The point isn't that CPU usage would be high - if it's a server application that's running for many days and calling Substring on long strings, it could still 'leak' an awful lot of memory over that time if .NET suffers from the same problem. –  Peter Nov 8 '10 at 2:45
2  
@Tommy, it was your second question about a faster way to get a substring that I was commenting on. A memory leak is a problem worth looking out for, but a core framework operation like .Substring should probably be assumed to be performant until you see actual slowdowns that you then track down to that operation. –  jball Nov 8 '10 at 3:14
1  
This question was answered by Eric Lippert himself: stackoverflow.com/questions/2473816/… –  Mikhail Jan 22 '11 at 17:48

9 Answers 9

up vote 16 down vote accepted

Looking at .NET's implementation of String.Substring, a substring does not share memory with the original.

private unsafe string InternalSubString(int startIndex, int length, bool fAlwaysCopy)
{
    if (((startIndex == 0) && (length == this.Length)) && !fAlwaysCopy)
    {
        return this;
    }

    // Allocate new (separate) string
    string str = FastAllocateString(length);

    // Copy chars from old string to new string
    fixed (char* chRef = &str.m_firstChar)
    {
        fixed (char* chRef2 = &this.m_firstChar)
        {
            wstrcpy(chRef, chRef2 + startIndex, length);
        }
    }
    return str;
}
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1  
If it doesn't share memory with the original, then you're saying that the GC /will/ in fact collect the original strings, and wont leak memory? –  caesay Nov 8 '10 at 2:54
5  
Unless you maintain a reference to the original string, yes, it will be garbage collected. –  Snarfblam Nov 8 '10 at 2:57
3  
Unless it is in the String Intern pool. –  Yuriy Faktorovich Nov 8 '10 at 17:42
1  
Indeed. (reference: msdn.microsoft.com/en-us/library/system.string.intern.aspx.) But that does generally mean that the string is either a literal from compile time or that you went out of your way to intern the string. –  Snarfblam Nov 8 '10 at 19:11
1  
I am looking for the opposite, a substring that shares memory with original (for speed). –  richard Dec 10 '12 at 22:22

Every time you use substring you create a new string instance - it has to copy the character from the old string to the new, along with the associated new memory allocation — and don't forget that these are unicode characters. This may or not be a bad thing - at some point you want to use these characters somewhere anyway. Depending on what you're doing, you might want your own method that merely finds the proper indexes within the string that you can then use later.

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it is always good to try it out & measure the elapsed milliseconds.

Stopwatch watch = new Stopwatch();
watch.Start();
// run string.Substirng code
watch.Stop();
watch.ElapsedMilliseconds();
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Thankyou! this is very useful! –  caesay Nov 8 '10 at 2:39
1  
Not that useful for GC related performance issues. –  CodesInChaos Nov 8 '10 at 11:55
    
was using ANTS Profiler for gc related issues. wondering is there any better option? –  jebberwocky Nov 9 '10 at 6:14

In the case of the Java memory leak one may experience when using subString, it's easily fixed by instantiating a new String object with the copy constructor (that is a call of the form "new String(String)"). By using that you can discard all references to the original (and in the case that this is actually an issue, rather large) String, and maintain only the parts of it you need in memory.

Not ideal, in theory the JVM could be more clever and compress the String object (as was suggested above), but this gets the job done with what we have now.

As for C#, as has been said, this problem doesn't exist.

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Just to add another perspective on this.

Out of memory (most times) does not mean you've used up all the memory. It means that your memory has been fragmented and the next time you want to allocate a chunk the system is unable to find a contiguous chunk of memory to fit your needs.

Frequent allocations/deallocations will cause memory fragmentation. The GC may not be in a position to de-fragment in time sue to the kinds of operations you do. I know the Server GC in .NET is pretty good about de-fragmenting memory but you could always starve (preventing the GC from doing a collect) the system by writing bad code.

