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I just ran into a very interesting issue when someone posted a jsperf benchmark that conflicted with a previous, nearly identical, benchmark I ran.

Chrome does something drastically different between these two lines:

new Array(99999);  // jsperf ~50,000 ops/sec
new Array(100000); // jsperf ~1,700,000 ops/sec


I was wondering if anyone has any clue as to what's going on here!

(To clarify, I'm looking for some low-level details on the V8 internals, such as it's using a different data structure with one vs the other and what those structures are)

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what if you do the tests in the opposite order? – Cole Jul 15 '11 at 18:19
maby it's becouse its a number more and that it handles numbers of 6 digites diferent? – beardhatcode Jul 15 '11 at 18:19
@Cole - same thing – zyklus Jul 15 '11 at 18:21
@gar_onn: probably not. – Ken Bloom Jul 15 '11 at 18:24
2¹⁶ + 2¹⁵ = 0x18000 = 98304. – leftaroundabout Jul 16 '11 at 10:06
up vote 52 down vote accepted

Just because this sounded pretty interesting, I searched through the V8 codebase for a static defined as 100000, and I found this kInitialMaxFastElementArray var, which is the subsequently used in the builtin ArrayConstructInitializeElements function function. While I'm not a c programmer and don't know the nitty-gritty here, you can see that it's using an if loop to determine if it's smaller than 100,000, and returning at different points based on that.

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Thank you :) What it looks like to me is that Chrome is actually doing a pointer memory-allocation for all arrays < 100,000 whereas it's not allocating anything >= 100,000. This makes sense in the benchmarks because the declaration only is far faster, but then using that array is slower than using the 99,999 array. – zyklus Jul 15 '11 at 18:46
Very cool and random thing to know. Thanks for looking into it :) – Paulpro Aug 8 '11 at 4:26
@eykanal Sadly, the links are dead. – Domi Jan 4 '14 at 18:05
@Domi - Updated. – eykanal Jan 5 '14 at 16:48

Well, there always is some threshold number when you design algorithms that adapt to the size of data (for example SharePoint changes the way it works when you add 1000 items to a list). So, the guess would be that you have found the actual number and the performance differs, as different data structures or algorithms are used.

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Yeah, I'm wondering what chrome is doing internally – zyklus Jul 15 '11 at 18:21

I don't know what operating system you're using, but if this is Linux, I'd suspect that Chrome (i.e. malloc) is allocating memory from a program-managed heap (size determined using the sbrk system call, and the free lists are managed by the C standard library), but when you reach a certain size threshold, it switches to using mmap to ask the kernel to allocate large chunks of memory that don't interfere with the sbrk-managed heap.

Doug Lea describes how malloc works in the GNU C Library, better than I could. He wrote it.

Or maybe 100000 hits some kind of magic threshold for the amount of space needed that it triggers the garbage collector more frequently when trying to allocate memory.

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