19

When I have a String that I need to concatenate a single char to its end, should I prefer s = .... + ']' over s = .... + "]" for any performance reason?

I know array string joining and of String builders, and I am NOT asking for suggestions on how to concatenate strings in general.

I also know some of would have the urge to explain to me about premature optimizations and that in general I should not bother with such minor stuff, please don't...

I am asking because from a coding style preference I would prefer to use the later, but it feels to me that the first one should perform marginally better because knowing that what is being appended is just a single char there is no need for any internal looping going over this single char as there might be when copying a single character string.

Update

As @Scheintod wrote this is indeed a theoretical Q and has to do more with my desire to better understand how java works and less with any real life "lets save another microsecond" scenario... maybe I should have said that more clearly.

I like understanding the way things work "behind the scenes" And I find that it can sometime help me create better code...

The truth - I was not thinking about compiler optimizations at all...

I would not have expected the JIT to use StringBuilders instead of Strings for me... Because I (possibly wrongly) think of String builders as being "heavier" then Strings on one hand but faster at building and modifying the strings on the other hand. So I would assume that in some cases using StringBuilders would be even less efficient then using stings... (if that was not the case then the entire String class should have had its implementation changed to be such as that of a StringBuilder and use some internal representation for actual immutable strings... - or is that what the JIT is sort of doing? - assuming that for the general case it would probably be better not to let the developer choose... )

If it Does change my code to such a degree then maybe My Q should have been at that level asking if its is appropriate for the JIT to do something like this and would it be better if it used.

maybe I should start looking at compiled byte code... [I will need to learn how to do that in java ...]

As a side note and example of why I would even consider looking at bytecode - have a look at a quite old blog post of mine about Optimizing Actionscript 2.0 - a bytecode perspective - Part I it shows that knowing what your code compiles into indeed can help you write better code.

  • 1
    Why don't you try and benchmark this? – André Stannek Jul 21 '14 at 7:19
  • 2
    The character is implicitly converted to string before joining, there is no difference. You are really calling for a "premature optimization" answer but you don't want us to tell you that... – Stefano Sanfilippo Jul 21 '14 at 7:21
  • @Orion runtime parsing of strings what? – Stefano Sanfilippo Jul 21 '14 at 7:22
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    upvoted this because I think this is an interesting theoretical question. I see why the author don't want to get practical advice for this. – Scheintod Jul 21 '14 at 7:45
  • I think the answer would involve some code which the compiler (?) generates of either alternative and would dig into the circumstances when this matters. Providing us with some deeper insights in how java works. – Scheintod Jul 21 '14 at 7:48
21

Besides profiling this we have another possibility to get some insights. I want to focus on the possible speed differences and not on the things which remove them again.

So lets start with this Test class:

public class Test {

    // Do not optimize this
    public static volatile String A = "A String";

    public static void main( String [] args ) throws Exception {

        String a1 = A + "B";

        String a2 = A + 'B';

        a1.equals( a2 );

    }

}

I compiled this with javac Test.java (using javac -v: javac 1.7.0_55)

Using javap -c Test.class we get:

Compiled from "Test.java"
public class Test {
  public static volatile java.lang.String A;

  public Test();
    Code:
       0: aload_0
       1: invokespecial #1                  // Method java/lang/Object."<init>":()V
       4: return

  public static void main(java.lang.String[]) throws java.lang.Exception;
    Code:
       0: new           #2                  // class java/lang/StringBuilder
       3: dup
       4: invokespecial #3                  // Method java/lang/StringBuilder."<init>":()V
       7: getstatic     #4                  // Field A:Ljava/lang/String;
      10: invokevirtual #5                  // Method java/lang/StringBuilder.append:(Ljava/lang/String;)Ljava/lang/StringBuilder;
      13: ldc           #6                  // String B
      15: invokevirtual #5                  // Method java/lang/StringBuilder.append:(Ljava/lang/String;)Ljava/lang/StringBuilder;
      18: invokevirtual #7                  // Method java/lang/StringBuilder.toString:()Ljava/lang/String;
      21: astore_1
      22: new           #2                  // class java/lang/StringBuilder
      25: dup
      26: invokespecial #3                  // Method java/lang/StringBuilder."<init>":()V
      29: getstatic     #4                  // Field A:Ljava/lang/String;
      32: invokevirtual #5                  // Method java/lang/StringBuilder.append:(Ljava/lang/String;)Ljava/lang/StringBuilder;
      35: bipush        66
      37: invokevirtual #8                  // Method java/lang/StringBuilder.append:(C)Ljava/lang/StringBuilder;
      40: invokevirtual #7                  // Method java/lang/StringBuilder.toString:()Ljava/lang/String;
      43: astore_2
      44: aload_1
      45: aload_2
      46: invokevirtual #9                  // Method java/lang/String.equals:(Ljava/lang/Object;)Z
      49: pop
      50: return

