I have a microbenchmark that shows very strange results:

@Warmup(iterations = 10, time = 1, timeUnit = TimeUnit.SECONDS, batchSize = 1000)
@Measurement(iterations = 40, time = 1, timeUnit = TimeUnit.SECONDS, batchSize = 1000)
public class Chaining {

    private String a1 = "111111111111111111111111";
    private String a2 = "222222222222222222222222";
    private String a3 = "333333333333333333333333";

    public String typicalChaining() {
        return new StringBuilder().append(a1).append(a2).append(a3).toString();

    public String noChaining() {
        StringBuilder sb = new StringBuilder();
        return sb.toString();

I'm expecting the results of both tests to be the same or at least very close. However, the difference is almost 5x:

# Run complete. Total time: 00:01:41

Benchmark                  Mode  Cnt      Score     Error  Units
Chaining.noChaining       thrpt   40   8538.236 ± 209.924  ops/s
Chaining.typicalChaining  thrpt   40  36729.523 ± 988.936  ops/s

Does anybody know how that is possible?

  • 1
    Perhaps it has an optimization rule for chained .append calls where it constructs the entire string at once? That would make a lot of sense.
    – user3079266
    Jun 2, 2017 at 17:17
  • @Mints97 shouldn't compiler do the same for regular sb.append() constructions? Jun 2, 2017 at 17:18
  • 3
    @JarrodRoberson my expectations are totally correct. Wouldn't you expect the same? It is almost identical code. Even chaining generates less bytecode. 5x difference? No way. Jun 2, 2017 at 17:27
  • It's interesting to note that if you run this with the JIT off, they work as you would expect. (-Djava.compiler=NONE, by the way). Results are close to identical for each benchmark (and much slower).
    – Todd
    Jun 2, 2017 at 17:56
  • 5
    "my expectations are totally correct" and yet the results were not what you expected. You and I have different definitions of "totally correct".
    – Lew Bloch
    Jun 2, 2017 at 20:32

1 Answer 1


String concatenation a + b + c is a very frequent pattern in Java programs, so HotSpot JVM has a special optimization for it: -XX:+OptimizeStringConcat which is ON by default.

HotSpot JVM recognizes new StringBuilder().append()...append().toString() pattern in the bytecode and translates it to the optimized machine code without calling actual Java methods and without allocating intermediate objects. I.e. this is a kind of compound JVM intrinsic.

Here is the source code for this optimization.

On the other side, sb.append(); sb.append(); ... is not handled specially. This sequence is compiled just like a regular Java method calls.

If you rerun the benchmark with -XX:-OptimizeStringConcat, the performance will be the same for both variants.


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