Граф коммитов

94 Коммитов

Автор SHA1 Сообщение Дата
Daisuke Fujimura (fd0) e1c9e6244b Use real filename instead of `__FILE__` 2024-06-02 22:12:05 +09:00
Zack Deveau 480aee4363
Add Missing Counters to `rb_debug_counter_type` enum (#8297)
Add missing counters to rb_debug_counter_type enum

On master we have calls to the RB_DEBUG_COUNTER_INC macro
for counters that are not getting defined in the
rb_debug_counter_type enum.

This commit adds those that are missing in order for
compilation to pass with -DUSE_RUBY_DEBUG_LOG.
2023-08-25 15:27:56 -07:00
Peter Zhu 87e1486d31 Remove unused references to the transient heap 2023-07-13 14:48:14 -04:00
Peter Zhu 1e7b67f733 [Feature #19730] Remove transient heap 2023-07-13 09:27:33 -04:00
Peter Zhu d7c1ca48bf Refactor to separate marking and sweeping phases
This commit separates the marking and sweeping phases so that marking
functions do not directly call sweeping functions.
2023-02-21 08:05:31 -05:00
Aaron Patterson ae2340c9d7 Refactor / document instance variable debug counters
This commit is refactoring and documenting the debug counters related to
instance variables.
2023-02-15 08:47:26 -08:00
Jemma Issroff c1ab6ddc9a Transition complex objects to "too complex" shape
When an object becomes "too complex" (in other words it has too many
variations in the shape tree), we transition it to use a "too complex"
shape and use a hash for storing instance variables.

Without this patch, there were rare cases where shape tree growth could
"explode" and cause performance degradation on what would otherwise have
been cached fast paths.

This patch puts a limit on shape tree growth, and gracefully degrades in
the rare case where there could be a factorial growth in the shape tree.

For example:

```ruby
class NG; end

HUGE_NUMBER.times do
  NG.new.instance_variable_set(:"@unique_ivar_#{_1}", 1)
end
```

We consider objects to be "too complex" when the object's class has more
than SHAPE_MAX_VARIATIONS (currently 8) leaf nodes in the shape tree and
the object introduces a new variation (a new leaf node) associated with
that class.

For example, new variations on instances of the following class would be
considered "too complex" because those instances create more than 8
leaves in the shape tree:

```ruby
class Foo; end
9.times { Foo.new.instance_variable_set(":@uniq_#{_1}", 1) }
```

However, the following class is *not* too complex because it only has
one leaf in the shape tree:

```ruby
class Foo
  def initialize
    @a = @b = @c = @d = @e = @f = @g = @h = @i = nil
  end
end
9.times { Foo.new }
``

This case is rare, so we don't expect this change to impact performance
of most applications, but it needs to be handled.

Co-Authored-By: Aaron Patterson <tenderlove@ruby-lang.org>
2022-12-15 10:06:04 -08:00
Takashi Kokubun 57cb4a8179
MJIT: Remove obsoleted MJIT counters 2022-12-06 23:05:00 -08:00
Takashi Kokubun 7e20704000
MJIT: Remove an unused argument and unused counters
I plan to rebuild MJIT metrics later, not using debug counters.
2022-12-06 22:19:26 -08:00
Takashi Kokubun 68e0523484
Remove unused debug counters
The structure and readability of jit_exec is messed up right now. I'd
like to help the current situation by this for now. I'll resurrect
them when I need it again.
2022-11-13 14:00:30 -08:00
Jemma Issroff ad63b668e2
Revert "Revert "This commit implements the Object Shapes technique in CRuby.""
This reverts commit 9a6803c90b.
2022-10-11 08:40:56 -07:00
Aaron Patterson 9a6803c90b
Revert "This commit implements the Object Shapes technique in CRuby."
This reverts commit 68bc9e2e97d12f80df0d113e284864e225f771c2.
2022-09-30 16:01:50 -07:00
Jemma Issroff d594a5a8bd
This commit implements the Object Shapes technique in CRuby.
Object Shapes is used for accessing instance variables and representing the
"frozenness" of objects.  Object instances have a "shape" and the shape
represents some attributes of the object (currently which instance variables are
set and the "frozenness").  Shapes form a tree data structure, and when a new
instance variable is set on an object, that object "transitions" to a new shape
in the shape tree.  Each shape has an ID that is used for caching. The shape
structure is independent of class, so objects of different types can have the
same shape.

For example:

