The memory view interface added at 890bc2cdde is experimental new C-API
set. This feature permits extension libraries to share a memory area
that contains such a numerical array and a bitmap image. This is
designed by referring to Python's buffer protocol.
[[Feature #13767]]
[[Feature #14722]]
This change adds a `category` kwarg to make it easier to monkey patch
`Warning.warn`. Warnings already have a category, but that warning isn't
exposed. This implements a way to get the category so that warnings with
a specific category, like deprecated, can be treated differently than
other warnings in an application.
The change here does an arity check on the method to support backwards
compatibility for applications that may already have a warning monkey
patch.
For our usecase we want to `raise` for deprecation warnings in order to
get the behavior for the next Ruby version. For example, now that we
fixed all our warnings and deployed Ruby 2.7 to production, we want to
be able to have deprecation warnings behave like they would in 3.0: raise
an error. For other warnings, like uninialized constants, that behavior
won't be removed from Ruby in the next version, so we don't need to
raise errors.
Co-authored-by: Aaron Patterson <tenderlove@ruby-lang.org>
and a related VM improvement.
JIT related commits:
* Code size reduction
* Deduplicate functions on JIT compaction 818d6d3336
* Avoid always inlining cold paths of ivar fcd2576290
* Inline only fast path of rb_class_of b16a2aa938
* Eliminate a call instruction on deopt 61b14bb32b
* Cold path partitioning
* Mark method call slow paths as COLDFUNC 0e5a58b6bf
* Mark vm_stackoverflow as NOINLINE COLDFUNC 9d71373c23
* Create mjit_exec_slowpath and mark it as NOINLINE COLDFUNC 083a17a82a
* Primitive.attr! 'inline' / Integer#zero? 7561db8c00
* Kernel#class 946e5cc668
* (more to come...)
* Properly generate opt_send for cfunc cc 7982dc1dfd
* Optimize exivar access b736ea63bd
* Make JIT-ed leave leaf 151f8be40d
* Inline vm_call_cfunc b9d3ceee8f
VM:
* Enable fastpath on invokesuper 5c27681813
* History: https://speakerdeck.com/k0kubun/ruby-3-samituto?slide=40 (in Japanese)
A prerequisite to fix https://bugs.ruby-lang.org/issues/15589 with JIT.
This commit alone doesn't make a significant difference yet, but I thought
this commit should be committed independently.
This method override was discussed in [Misc #16961].
This reverts commit 02b216e5a7.
This reverts commit 9b8825b6f9.
I found that combining sweep and move is not safe. I don't think that
we can do compaction concurrently with _anything_ unless there is a read
barrier installed.
Here is a simple example. A class object is freed, and during it's free
step, it tries to remove itself from its parent's subclass list.
However, during the sweep step, the parent class was moved and the
"currently being freed" class didn't have references updated yet. So we
get a segv like this:
```
(lldb) bt
* thread #1, name = 'ruby', stop reason = signal SIGSEGV
* frame #0: 0x0000560763e344cb ruby`rb_st_lookup at st.c:320:43
frame #1: 0x0000560763e344cb ruby`rb_st_lookup(tab=0x2f7469672f6e6f72, key=3809, value=0x0000560765bf2270) at st.c:1010
frame #2: 0x0000560763e8f16a ruby`rb_search_class_path at variable.c:99:9
frame #3: 0x0000560763e8f141 ruby`rb_search_class_path at variable.c:145
frame #4: 0x0000560763e8f141 ruby`rb_search_class_path(klass=94589785585880) at variable.c:191
frame #5: 0x0000560763ec744e ruby`rb_vm_bugreport at vm_dump.c:996:17
frame #6: 0x0000560763f5b958 ruby`rb_bug_for_fatal_signal at error.c:675:5
frame #7: 0x0000560763e27dad ruby`sigsegv(sig=<unavailable>, info=<unavailable>, ctx=<unavailable>) at signal.c:955:5
