@Danack JIT is not supported at the moment. There are other instructions that aren't supported, in that case the engine just falls back to using the VM.
@IluTov think possibly there was misunderstanding. The match RFc is going to be passed. It doesn't need to be completed before the branching....but it would be nice. All RFCs that have been passed would be merged unless there was severe problems found.
@Danack Sure. But it will have to be feature complete and merged by August 4th (as that's the feature freeze)
@LeviMorrison Looking at zend_jit it does look like any failure to JITting a specific opcode of an oparray will stop JITting of that function entirely.
@cmb When I think 'vector' I expected it to be fully packed sequential indexes, whereas with the PHP array I don't. Equally for arrays I would expect it to either use the exact key I give it if its valid, or error out.
I think no matter how much you try it's not possible to adjust font/colour etc. of @@ to leave a smaller footprint than #[
#[ is just more elegant you cannot argue with it. @@ wins only because ppl have hope we can reduce one @ sooner or later, but it also can be later than later
@brzuchal I'm not sure either one is more elegant - that's rather subjective. For me it's about balancing conciseness, familiarity, and minimal BC break.
@TheodoreBrown I simply compare them on a screen and can see that @@ pays much more attention than #[ and it was designed to be a metadata rather than something what hurt eyes
@MarkR Oh, great I already love it
$myFunc = @@@Attribute(@@@JIT(), @@@SoManyAts()) function foo() {};
No matter what syntax we choose I love atatattributes
@MarkR As I replied on list, I don't think it makes sense since whether or not there is a class for the attribute is an internal implementation detail for libraries. It shouldn't affect the syntax that consumers write.
@MátéKocsis Ok, I thought maybe you were using CLI with no file cache which would explain a decrease as you'd be running the JIT for every execution but that wouldn't be the case here...
It'd be interesting to see what percentage of the code is actually jitted
Unfortunately, getting percentages is a problematic thing. This benchmark can compare the performance of different DI Containers relatively well, but it's not very usable for analyzing performance changes over time
@MátéKocsis Not sure I follow. What I mean was that maybe loading all classes into memory and then calling opcache_get_status might give you some information on JIT and how much of those functions were actually jitted.
I'm assuming if little of your code can be jitted you'll get the overhead but little speedups as you'll just fall back on the VM. I wouldn't think code that does get jitted is actually slower than execution in the VM (but that is just a wild assumption)
I looked at the output, doesn't contain interesting information about the JIT...
Would be interesting though. Then we could look at some large code bases (symfony, laravel, etc.) to get a feeling how much of it can make use of the JIT.