```ruby
class Foo
  def initialize
    # Starts with shape id 0
    @a = 1 # transitions to shape id 1
    @b = 1 # transitions to shape id 2
  end
end

class Bar
  def initialize
    # Starts with shape id 0
    @a = 1 # transitions to shape id 1
    @b = 1 # transitions to shape id 2
  end
end

foo = Foo.new # `foo` has shape id 2
bar = Bar.new # `bar` has shape id 2
```

Both `foo` and `bar` instances have the same shape because they both set
instance variables of the same name in the same order.

This technique can help to improve inline cache hits as well as generate more
efficient machine code in JIT compilers.

This commit also adds some methods for debugging shapes on objects.  See
`RubyVM::Shape` for more details.

For more context on Object Shapes, see [Feature: #18776]

Co-Authored-By: Aaron Patterson <tenderlove@ruby-lang.org>
Co-Authored-By: Eileen M. Uchitelle <eileencodes@gmail.com>
Co-Authored-By: John Hawthorn <john@hawthorn.email>
2022-09-28 08:26:21 -07:00
Aaron Patterson 06abfa5be6
Revert this until we can figure out WB issues or remove shapes from GC
Revert "* expand tabs. [ci skip]"

This reverts commit 830b5b5c35.

Revert "This commit implements the Object Shapes technique in CRuby."

This reverts commit 9ddfd2ca00.
2022-09-26 16:10:11 -07:00
Jemma Issroff 9ddfd2ca00 This commit implements the Object Shapes technique in CRuby.
Object Shapes is used for accessing instance variables and representing the
"frozenness" of objects.  Object instances have a "shape" and the shape
represents some attributes of the object (currently which instance variables are
set and the "frozenness").  Shapes form a tree data structure, and when a new
instance variable is set on an object, that object "transitions" to a new shape
in the shape tree.  Each shape has an ID that is used for caching. The shape
structure is independent of class, so objects of different types can have the
same shape.

For example:

```ruby
class Foo
  def initialize
    # Starts with shape id 0
    @a = 1 # transitions to shape id 1
    @b = 1 # transitions to shape id 2
  end
end

class Bar
  def initialize
    # Starts with shape id 0
    @a = 1 # transitions to shape id 1
    @b = 1 # transitions to shape id 2
  end
end

foo = Foo.new # `foo` has shape id 2
bar = Bar.new # `bar` has shape id 2
```

Both `foo` and `bar` instances have the same shape because they both set
instance variables of the same name in the same order.

This technique can help to improve inline cache hits as well as generate more
efficient machine code in JIT compilers.

This commit also adds some methods for debugging shapes on objects.  See
`RubyVM::Shape` for more details.

For more context on Object Shapes, see [Feature: #18776]

Co-Authored-By: Aaron Patterson <tenderlove@ruby-lang.org>
Co-Authored-By: Eileen M. Uchitelle <eileencodes@gmail.com>
Co-Authored-By: John Hawthorn <john@hawthorn.email>
2022-09-26 09:21:30 -07:00
Takashi Kokubun 485019c2bd
Rename mjit_exec to jit_exec (#6262)
* Rename mjit_exec to jit_exec

* Rename mjit_exec_slowpath to mjit_check_iseq

* Remove mjit_exec references from comments
2022-08-19 23:57:17 -07:00
Koichi Sasada 82ea287018 optimize `Struct` getter/setter
Introduce new optimized method type
`OPTIMIZED_METHOD_TYPE_STRUCT_AREF/ASET` with index information.
2021-11-19 08:32:39 +09:00
eileencodes b91b3bc771 Add a cache for class variables
Redo of 34a2acdac788602c14bf05fb616215187badd504 and
931138b00696419945dc03e10f033b1f53cd50f3 which were reverted.

GitHub PR #4340.

This change implements a cache for class variables. Previously there was
no cache for cvars. Cvar access is slow due to needing to travel all the
way up th ancestor tree before returning the cvar value. The deeper the
ancestor tree the slower cvar access will be.

The benefits of the cache are more visible with a higher number of
included modules due to the way Ruby looks up class variables. The
benchmark here includes 26 modules and shows with the cache, this branch
is 6.5x faster when accessing class variables.

