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The LuaJIT FFI docs mention that calling from C back into Lua code is relatively slow and recommend avoiding it where possible:

Do not use callbacks for performance-sensitive work: e.g. consider a numerical integration routine which takes a user-defined function to integrate over. It's a bad idea to call a user-defined Lua function from C code millions of times. The callback overhead will be absolutely detrimental for performance.

For new designs avoid push-style APIs (C function repeatedly calling a callback for each result). Instead use pull-style APIs (call a C function repeatedly to get a new result). Calls from Lua to C via the FFI are much faster than the other way round. Most well-designed libraries already use pull-style APIs (read/write, get/put).

However, they don't give any sense of how much slower callbacks from C are. If I have some code that I want to speed up that uses callbacks, roughly how much of a speedup could I expect if I rewrote it to use a pull-style API? Does anyone have any benchmarks comparing implementations of equivalent functionality using each style of API?

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3 Answers 3

There is a significant performance difference, as shown by these results:

LuaJIT 2.0.0-beta10 (Windows x64)
JIT: ON CMOV SSE2 SSE3 SSE4.1 fold cse dce fwd dse narrow loop abc sink fuse
n          Push Time        Pull Time        Push Mem         Pull Mem
256        0.000333         0                68               64
4096       0.002999         0.001333         188              124
65536      0.037999         0.017333         2108             1084
1048576    0.588333         0.255            32828            16444
16777216   9.535666         4.282999         524348           262204

The code for this benchmark can be found here.

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Do you have any explanation/interpretation of these results? At first glance, it looks like calls from C into Lua are only twice as slow as the other direction, which is far less significant of a difference than I would expect. But from looking at your benchmark I suspect what you're comparing is the difference between two calls from C into Lua and one; I don't think Lua functions casted to a ctype have comparable performance to actual C-implemented functions. –  Miles Sep 15 '12 at 6:31
    
Would you be able to provide sum_push and sum_pull as pure C functions? I have not being able to properly compile C on my dev machine as of late. –  Deco Sep 15 '12 at 7:42

On my computer, a function call from LuaJIT into C has an overhead of 5 clock cycles (notably, just as fast as calling a function via a function pointer in plain C), whereas calling from C back into Lua has a 135 cycle overhead, 27x slower. That being said, program that required a million calls from C into Lua would only add ~100ms overhead to the program's runtime; while it might be worth it to avoid FFI callbacks in a tight loop that operates on mostly in-cache data, the overhead of callbacks if they're invoked, say, once per I/O operation is probably not going to be noticeable compared to the overhead of the I/O itself.

$ luajit-2.0.0-beta10 callback-bench.lua   
C into C          3.344 nsec/call
Lua into C        3.345 nsec/call
C into Lua       75.386 nsec/call
Lua into Lua      0.557 nsec/call
C empty loop      0.557 nsec/call
Lua empty loop    0.557 nsec/call

$ sysctl -n machdep.cpu.brand_string         
Intel(R) Core(TM) i5-3427U CPU @ 1.80GHz

Benchmark code: https://gist.github.com/3726661

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Awesome gist, though I always appreciate it when there are some relatively standard compiler instructions in there too (e.g.: gcc -shared...) –  Aktau Aug 21 '13 at 9:05

Two years later, I redid the benchmarks from Miles' answer, for the following reasons:

  1. See if they improved with the new advancements (in CPU and LuaJIT)
  2. To add tests for functions with parameters and returns. The callback documentation mentiones that apart from the call overhead, parameter marshalling also matters:

    [...] the C to Lua transition itself has an unavoidable cost, similar to a lua_call() or lua_pcall(). Argument and result marshalling add to that cost [...]

  3. Check the difference between PUSH style and PULL style.
My results, on Intel(R) Core(TM) i7 CPU 920 @ 2.67GHz:

operation reps time(s) nsec/call C into Lua set_v 10000000 0.498 49.817 C into Lua set_i 10000000 0.662 66.249 C into Lua set_d 10000000 0.681 68.143 C into Lua get_i 10000000 0.633 63.272 C into Lua get_d 10000000 0.650 64.990 Lua into C call(void) 100000000 0.381 3.807 Lua into C call(int) 100000000 0.381 3.815 Lua into C call(double) 100000000 0.415 4.154 Lua into Lua 100000000 0.104 1.039 C empty loop 1000000000 0.695 0.695 Lua empty loop 1000000000 0.693 0.693

PUSH style 1000000 0.158 158.256 PULL style 1000000 0.207 207.297 The code for this results is here.

Conclusion: C callbacks into Lua have a really big overhead when used with parameters (which is what you almost always do), so they really shouldn't be used in critical points. You can use them for IO or user input though.

I am a bit surprised there is so little difference between PUSH/PULL styles, but maybe my implementation is not among the best.

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