  static {};
    Code:
       0: ldc           #10                 // String A String
       2: putstatic     #4                  // Field A:Ljava/lang/String;
       5: return
}

We can see, that there are two StringBuilders involved (Lines 4, 22 ). So the first thing we discover is, that using + to concat Strings is effectively the same as using StringBuilder.

The second thing we can see here is that the StringBuilders both are called twice. First for appending the volatile variable (Lines 10, 32) and the second time for appending the constant part (Lines 15, 37)

In case of A + "B" append is called with a Ljava/lang/String (a String) argument while in case of A + 'B' it is called with an C (a char) argument.

So the compile does not convert String to char but leaves it as it is*.

Now looking in AbstractStringBuilder which contains the methods used we have:

public AbstractStringBuilder append(char c) {
    ensureCapacityInternal(count + 1);
    value[count++] = c;
    return this;
}

and

public AbstractStringBuilder append(String str) {
    if (str == null) str = "null";
    int len = str.length();
    ensureCapacityInternal(count + len);
    str.getChars(0, len, value, count);
    count += len;
    return this;
}

as the methods actually called.

The most expensive operations here is certainly ensureCapacity but only in case the limit is reached (it does an array copy of the old StringBuffers char[] into a new one). So this is true for both and makes no real difference.

As one can see there are numerous other operations which are done but the real distinction is between value[count++] = c; and str.getChars(0, len, value, count);

If we look in to getChars we see, that it all boils down to one System.arrayCopy which is used here to copy the String to the Buffer's array plus some checks and additional method calls vs. one single array access.

So I would say in theory using A + "B" is much slower than using A + 'B'.

I think in real execution it is slower, too. But to determine this we need to benchmark.

EDIT: Of cause this is all before the JIT does it's magic. See Stephen C's answer for that.

EDIT2: I've been looking at the bytecode which eclipse's compiler generated and it's nearly identical. So at least these two compilers don't differ in the outcome.

EDIT2: AND NOW THE FUN PART

The Benchmarks. This result is generated by running Loops 0..100M for a+'B' and a+"B" few times after a warmup:

a+"B": 5096 ms
a+'B': 4569 ms
a+'B': 4384 ms
a+"B": 5502 ms
a+"B": 5395 ms
a+'B': 4833 ms
a+'B': 4601 ms
a+"B": 5090 ms
a+"B": 4766 ms
a+'B': 4362 ms
a+'B': 4249 ms
a+"B": 5142 ms
a+"B": 5022 ms
a+'B': 4643 ms
a+'B': 5222 ms
a+"B": 5322 ms

averageing to:

a+'B': 4608ms
a+"B": 5167ms

So even in the real benchmark world of syntetic knowlege (hehe) a+'B' is about 10% faster than a+"B"...

... at least (disclaimer) on my system with my compiler and my cpu and it's really no difference / not noticeable in real world programms. Except of cause you have a piece of code you run realy often and all your application perfomance depends on that. But then you would probably do things different in the first place.

EDIT4:

Thinking about it. This is the loop used to benchmark:

    start = System.currentTimeMillis();
    for( int i=0; i<RUNS; i++ ){
        a1 = a + 'B';
    }
    end = System.currentTimeMillis();
    System.out.println( "a+'B': " + (end-start) + " ms" );

so we're really not only benchmarking the one thing we care about but although java loop performance, object creation perfomance and assignment to variables performance. So the real speed difference may be even a little bigger.