```
compare-ruby: ruby 3.1.0dev (2021-03-15T06:22:34Z master 9e5105c) [x86_64-darwin19]
built-ruby: ruby 3.1.0dev (2021-03-15T12:12:44Z add-cache-for-clas.. c6be009) [x86_64-darwin19]

|         |compare-ruby|built-ruby|
|:--------|-----------:|---------:|
|vm_cvar  |      5.681M|   36.980M|
|         |           -|     6.51x|
```

Benchmark.ips calling `ActiveRecord::Base.logger` from within a Rails
application. ActiveRecord::Base.logger has 71 ancestors. The more
ancestors a tree has, the more clear the speed increase. IE if Base had
only one ancestor we'd see no improvement. This benchmark is run on a
vanilla Rails application.

Benchmark code:

```ruby
require "benchmark/ips"
require_relative "config/environment"

Benchmark.ips do |x|
  x.report "logger" do
    ActiveRecord::Base.logger
  end
end
```

Ruby 3.0 master / Rails 6.1:

```
Warming up --------------------------------------
              logger   155.251k i/100ms
Calculating -------------------------------------
```

Ruby 3.0 with cvar cache /  Rails 6.1:

```
Warming up --------------------------------------
              logger     1.546M i/100ms
Calculating -------------------------------------
              logger     14.857M (± 4.8%) i/s -     74.198M in   5.006202s
```

Lastly we ran a benchmark to demonstate the difference between master
and our cache when the number of modules increases. This benchmark
measures 1 ancestor, 30 ancestors, and 100 ancestors.

Ruby 3.0 master:

```
Warming up --------------------------------------
            1 module     1.231M i/100ms
          30 modules   432.020k i/100ms
         100 modules   145.399k i/100ms
Calculating -------------------------------------
            1 module     12.210M (± 2.1%) i/s -     61.553M in   5.043400s
          30 modules      4.354M (± 2.7%) i/s -     22.033M in   5.063839s
         100 modules      1.434M (± 2.9%) i/s -      7.270M in   5.072531s

Comparison:
            1 module: 12209958.3 i/s
          30 modules:  4354217.8 i/s - 2.80x  (± 0.00) slower
         100 modules:  1434447.3 i/s - 8.51x  (± 0.00) slower
```

Ruby 3.0 with cvar cache:

```
Warming up --------------------------------------
            1 module     1.641M i/100ms
          30 modules     1.655M i/100ms
         100 modules     1.620M i/100ms
Calculating -------------------------------------
            1 module     16.279M (± 3.8%) i/s -     82.038M in   5.046923s
          30 modules     15.891M (± 3.9%) i/s -     79.459M in   5.007958s
         100 modules     16.087M (± 3.6%) i/s -     81.005M in   5.041931s

Comparison:
            1 module: 16279458.0 i/s
         100 modules: 16087484.6 i/s - same-ish: difference falls within error
          30 modules: 15891406.2 i/s - same-ish: difference falls within error
```

Co-authored-by: Aaron Patterson <tenderlove@ruby-lang.org>
2021-06-18 10:02:44 -07:00
Aaron Patterson 07f055bb13
Revert "Filling cache values on cvar write"
This reverts commit 08de37f9fa.
This reverts commit e8ae922b62.
2021-05-11 13:31:00 -07:00
eileencodes 08de37f9fa Filling cache values on cvar write
Instead of on read. Once it's in the inline cache we never have to make
one again. We want to eventually put the value into the cache, and the
best opportunity to do that is when you write the value.
2021-05-11 12:04:27 -07:00
eileencodes e8ae922b62 Add a cache for class variables
This change implements a cache for class variables. Previously there was
no cache for cvars. Cvar access is slow due to needing to travel all the
way up th ancestor tree before returning the cvar value. The deeper the
ancestor tree the slower cvar access will be.

The benefits of the cache are more visible with a higher number of
included modules due to the way Ruby looks up class variables. The
benchmark here includes 26 modules and shows with the cache, this branch
is 6.5x faster when accessing class variables.

