| Commit message (Collapse) | Author | Age | Files | Lines |
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Split into title and body, like as the pull-request.
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- read files to copy once at first
- take the destination top directory from command line arguments
- fix a typo
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Fix https://bugs.ruby-lang.org/issues/19621
https://github.com/ruby/resolv/commit/7faaa78847
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The -b flag is available since 2.28, but Ubuntu 20.04 uses 2.25.
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Bumps [github/codeql-action](https://github.com/github/codeql-action) from 2.3.0 to 2.3.2.
- [Release notes](https://github.com/github/codeql-action/releases)
- [Changelog](https://github.com/github/codeql-action/blob/main/CHANGELOG.md)
- [Commits](https://github.com/github/codeql-action/compare/b2c19fb9a2a485599ccf4ed5d65527d94bc57226...f3feb00acb00f31a6f60280e6ace9ca31d91c76a)
---
updated-dependencies:
- dependency-name: github/codeql-action
dependency-type: direct:production
update-type: version-update:semver-patch
...
Signed-off-by: dependabot[bot] <support@github.com>
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(https://github.com/ruby/irb/pull/571)
* Simplify Locale#load
Instead of loading file content with `MagicFile` and then evaluting it,
we can just use `Kernel.load` to load the file.
* Remove unused optional argument
* Remove unused Locale#require and #toplevel_load
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(https://github.com/ruby/irb/pull/573)
`MagicFile` was introduced around v0.9.6, which was like 14~15 years ago.
It was needed because back then we needed to read a file's magic comment
to determine the encoding of it, and read it with that encoding.
Commit: https://github.com/ruby/irb/commit/3ee79e89adb8e21b63d796e53bcc86281685076d
But now both EN and JA's help-message file are UTF-8 and have removed the
encoding comment, we don't need to open them with `MagicFile` anymore.
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These must not be changed once initialized.
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DW_FORM_GNU_ref_alt and DW_FORM_GNU_strp_alt refer to data stored in an
external ELF file specified by a .gnu_debugaltlink attribute. These
attributes are generated by dwz(1), which extracts DWARF data common
amongst several files and stores it in a single, new file. It leaves
behind these two forms in the original file to point at the new, common
data.
We don't support actually reading the .gnu_debugaltlink file in
addr2line.c (and maybe we don't really need to), but we do need to know
how to read the actual value of these forms so we can skip over the
right number of bytes and not lose track of where we are in the CU.
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This number works better on yjit-bench (ruby-lsp).
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After [1], using ext/Setup to link some, but not all extensions failed
during linking. I did not know about this option, and had assumed that
only `--with-static-linked-ext` builds can include statically linked
extensions.
Include the support code for statically linked extensions in all
configurations like before [1]. Initialize the table lazily to minimize
footprint on builds that have no statically linked extensions.
[1]: 790cf4b6d0475614afb127b416e87cfa39044d67 "Fix autoload status of
statically linked extensions"
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path
(https://github.com/ruby/irb/pull/572)
https://github.com/ruby/irb/commit/0b648adf38
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(https://github.com/ruby/irb/pull/570)
https://github.com/ruby/irb/commit/710d5b1af5
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(https://github.com/ruby/irb/pull/569)
We don't have to load another file to define the legacy encoding aliases
map because there's only one definition of it. We can define it in
locale.rb directly.
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When `freeze: true` argument is passed.
[Bug #19427]
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Co-authored-by: Rafael Mendonça França <rafael@franca.dev>
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Ensure it returns `nil` instead of segmentation faulting
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Prior to this commit, a segmentation fault occurred in `vm_defined`'s
`zsuper` implementation after NULL is returned as `BasicObject`'s superclass.
This fix returns false from `vm_defined` if the superclass is NULL.
For example, the following code resulted in a segfault.
```ruby
class BasicObject
def seg_fault
defined?(super)
end
end
seg_fault
```
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to leave the trace.
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`RUBY_DEBUG_LOG()` doesn't show anything if `GET_EC()` returns NULL,
but print a separator "\t" to make consistent TSV.
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`RUBY_DEBUG_LOG=stderr RUBY_DEBUG_LOG_PID=1 ruby ...` will prints
debug logs with PID.
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When newer version released rather than gems/bundled_gems defined,
`spec.version == Gem::Version.new(v)` always abort like:
```
Unexpected versions between bundled_gems:3.0.4 and gemspec:3.1.0
```
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(https://github.com/ruby/irb/pull/568)
In https://github.com/ruby/irb/commit/3ee79e89adb8e21b63d796e53bcc86281685076d,
`encoding_aliases.rb` was introduced to return the correct encoding object for
`ujis` and `euc` encodings.