  • Thanks. This is exactly the type of analysis I was looking for. However I am not sure how to read your last comment about the JIT... Does it refer to scenarios where the concatenation could be done before the compilation? or to anything else? would your analysis change much if the value for A was read from the console? – epeleg Jul 21 '14 at 9:08
  • how would you look at the bytecode generated by eclipse? – epeleg Jul 21 '14 at 9:09
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    Eclipse has it's own compiler. Normaly it's generated classes are put in some bin or build dir as configured in Project Settings -> Java Build Path -> Source -> Default output folder Using javap on it is the same as for the .class files generated by javac – Scheintod Jul 21 '14 at 9:12
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    jit: Many of the possible optimizations are not done while compiling but when running the code. As Java uses a hotspot jit nowadays they are only done where needed. To tell what exactly happens there (and what is possible) I'm the wrong person and I even don't know how to find out. There is a little about it: wikis.oracle.com/display/HotSpotInternals/PerformanceTechniques (and it's a good read anyway) – Scheintod Jul 21 '14 at 9:18
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    In Stephen C's anwer "intrinsic" means, that the jit can do something else than what's written there :) See this question: stackoverflow.com/questions/8526907/… If it really does this I don't know. – Scheintod Jul 21 '14 at 9:20
3

When I have a String that I need to concatenate a single char to its end, should I prefer s = .... + ']' over s = .... + "]" for any performance reason?

There are actually two questions here:

Q1: Is there a performance difference?

Answer: It depends ...

  • In some cases, possibly yes, depending on the JVM and/or the bytecode compiler. If the bytecode compiler generates a call to StringBuilder.append(char) rather than StringBuilder.append(String) then you would expect the former to be faster. But the JIT compiler could treat these methods as "intrinics" and optimize calls to append(String) with a one character (literal) string.

    In short, you would need to benchmark this on your platform to be sure.

  • In other cases, there is definitely no difference. For example, these two calls will be compiled identical bytecode sequences because the concatenation is a Constant Expression.

        System.out.println("234" + "]");
    
        System.out.println("234" + ']');
    

    This is guaranteed by the JLS.

Q2: Should you prefer one version over the other.

Answer:

  • In the general sense, this is likely to be a premature optimization. You should only prefer one form over the other for performance reasons if you have profiled your code at the application level and determined that the code snippet has a measurable impact on performance.

  • If you have profiled the code, then use the answer to Q1 as a guide.

    And if it was worth trying to optimize the snippet, then is essential that you rerun your benchmarking / profiling after optimizing, to see if it made any difference. Your intuition about what is fastest... and what you have read in some old article on the internet ... could be very wrong.

0

No! That is premature optimization, and a complete waste of your time. Prefer whichever you prefer, and use whichever works. Sometimes ']' won't promote to "]" automatically. I expect the JIT will optimize away any performance difference you think you measure. And in the cases where it works, it works because ']' was converted to "]" (in your example). Now, using a StringBuilder directly and append(char) might be slightly faster... but again, this difference won't be meaningful in any real application.

Edit

The best advice I can give you about performance is:

  1. Benchmark before you start making code changes (and try to limit yourself to areas where you are likely to have an impact through real critical-path identification) and
  2. If you can, stream a result instead of building a temporary String where possible (this will sometimes pay huge dividends with regards to memory usage and performance).
  • Simple String concatinations, like "Hello" + " " + "World" will get converted to a StringBuilder.append() Operation anyways. If you try out both, String + String and StringBuilder, the bytecode will use StringBuilder in both cases. – Korashen Jul 21 '14 at 7:36
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    Actually, "Hello" + " " + "World" will be compiled as "Hello World"; i.e. no concatenation at runtime. – Stephen C Jul 21 '14 at 7:40
  • @Korashen Actually, I was saying this method might be an iota faster. – Elliott Frisch Jul 21 '14 at 7:43
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    I think the OA has no practical problem and knows how StringBuilder works. I think it was a theoretical question. – Scheintod Jul 21 '14 at 7:49
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    @Korashen - And that helps to illustrate the folly of this kind of micro-optimization. (There are exceptions though; e.g. s += ... in a loop when s can get big.) – Stephen C Jul 21 '14 at 8:14

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