```
compare-ruby: ruby 3.1.0dev (2021-03-15T06:22:34Z master 9e5105ca45) [x86_64-darwin19]
built-ruby: ruby 3.1.0dev (2021-03-15T12:12:44Z add-cache-for-clas.. c6be0093ae) [x86_64-darwin19]

|         |compare-ruby|built-ruby|
|:--------|-----------:|---------:|
|vm_cvar  |      5.681M|   36.980M|
|         |           -|     6.51x|
```

Benchmark.ips calling `ActiveRecord::Base.logger` from within a Rails
application. ActiveRecord::Base.logger has 71 ancestors. The more
ancestors a tree has, the more clear the speed increase. IE if Base had
only one ancestor we'd see no improvement. This benchmark is run on a
vanilla Rails application.

Benchmark code:

```ruby
require "benchmark/ips"
require_relative "config/environment"

Benchmark.ips do |x|
  x.report "logger" do
    ActiveRecord::Base.logger
  end
end
```

Ruby 3.0 master / Rails 6.1:

```
Warming up --------------------------------------
              logger   155.251k i/100ms
Calculating -------------------------------------
```

Ruby 3.0 with cvar cache /  Rails 6.1:

```
Warming up --------------------------------------
              logger     1.546M i/100ms
Calculating -------------------------------------
              logger     14.857M (± 4.8%) i/s -     74.198M in   5.006202s
```

Lastly we ran a benchmark to demonstate the difference between master
and our cache when the number of modules increases. This benchmark
measures 1 ancestor, 30 ancestors, and 100 ancestors.

Ruby 3.0 master:

```
Warming up --------------------------------------
            1 module     1.231M i/100ms
          30 modules   432.020k i/100ms
         100 modules   145.399k i/100ms
Calculating -------------------------------------
            1 module     12.210M (± 2.1%) i/s -     61.553M in   5.043400s
          30 modules      4.354M (± 2.7%) i/s -     22.033M in   5.063839s
         100 modules      1.434M (± 2.9%) i/s -      7.270M in   5.072531s

Comparison:
            1 module: 12209958.3 i/s
          30 modules:  4354217.8 i/s - 2.80x  (± 0.00) slower
         100 modules:  1434447.3 i/s - 8.51x  (± 0.00) slower
```

Ruby 3.0 with cvar cache:

```
Warming up --------------------------------------
            1 module     1.641M i/100ms
          30 modules     1.655M i/100ms
         100 modules     1.620M i/100ms
Calculating -------------------------------------
            1 module     16.279M (± 3.8%) i/s -     82.038M in   5.046923s
          30 modules     15.891M (± 3.9%) i/s -     79.459M in   5.007958s
         100 modules     16.087M (± 3.6%) i/s -     81.005M in   5.041931s

