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I'm writing some special purpose data structures in Java, intended for use in the browser, (compiled to JavaScript with GWT).

I'm trying to match the performance of some of the built-in JDK classes I'm noticing things run reasonably fast, but when I compare my code trace to some of the emulated JDK code, mine has lots of calls to dynamicCast and canCastUnsafe, while the JDK emulated classes do not. And it just about accounts for the difference in performance too...

Any GWT gurus out there know how to avoid this? It's amounting to a 20% overhead :-(


Here's the profile output (captured in Firebug) for 10,000 insertions of random integers, between 0 and 100,000 into two different data structures:

Google's TreeMap implementation for java.util.TreeMap (a red-black tree):

Profile (4058.602ms, 687545 calls)
Function              Calls      Percent   Own Time
$insert_1             129809     41.87%    1699.367ms
$compare_0            120290     16%        649.209ms
$isRed                231166     13.33%     540.838ms
compareTo_0           120290      8.96%     363.531ms
$put_2                 10000      6.02%     244.493ms
wrapArray              10000      3.46%     140.478ms
createFromSeed         10000      2.91%     118.038ms
$TreeMap$Node          10000      2.38%      96.706ms   
initDim                10000      1.92%      77.735ms   
initValues             10000      1.49%      60.319ms   
$rotateSingle           5990      0.73%      29.55ms  
TreeMap$Node           10000      0.47%      18.92ms

My Code (An AVL tree):

Profile (5397.686ms, 898603 calls)
Function              Calls      Percent   Own Time
$insert               120899     25.06%    1352.827ms
$compare              120899     17.94%      968.17ms
dynamicCast           120899     14.12%     762.307ms <--------
$balanceTree          120418     13.64%     736.096ms
$setHeight            126764      8.93%     482.018ms
compareTo_0           120899      7.76%     418.716ms
canCastUnsafe         120899      6.99%     377.518ms <--------
$put                   10000      2.59%     139.936ms
$AVLTreeMap$Node        9519      1.04%      56.403ms   
$moveLeft               2367      0.36%      19.602ms   
AVLTreeMap$State        9999      0.36%      19.429ms   
$moveRight              2378      0.34%      18.295ms   
AVLTreeMap$Node         9519      0.34%      18.252ms   
$swingRight             1605      0.26%      14.261ms   
$swingLeft              1539      0.26%      13.856ms

Additional observations:

  • Same problem for another data structure I made (SkipList).
  • dynamicCast is being applied in the compare function:

    cmp = dynamicCast(right.key, 4).compareTo$(key);

  • dynamicCast goes away if the class does not implement Map (ie: just removing " implements Map" from the class. Doesn't matter if it's accessed through the interface or directly. This results in the same line compiling to:

    cmp = right.key.compareTo$(key);

This is the relevant section of Java source from SkipList:

private int compare(Node a, Object o) {
    if (comparator != null)
        return comparator.compare((K) a.key, (K) o);

    return ((Comparable<K>) a.key).compareTo((K) o);

public V get(Object k) {
    K key = (K) k;
    Node<K, V> current = head;

    for (int i = head.height - 1; i >= 0; i--) {
        Node<K, V> right;

        while ((right = current.right[i]) != null) {
            int cmp = compare(right, key);

share|improve this question
up vote 4 down vote accepted

Unfortunately I'm still not exactly clear on the cause, but from my experience, it seems from explicit casts, like:

((Comparable) obj).compareTo(other)

The Javascript generated looks like:

dynamicCast(obj, 1).compareTo(other);

Where 1 is a generated typeId representing the target of the cast. dynamicCast in turn calls canCastUnsafe and if false, it throws a ClassCastException. The value of this has been debated, since this would already be caught in hosted mode.

It can be sidestepped with JSNI:

public static native int compare(Object a, Object b) /*-{
    return a.@java.lang.Comparable::compareTo(Ljava/lang/Object;)(b); 
share|improve this answer

Dunno if you've seen this thread in the GWT Contributor's forum...

Basically, it starts with the same problem you've identified, proposes some new compiler flags, and goes on to show how to use some JSNI to get around the casts.

Edit In the GWT trunk there's a new compiler flag. See the wiki...

share|improve this answer
Coincendence, I found that thread yesterday, and that was actually my JSNI workaround that I came up with yesterday. – Mark Renouf Apr 1 '09 at 15:05

An updated answer for GWT version 2.1 and later:

Since GWT 2.1 (at least that's the first mention), the GWT compiler has a new compiler argument called -XdisableCastChecking that disables all runtime checking of casts. Note, this option is marked as experimental (probably because this would make class cast exceptions very hard to debug).

In my app dynamicCast was called thousands of times in a short profile run, and were the the 3rd most time consuming method in the Firebug profiler. Using this compiler argument significantly reduced the number of "Long Duration Events" messages in the Chrome Speed Tracer.

See GWT Compiler Options for this and other Compiler arguments.

share|improve this answer

It's definitely a compiler problem: I have the problem on the following line:

final DefaultIconedSuggestBox<SuggestValueProxy, IconedValueHolderItem<SuggestValueProxy>> fieldValueWidget = getCategoryWidget().getFieldValueWidget();

I don't really know how I can workaround it: this line happens in a moment I'm changing from a module to another (it is maybe related to the code splitter issue: even though I'm not using code split: I'm just loading another page with another module)

share|improve this answer

Does the use of java 1.5 generics and wildcards could avoid this ?

share|improve this answer
Actually I think it should, but doesn't... from what I've found out, it seems to be a shortcoming of the compiler. – Mark Renouf Apr 1 '09 at 15:02

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