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1  
I don't see any way you could prevent the GC from collecting. Collection occurs when the GC sees that there is too much "memory pressure", but iirc this check is performed when an allocation occurs, so you can't allocate memory without giving the GC the opportunity to collect (iirc, all threads will be suspended while the collection occurs). –  Snarfblam Nov 8 '10 at 17:24

The CLR (hence C#'s) implementation of Substring does not retain a reference to the source string, so it does not have the "memory leak" problem of Java strings.

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most of these type of string issues are because String is immutable. The StringBuilder class is intended for when you are doing a lot of string manipulations:

http://msdn.microsoft.com/en-us/library/2839d5h5(VS.71).aspx

Note that the real issue is memory allocation rather than CPU, although excessive memory alloc does take CPU...

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I seem to recall that the strings in Java were stored as the actual characters along with a start and length.

This means that a substring string can share the same characters (since they're immutable) and only have to maintain a separate start and length.

So I'm not entirely certain what your memory issues are with the Java strings.


Regarding that article posted in your edit, it seems a bit of a non-issue to me.

Unless you're in the habit of making huge strings, then taking a small substring of them and leaving those lying around, this will have near-zero impact on memory.

Even if you had a 10M string and you made 400 substrings, you're only using that 10M for the underlying char array - it's not making 400 copies of that substring. The only memory impact is the start/length bit of each substring object.

The author seems to be complaining that they read a huge string into memory then only wanted a bit of it, but the entire thing was kept - my suggestion would be they they might want to rethink how they process their data :-)

To call this a Java bug is a huge stretch as well. A bug is something that doesn't work to specification. This was a deliberate design decision to improve performance, running out of memory because you don't understand how things work is not a bug, IMNSHO. And it's definitely not a memory leak.


There was one possible good suggestion in the comments to that article, that the GC could more aggressively recover bits of unused strings by compressing them.

This is not something you'd want to do on a first pass GC since it would be relatively expensive. However, where every other GC operation had failed to reclaim enough space, you could do it.

Unfortunately it would almost certainly mean that the underlying char array would need to keep a record of all the string objects that referenced it, so it could both figure out what bits were unused and modify all the string object start and length fields.

This in itself may introduce unacceptable performance impacts and, on top of that, if your memory is so short for this to be a problem, you may not even be able to allocate enough space for a smaller version of the string.

I think, if the memory's running out, I'd probably prefer not to be maintaining this char-array-to-string mapping to make this level of GC possible, instead I would prefer that memory to be used for my strings.


Since there is a perfectly acceptable workaround, and good coders should know about the foibles of their language of choice, I suspect the author is right - it won't be fixed.

Not because the Java developers are too lazy, but because it's not a problem.

You're free to implement your own string methods which match the C# ones (which don't share the underlying data except in certain limited scenarios). This will fix your memory problems but at the cost of a performance hit, since you have to copy the data every time you call substring. As with most things in IT (and life), it's a trade-off.

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I have to disagree with the statement "running out of memory because you don't know how things work is not a bug". The documentation for substring states: Returns a new string that is a substring of this string. It gives no hint that that the returned string is pinning the original string in memory. So the docs should either clearly state the actual behavior or this "optimization" should be eschewed. It's your pick - either the docs is flawed or the implementation is. Developers shouldn't have to examine the internal implementation of such methods understand how to use them correctly. –  LBushkin Nov 15 '10 at 21:53

For profiling memory while developing you can use this code:

bool forceFullCollection = false;

Int64 valTotalMemoryBefore = System.GC.GetTotalMemory(forceFullCollection);

//call String.Substring

Int64 valTotalMemoryAfter = System.GC.GetTotalMemory(forceFullCollection);

Int64 valDifferenceMemorySize = valTotalMemoryAfter - valTotalMemoryBefore;

About parameter forceFullCollection: "If the forceFullCollection parameter is true, this method waits a short interval before returning while the system collects garbage and finalizes objects. The duration of the interval is an internally specified limit determined by the number of garbage collection cycles completed and the change in the amount of memory recovered between cycles. The garbage collector does not guarantee that all inaccessible memory is collected." GC.GetTotalMemory Method

Good luck!;)

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