Граф коммитов

9 Коммитов

Автор SHA1 Сообщение Дата
卜部昌平 4ff3f20540 add #include guard hack
According to MSVC manual (*1), cl.exe can skip including a header file
when that:

- contains #pragma once, or
- starts with #ifndef, or
- starts with #if ! defined.

GCC has a similar trick (*2), but it acts more stricter (e. g. there
must be _no tokens_ outside of #ifndef...#endif).

Sun C lacked #pragma once for a looong time.  Oracle Developer Studio
12.5 finally implemented it, but we cannot assume such recent version.

This changeset modifies header files so that each of them include
strictly one #ifndef...#endif.  I believe this is the most portable way
to trigger compiler optimizations. [Bug #16770]

*1: https://docs.microsoft.com/en-us/cpp/preprocessor/once
*2: https://gcc.gnu.org/onlinedocs/cppinternals/Guard-Macros.html
2020-04-13 16:06:00 +09:00
Alan Wu 82fdffc5ec
Avoid UB with flexible array member
Accessing past the end of an array is technically UB. Use C99 flexible
array member instead to avoid the UB and simplify allocation size
calculation.

See also: DCL38-C in the SEI CERT C Coding Standard
2020-04-12 15:19:06 -04:00
卜部昌平 9e6e39c351
Merge pull request #2991 from shyouhei/ruby.h
Split ruby.h
2020-04-08 13:28:13 +09:00
Jeremy Evans d2c41b1bff Reduce allocations for keyword argument hashes
Previously, passing a keyword splat to a method always allocated
a hash on the caller side, and accepting arbitrary keywords in
a method allocated a separate hash on the callee side.  Passing
explicit keywords to a method that accepted a keyword splat
did not allocate a hash on the caller side, but resulted in two
hashes allocated on the callee side.

This commit makes passing a single keyword splat to a method not
allocate a hash on the caller side.  Passing multiple keyword
splats or a mix of explicit keywords and a keyword splat still
generates a hash on the caller side.  On the callee side,
if arbitrary keywords are not accepted, it does not allocate a
hash.  If arbitrary keywords are accepted, it will allocate a
hash, but this commit uses a callinfo flag to indicate whether
the caller already allocated a hash, and if so, the callee can
use the passed hash without duplicating it.  So this commit
should make it so that a maximum of a single hash is allocated
during method calls.

To set the callinfo flag appropriately, method call argument
compilation checks if only a single keyword splat is given.
If only one keyword splat is given, the VM_CALL_KW_SPLAT_MUT
callinfo flag is not set, since in that case the keyword
splat is passed directly and not mutable.  If more than one
splat is used, a new hash needs to be generated on the caller
side, and in that case the callinfo flag is set, indicating
the keyword splat is mutable by the callee.

In compile_hash, used for both hash and keyword argument
compilation, if compiling keyword arguments and only a
single keyword splat is used, pass the argument directly.

On the caller side, in vm_args.c, the callinfo flag needs to
be recognized and handled.  Because the keyword splat
argument may not be a hash, it needs to be converted to a
hash first if not.  Then, unless the callinfo flag is set,
the hash needs to be duplicated.  The temporary copy of the
callinfo flag, kw_flag, is updated if a hash was duplicated,
to prevent the need to duplicate it again.  If we are
converting to a hash or duplicating a hash, we need to update
the argument array, which can including duplicating the
positional splat array if one was passed.  CALLER_SETUP_ARG
and a couple other places needs to be modified to handle
similar issues for other types of calls.

This includes fairly comprehensive tests for different ways
keywords are handled internally, checking that you get equal
results but that keyword splats on the caller side result in
distinct objects for keyword rest parameters.