frame #8: 0x00007f8b891d33c0 libpthread.so.0`___lldb_unnamed_symbol1$$libpthread.so.0 + 1
frame #9: 0x0000560763efa8bb ruby`rb_class_remove_from_super_subclasses(klass=94589790314280) at class.c:93:56
frame #10: 0x0000560763d10cb7 ruby`gc_sweep_step at gc.c:2674:2
frame #11: 0x0000560763d1187b ruby`gc_sweep at gc.c:4540:2
frame #12: 0x0000560763d101f0 ruby`gc_start at gc.c:6797:6
frame #13: 0x0000560763d15153 ruby`rb_gc_compact at gc.c:7479:12
frame #14: 0x0000560763eb4eb8 ruby`vm_exec_core at vm_insnhelper.c:5183:13
frame #15: 0x0000560763ea9bae ruby`rb_vm_exec at vm.c:1953:22
frame #16: 0x0000560763eac08d ruby`rb_yield at vm.c:1132:9
frame #17: 0x0000560763edb4f2 ruby`rb_ary_collect at array.c:3186:9
frame #18: 0x0000560763e9ee15 ruby`vm_call_cfunc_with_frame at vm_insnhelper.c:2575:12
frame #19: 0x0000560763eb2e66 ruby`vm_exec_core at vm_insnhelper.c:4177:11
frame #20: 0x0000560763ea9bae ruby`rb_vm_exec at vm.c:1953:22
frame #21: 0x0000560763eac08d ruby`rb_yield at vm.c:1132:9
frame #22: 0x0000560763edb4f2 ruby`rb_ary_collect at array.c:3186:9
frame #23: 0x0000560763e9ee15 ruby`vm_call_cfunc_with_frame at vm_insnhelper.c:2575:12
frame #24: 0x0000560763eb2e66 ruby`vm_exec_core at vm_insnhelper.c:4177:11
frame #25: 0x0000560763ea9bae ruby`rb_vm_exec at vm.c:1953:22
frame #26: 0x0000560763ceee01 ruby`rb_ec_exec_node(ec=0x0000560765afa530, n=0x0000560765b088e0) at eval.c:296:2
frame #27: 0x0000560763cf3b7b ruby`ruby_run_node(n=0x0000560765b088e0) at eval.c:354:12
frame #28: 0x0000560763cee4a3 ruby`main(argc=<unavailable>, argv=<unavailable>) at main.c:50:9
frame #29: 0x00007f8b88e560b3 libc.so.6`__libc_start_main + 243
frame #30: 0x0000560763cee4ee ruby`_start + 46
(lldb) f 9
frame #9: 0x0000560763efa8bb ruby`rb_class_remove_from_super_subclasses(klass=94589790314280) at class.c:93:56
90
91 *RCLASS_EXT(klass)->parent_subclasses = entry->next;
92 if (entry->next) {
-> 93 RCLASS_EXT(entry->next->klass)->parent_subclasses = RCLASS_EXT(klass)->parent_subclasses;
94 }
95 xfree(entry);
96 }
(lldb) command script import -r misc/lldb_cruby.py
lldb scripts for ruby has been installed.
(lldb) rp entry->next->klass
(struct RMoved) $1 = (flags = 30, destination = 94589792806680, next = 94589784369160)
(lldb)
```
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
As a semantics, Hash#each yields a 2-element array (pairs of keys and
values). So, `{ a: 1 }.each(&->(k, v) { })` should raise an exception
due to lambda's arity check.
However, the optimization that avoids Array allocation by using
rb_yield_values for blocks whose arity is more than 1 (introduced at
b9d2960337 and some commits), seemed to
overlook the lambda case, and wrongly allowed the code above to work.
This change experimentally attempts to make it strict; now the code
above raises an ArgumentError. This is an incompatible change; if the
compatibility issue is bigger than our expectation, it may be reverted
(until Ruby 3.0 release).
[Bug #12706]
* Let Net::HTTP.get take request headers
* Add more test cases for no header usages
* Add examples with request headers
* Add a NEWS entry [ci skip]
[Feature #16686]
This behavior was deprecated in 2.7 and scheduled to be removed
in 3.0.
Calling yield in a class definition outside a method is now a
SyntaxError instead of a LocalJumpError, as well.
Sort the results which matched single wildcard or character set in
binary ascending order, unless `sort: false` is given. The order
of an Array of pattern strings and braces are not affected.
* The definition lists extensions of the RDoc Markdown parser does
not support nesting.
* The RDoc Markdown parser requires more indents for nested lists.