However, the return value of `@@legacy_encoding_alias_map[@encoding_name]`
is always overridden by a second look up with `Encoding.find(@encoding_name)`.
So the logic didn't work as expected.
This commit fixes the problem.
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This reverts commit e7cdce83e8c8797c481ccb54c260c0db1e1afa7c.
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Bumps [ruby/setup-ruby](https://github.com/ruby/setup-ruby) from 1.146.0 to 1.147.0.
- [Release notes](https://github.com/ruby/setup-ruby/releases)
- [Commits](https://github.com/ruby/setup-ruby/compare/55283cc23133118229fd3f97f9336ee23a179fcf...6cecb48364174b0952995175c55f9bf5527e6682)
---
updated-dependencies:
- dependency-name: ruby/setup-ruby
dependency-type: direct:production
update-type: version-update:semver-minor
...
Signed-off-by: dependabot[bot] <support@github.com>
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https://github.com/ruby/pp/commit/09dae96129
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https://github.com/ruby/pp/commit/f7bde31ca9
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CALLER_ARG_SPLAT is not necessary for method_missing. We just need
to unshift the method name into the arguments.
This optimizes all method_missing calls:
* mm(recv) ~9%
* mm(recv, *args) ~215% for args.length == 200
* mm(recv, *args, **kw) ~55% for args.length == 200
* mm(recv, **kw) ~22%
* mm(recv, kw: 1) ~100%
Note that empty argument splats do get slower with this approach,
by about 30-40%. Other than non-empty argument splats, other
argument splats are faster, with the speedup depending on the
number of arguments.
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Similar to the bmethod/send optimization, this avoids using
CALLER_ARG_SPLAT if not necessary. As long as the receiver argument
can be shifted off, other arguments are passed through as-is.
This optimizes the following types of calls:
* symproc.(recv) ~5%
* symproc.(recv, *args) ~65% for args.length == 200
* symproc.(recv, *args, **kw) ~45% for args.length == 200
* symproc.(recv, **kw) ~30%
* symproc.(recv, kw: 1) ~100%
Note that empty argument splats do get slower with this approach,
by about 2-3%. This is probably because iseq argument setup is
slower for empty argument splats than CALLER_SETUP_ARG is. Other
than non-empty argument splats, other argument splats are faster,
with the speedup depending on the number of arguments.
The following types of calls are not optimized:
* symproc.(*args)
* symproc.(*args, **kw)
This is because the you cannot shift the receiver argument off
without first splatting the arg.
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Similar to the bmethod optimization, this avoids using
CALLER_ARG_SPLAT if not necessary. As long as the method argument
can be shifted off, other arguments are passed through as-is.
This optimizes the following types of calls:
* send(meth, arg) ~5%
* send(meth, *args) ~75% for args.length == 200
* send(meth, *args, **kw) ~50% for args.length == 200
* send(meth, **kw) ~25%
* send(meth, kw: 1) ~115%
Note that empty argument splats do get slower with this approach,
by about 20%. This is probably because iseq argument setup is
slower for empty argument splats than CALLER_SETUP_ARG is. Other
than non-empty argument splats, other argument splats are faster,
with the speedup depending on the number of arguments.
The following types of calls are not optimized:
* send(*args)
* send(*args, **kw)
This is because the you cannot shift the method argument off
without first splatting the arg.
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This optimizes the following calls:
* ~10-15% for f(*a) when a does not end with a flagged keywords hash
* ~10-15% for f(*a) when a ends with an empty flagged keywords hash
* ~35-40% for f(*a, **kw) if kw is empty
This still copies the array contents to the VM stack, but avoids some
overhead. It would be faster to use the array pointer directly,
but that could cause problems if the array was modified during
the call to the function. You could do that optimization for frozen
arrays, but as splatting frozen arrays is uncommon, and the speedup
is minimal (<5%), it doesn't seem worth it.
The vm_send_cfunc benchmark has been updated to test additional cfunc
call types, and the numbers above were taken from the benchmark results.
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Currently, bmethod arguments are copied from the VM stack to the
C stack in vm_call_bmethod, then copied from the C stack to the VM
stack later in invoke_iseq_block_from_c. This is inefficient.
This adds vm_call_iseq_bmethod and vm_call_noniseq_bmethod.
vm_call_iseq_bmethod is an optimized method that skips stack
copies (though there is one copy to remove the receiver from
the stack), and avoids calling vm_call_bmethod_body,
rb_vm_invoke_bmethod, invoke_block_from_c_proc,
invoke_iseq_block_from_c, and vm_yield_setup_args.
Th vm_call_iseq_bmethod argument handling is similar to the
way normal iseq methods are called, and allows for similar
performance optimizations when using splats or keywords.