Comparison:
            1 module: 16279458.0 i/s
         100 modules: 16087484.6 i/s - same-ish: difference falls within error
          30 modules: 15891406.2 i/s - same-ish: difference falls within error
```

Co-authored-by: Aaron Patterson <tenderlove@ruby-lang.org>
2021-05-11 12:04:27 -07:00
Ryuta Kamizono 33f2ff3bab Fix some typos by spell checker 2021-04-26 10:07:41 +09:00
Koichi Sasada 1ecda21366 global call-cache cache table for rb_funcall*
rb_funcall* (rb_funcall(), rb_funcallv(), ...) functions invokes
Ruby's method with given receiver. Ruby 2.7 introduced inline method
cache with static memory area. However, Ruby 3.0 reimplemented the
method cache data structures and the inline cache was removed.

Without inline cache, rb_funcall* searched methods everytime.
Most of cases per-Class Method Cache (pCMC) will be helped but
pCMC requires VM-wide locking and it hurts performance on
multi-Ractor execution, especially all Ractors calls methods
with rb_funcall*.

This patch introduced Global Call-Cache Cache Table (gccct) for
rb_funcall*. Call-Cache was introduced from Ruby 3.0 to manage
method cache entry atomically and gccct enables method-caching
without VM-wide locking. This table solves the performance issue
on multi-ractor execution.
[Bug #17497]

Ruby-level method invocation does not use gccct because it has
inline-method-cache and the table size is limited. Basically
rb_funcall* is not used frequently, so 1023 entries can be enough.
We will revisit the table size if it is not enough.
2021-01-29 16:22:12 +09:00
Koichi Sasada e7fc353f04 enable constant cache on ractors
constant cache `IC` is accessed by non-atomic manner and there are
thread-safety issues, so Ruby 3.0 disables to use const cache on
non-main ractors.

This patch enables it by introducing `imemo_constcache` and allocates
it by every re-fill of const cache like `imemo_callcache`.
[Bug #17510]

Now `IC` only has one entry `IC::entry` and it points to
`iseq_inline_constant_cache_entry`, managed by T_IMEMO object.

`IC` is atomic data structure so `rb_mjit_before_vm_ic_update()` and
`rb_mjit_after_vm_ic_update()` is not needed.
2021-01-05 02:27:58 +09:00
Koichi Sasada c42948d784 add debug counters for gc start events 2020-12-17 17:03:05 +09:00
Koichi Sasada c58142134c make RB_DEBUG_COUNTER_INC()_thread-safe 2020-12-17 03:43:59 +09:00
Koichi Sasada 0b678cc9e5 add vm_sync debug counters
* vm_sync_lock
* vm_sync_lock_enter
* vm_sync_lock_enter_nb
* vm_sync_lock_enter_cr
* vm_sync_barrier
2020-12-16 10:38:12 +09:00
Koichi Sasada 72a73691bd add several debug counters
add cc_found_in_ccs (renamed from cc_found_ccs), cc_not_found_in_ccs,
call0_public, call0_other debug counters to measure more details.

also it contains several modification.
2020-12-15 13:29:30 +09:00
Koichi Sasada 7060d6b721 fix condition and add another debug counter
mc_inline_miss_same_def is added to check same method or not.
Also the mc_inline_miss_same_cc calculation was fixed.
2020-12-14 18:38:40 +09:00
Koichi Sasada c37ba2c547 add ccs_not_found debug counter
ccs_not_found to count not found in ccs table.
2020-12-14 18:17:35 +09:00
Koichi Sasada da3be76cb0 add debug counters to survey the IMC miss 2020-12-14 17:56:34 +09:00
Koichi Sasada a8aa169b8f add cc_invalidate_negative debug counter
counts for invalidating negative cache.
2020-12-14 11:57:46 +09:00
Aaron Patterson 4219cb7adb Add debug counter for ivar inline cache misses that could hit
This commit adds a debug counter for the case where the inline cache
*missed* but the ivar index table has an entry for that ivar.  This is a
case where a polymorphic cache could help
2020-11-09 14:05:41 -08:00
Aaron Patterson f649946fb9 remove unused debug counter 2020-11-09 09:44:16 -08:00
Nobuyoshi Nakada 4989987419
Explicit conversion to boolean to suppress shorten-64-to-32 warnings 2020-07-10 13:02:31 +09:00
Takashi Kokubun 0bd025ad69
Add a debug_counter for JIT cancel on leave 2020-05-28 22:45:35 -07:00
卜部昌平 9e41a75255 sed -i 's|ruby/impl|ruby/internal|'
To fix build failures.
2020-05-11 09:24:08 +09:00
卜部昌平 d7f4d732c1 sed -i s|ruby/3|ruby/impl|g
This shall fix compile errors.
2020-05-11 09:24:08 +09:00
Takashi Kokubun 310ef9f40b
Make vm_call_cfunc_with_frame a fastpath (#3027)
when there's no need to call CALLER_SETUP_ARG and CALLER_REMOVE_EMPTY_KW_SPLAT
(i.e. !rb_splat_or_kwargs_p(ci) && !calling->kw_splat).

Micro benchmark:
```
$ benchmark-driver -v --rbenv 'before;after' benchmark/vm_send_cfunc.yml --repeat-count=4
before: ruby 2.8.0dev (2020-04-13T23:45:05Z master b9d3ceee8f) [x86_64-linux]
after: ruby 2.8.0dev (2020-04-14T00:48:52Z no-splat-fastpath 418d363722) [x86_64-linux]
Calculating -------------------------------------
                         before       after
       vm_send_cfunc    69.585M     88.724M i/s -    100.000M times in 1.437097s 1.127096s