Included are benchmarks for keyword argument calls.
Brief results when compiled without optimization:

  def kw(a: 1) a end
  def kws(**kw) kw end
  h = {a: 1}

  kw(a: 1)       # about same
  kw(**h)        # 2.37x faster
  kws(a: 1)      # 1.30x faster
  kws(**h)       # 2.19x faster
  kw(a: 1, **h)  # 1.03x slower
  kw(**h, **h)   # about same
  kws(a: 1, **h) # 1.16x faster
  kws(**h, **h)  # 1.14x faster
2020-03-17 12:09:43 -07:00
Takashi Kokubun da4b97a0e3
Pin and inline cme in JIT-ed method calls
```
$ benchmark-driver benchmark.yml -v --rbenv 'before --jit;after --jit' --repeat-count=12 --output=all
before --jit: ruby 2.8.0dev (2020-03-11T07:43:12Z master e89ebdcb87) +JIT [x86_64-linux]
after --jit: ruby 2.8.0dev (2020-03-11T07:54:18Z master 143776a0da) +JIT [x86_64-linux]
Calculating -------------------------------------
                                 before --jit           after --jit
Optcarrot Lan_Master.nes    73.86976729561439     77.20184819316513 fps
                            74.46997176460742     78.43493030231805
                            77.59686308754307     78.55714131655935
                            78.53693921126656     79.08984255596820
                            80.10158944910573     79.17751731838183
                            80.12254974411167     79.60853122429181
                            80.28678655204945     79.74674066871896
                            80.38690681095379     79.90624544440300
                            80.79223498756919     80.57881084206193
                            80.82857188422419     80.70677614429169
                            81.06447745878245     81.03868541295149
                            81.21620802278490     82.16354660940607
```
2020-03-11 00:59:34 -07:00
Koichi Sasada 4fd51f848a vm_cc_fill() need to clear aux.
vm_cc_fill() fills CC information into stack allocated memory so
it is not cleared. So we need to clear CC->aux.
2020-03-02 14:25:35 +09:00
git d7984d0f54 * remove trailing spaces. [ci skip] 2020-02-22 09:59:23 +09:00
Koichi Sasada b9007b6c54 Introduce disposable call-cache.
This patch contains several ideas:

(1) Disposable inline method cache (IMC) for race-free inline method cache
    * Making call-cache (CC) as a RVALUE (GC target object) and allocate new
      CC on cache miss.
    * This technique allows race-free access from parallel processing
      elements like RCU.
(2) Introduce per-Class method cache (pCMC)
    * Instead of fixed-size global method cache (GMC), pCMC allows flexible
      cache size.
    * Caching CCs reduces CC allocation and allow sharing CC's fast-path
      between same call-info (CI) call-sites.
(3) Invalidate an inline method cache by invalidating corresponding method
    entries (MEs)
    * Instead of using class serials, we set "invalidated" flag for method
      entry itself to represent cache invalidation.
    * Compare with using class serials, the impact of method modification
      (add/overwrite/delete) is small.
    * Updating class serials invalidate all method caches of the class and
      sub-classes.
    * Proposed approach only invalidate the method cache of only one ME.

See [Feature #16614] for more details.
2020-02-22 09:58:59 +09:00
Koichi Sasada f2286925f0 VALUE size packed callinfo (ci).
Now, rb_call_info contains how to call the method with tuple of
(mid, orig_argc, flags, kwarg). Most of cases, kwarg == NULL and
mid+argc+flags only requires 64bits. So this patch packed
rb_call_info to VALUE (1 word) on such cases. If we can not
represent it in VALUE, then use imemo_callinfo which contains
conventional callinfo (rb_callinfo, renamed from rb_call_info).

iseq->body->ci_kw_size is removed because all of callinfo is VALUE
size (packed ci or a pointer to imemo_callinfo).

To access ci information, we need to use these functions:
vm_ci_mid(ci), _flag(ci), _argc(ci), _kwarg(ci).

struct rb_call_info_kw_arg is renamed to rb_callinfo_kwarg.

rb_funcallv_with_cc() and rb_method_basic_definition_p_with_cc()
is temporary removed because cd->ci should be marked.
2020-02-22 09:58:59 +09:00