However, even in the no argument case it's still significantly
faster.
A benchmark is added for bmethod calling. In my environment,
it improves bmethod calling performance by 38-59% for simple
bmethod calls, and up to 180% for bmethod calls passing
literal keywords on both sides.
```
./miniruby-iseq-bmethod: 18159792.6 i/s
./miniruby-m: 13174419.1 i/s - 1.38x slower
bmethod_simple_1
./miniruby-iseq-bmethod: 15890745.4 i/s
./miniruby-m: 10008972.7 i/s - 1.59x slower
bmethod_simple_0_splat
./miniruby-iseq-bmethod: 13142804.3 i/s
./miniruby-m: 11168595.2 i/s - 1.18x slower
bmethod_simple_1_splat
./miniruby-iseq-bmethod: 12375791.0 i/s
./miniruby-m: 8491140.1 i/s - 1.46x slower
bmethod_no_splat
./miniruby-iseq-bmethod: 10151258.8 i/s
./miniruby-m: 8716664.1 i/s - 1.16x slower
bmethod_0_splat
./miniruby-iseq-bmethod: 8138802.5 i/s
./miniruby-m: 7515600.2 i/s - 1.08x slower
bmethod_1_splat
./miniruby-iseq-bmethod: 8028372.7 i/s
./miniruby-m: 5947658.6 i/s - 1.35x slower
bmethod_10_splat
./miniruby-iseq-bmethod: 6953514.1 i/s
./miniruby-m: 4840132.9 i/s - 1.44x slower
bmethod_100_splat
./miniruby-iseq-bmethod: 5287288.4 i/s
./miniruby-m: 2243218.4 i/s - 2.36x slower
bmethod_kw
./miniruby-iseq-bmethod: 8931358.2 i/s
./miniruby-m: 3185818.6 i/s - 2.80x slower
bmethod_no_kw
./miniruby-iseq-bmethod: 12281287.4 i/s
./miniruby-m: 10041727.9 i/s - 1.22x slower
bmethod_kw_splat
./miniruby-iseq-bmethod: 5618956.8 i/s
./miniruby-m: 3657549.5 i/s - 1.54x slower
```
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SystemStackError
Originally, when 2e7bceb34ea858649e1f975a934ce1894d1f06a6 fixed cfuncs to no
longer use the VM stack for large array splats, it was thought to have fully
fixed Bug #4040, since the issue was fixed for methods defined in Ruby (iseqs)
back in Ruby 2.2.
After additional research, I determined that same issue affects almost all
types of method calls, not just iseq and cfunc calls. There were two main
types of remaining issues, important cases (where large array splat should
work) and pedantic cases (where large array splat raised SystemStackError
instead of ArgumentError).
Important cases:
```ruby
define_method(:a){|*a|}
a(*1380888.times)
def b(*a); end
send(:b, *1380888.times)
:b.to_proc.call(self, *1380888.times)
def d; yield(*1380888.times) end
d(&method(:b))
def self.method_missing(*a); end
not_a_method(*1380888.times)
```
Pedantic cases:
```ruby
def a; end
a(*1380888.times)
def b(_); end
b(*1380888.times)
def c(_=nil); end
c(*1380888.times)
c = Class.new do
attr_accessor :a
alias b a=
end.new
c.a(*1380888.times)
c.b(*1380888.times)
c = Struct.new(:a) do
alias b a=
end.new
c.a(*1380888.times)
c.b(*1380888.times)
```
This patch fixes all usage of CALLER_SETUP_ARG with splatting a large
number of arguments, and required similar fixes to use a temporary
hidden array in three other cases where the VM would use the VM stack
for handling a large number of arguments. However, it is possible
there may be additional cases where splatting a large number
of arguments still causes a SystemStackError.
This has a measurable performance impact, as it requires additional
checks for a large number of arguments in many additional cases.
This change is fairly invasive, as there were many different VM
functions that needed to be modified to support this. To avoid
too much API change, I modified struct rb_calling_info to add a
heap_argv member for storing the array, so I would not have to
thread it through many functions. This struct is always stack
allocated, which helps ensure sure GC doesn't collect it early.
Because of how invasive the changes are, and how rarely large
arrays are actually splatted in Ruby code, the existing test/spec
suites are not great at testing for correct behavior. To try to
find and fix all issues, I tested this in CI with
VM_ARGC_STACK_MAX to -1, ensuring that a temporary array is used
for all array splat method calls. This was very helpful in
finding breaking cases, especially ones involving flagged keyword
hashes.
Fixes [Bug #4040]
Co-authored-by: Jimmy Miller <jimmy.miller@shopify.com>
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