Short version: in a world without any runtime optimization (type specialization, JIT, and so forth), the timings would match your expectations. The timings here are influenced by how well the optimizer deals with each example.
First of all, it's interesting to run the code without any kind of runtime optimization. In my (rather slow) VM on the box I'm currently on, sticking
MVM_SPESH_DISABLE=1 into the environment results in these timings:
These make some kind of intuitive sense:
- In the first case, we have a simple lexical variable declared in the outer scope of the block
- In the second case, we have to allocate, and then garbage collect, an extra
Scalar allocation every time around the loop, which accounts for the extra time
- In the third case, we're using the
state variable. A
state variable is stored in the code object of the closure, and then copied into the call frame at entry time. That's cheaper than allocating a new
Scalar every time, but still a little bit more work than not having to do that operation at all.
Next, let's run 3 programs with the optimizer enabled, each example in its own isolated program.
- The first comes out at
0.86298831, a factor of 16 faster. Go optimizer! It has inlined the loop body.
- The second comes out at
1.2288566, a factor of 13 faster. Not too shabby either. It has again inlined the loop body. (This case will also become rather cheaper in the future, once the escape analyzer is smart enough to eliminate the
- The third comes out at
2.0695035, a factor of 7 faster. That's comparatively unimpressive (even if still quite an improvement), and the major reason is that it has not inlined the loop body. Why? Because it doesn't know how to inline code that uses state variables yet. (How to see this: run with
MVM_SPESH_INLINE_LOG=1 in the environment, and among the output is:
Can NOT inline (1) with bytecode size 78 into (3): cannot inline code that declares a state variable.)
In short, the dominating factor here is the inlining of the loop body, and with state variables that is presently not possible.
It's not immediately clear why the optimizer does worse at the case with the outer declaration of
$var when that isn't the first loop in the program; that feels more like a bug than a reasonable case of "this feature isn't optimized well yet". In its slight defense, it still consistently manages to deliver a big improvement, even when not so big as might be desired!