Comparison:
                    vm_send_cfunc
               after:  88723605.2 i/s
              before:  69584737.1 i/s - 1.28x  slower
```

Optcarrot:
```
$ benchmark-driver -v --rbenv 'before;after' benchmark.yml --repeat-count=12 --output=all
before: ruby 2.8.0dev (2020-04-13T23:45:05Z master b9d3ceee8f) [x86_64-linux]
after: ruby 2.8.0dev (2020-04-14T00:48:52Z no-splat-fastpath 418d363722) [x86_64-linux]
Calculating -------------------------------------
                                       before                 after
Optcarrot Lan_Master.nes    50.76119601545175     42.73858236484051 fps
                            50.76388649761503     51.04211379912850
                            50.80930672252514     51.39455790755538
                            50.90236000778749     51.75656936556145
                            51.01744746340430     51.86875277356489
                            51.06495279015112     51.88692482485558
                            51.07785337168974     51.93429603190578
                            51.20163525187862     51.95768145071314
                            51.34671771913112     52.45577266040274
                            51.35918340835583     52.53163888762858
                            51.46641337418146     52.62172484121034
                            51.50835463462257     52.85064021113239
```
2020-04-13 20:32:59 -07:00
卜部昌平 9e6e39c351
Merge pull request #2991 from shyouhei/ruby.h
Split ruby.h
2020-04-08 13:28:13 +09:00
Takashi Kokubun b736ea63bd
Optimize exivar access on JIT-ed getivar
JIT support of dd723771c1.

$ benchmark-driver -v --rbenv 'before;before --jit;after --jit' benchmark/mjit_exivar.yml --repeat-count=4
before: ruby 2.8.0dev (2020-03-30T12:32:26Z master e5db3da9d3) [x86_64-linux]
before --jit: ruby 2.8.0dev (2020-03-30T12:32:26Z master e5db3da9d3) +JIT [x86_64-linux]
after --jit: ruby 2.8.0dev (2020-03-31T05:57:24Z mjit-exivar 128625baec) +JIT [x86_64-linux]
Calculating -------------------------------------
                         before  before --jit  after --jit
         mjit_exivar    57.944M       53.579M      54.471M i/s -    200.000M times in 3.451588s 3.732772s 3.671687s

Comparison:
                      mjit_exivar
              before:  57944345.1 i/s
         after --jit:  54470876.7 i/s - 1.06x  slower
        before --jit:  53579483.4 i/s - 1.08x  slower
2020-03-30 23:16:35 -07:00
Kazuhiro NISHIYAMA 304538e6ff
Fix typos [ci skip] 2020-03-16 23:30:33 +09:00
Takashi Kokubun f6a54e6e46
Add debug counter for unload_units
changing add_iseq_to_process's debug counter name as well for comparison
2020-03-15 00:24:18 -07:00
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
卜部昌平 ba78bf9778 debug_counter.h must be self-contained
Include what is necessary.
2019-12-26 20:45:12 +09:00
Koichi Sasada 5220145ea2 add debug_counter access functions.
These functions are enabled only on USE_DEBUG_COUNTER=1.
2019-12-25 01:34:41 +09:00
Koichi Sasada 9eeaae432b add more debug counters to count numeric objects. 2019-12-23 16:31:17 +09:00
Nobuyoshi Nakada cc87037f1c
Fixed misspellings
Fixed misspellings reported at [Bug #16437], missed and a new
typo.
2019-12-22 22:49:17 +09:00
卜部昌平 dcb603bbdb describe mc_miss_reuse_call [ci skip] 2019-12-18 14:14:51 +09:00