Tony writes: ``` [Hours] [Activity] 2023/08/01 Tuesday 0.20 look at new coverity hits, briefly discuss with khw 0.27 github notifications 0.87 #21306 review and briefly comment 0.05 #21084 check latest CI results, apply to blead 0.13 #21296 test blead with the fix, close this PR 0.28 coverity look at older hits, one harmless, another false positive (in the context of perl) 0.18 #21181 apply to blead, perldelta 0.42 #21212 comment

1.28 #21313 testing

3.68

2023/08/02 Wednesday 0.08 #21306 review new changes and approve 0.37 #21304 comment 3.05 #21313 debugging

2.42 #21313 more debugging, long comment, testing, more comment

5.92

2023/08/03 Thursday 0.23 #21000 review and comment 1.18 #21323 review and comment 1.50 #21313 make a more portable change and testing 0.98 #21313 clean up and more testing, psuh to PR 21324 1.20 #21313 debugging remaining test failure - turns out to be

a known bug upstream

5.09

2023/08/07 Monday 1.92 #21313 research, minor fix, apply to blead, perldelta 0.27 #21314 apply to blead, check if docs need update 0.77 #21313 re-work patch for remaining bug, pr perl- libwin32/win32#39

1.10 #17452 reproduce, work on a fix, testing

4.06

2023/08/08 Tuesday 0.68 github notifications 0.07 #21325 review and trigger CI 0.43 #21333 review, code archaeology: why was SIG localized? ask for a test case 0.23 #21325 add to authors, bump strict version and apply to blead 0.08 #21328 review and approve 0.82 #21334 review and approve with a comment 0.08 #21335 review and approve 0.12 #21336 review and approve 0.10 #21337 review and approve (and watch github flake out) 0.03 #21338 review and approve 0.05 #21339 review and approve 1.55 #20890 debugging, try to understand how this is meant to

work, long comment

4.24

2023/08/09 Wednesday 0.75 github notifications 0.22 more github notifications 0.53 #21333 review and approve, comment 0.25 #21331 comment 0.20 #21340 review and comment 0.73 #21341 review, research, comment and approve 0.10 #21342 review and approve 0.08 #21343 review and approve 0.37 #21344 review and approve 0.08 #21345 review and apply (had another approval) 0.18 #21346 review, testing and comment

0.07 #21348 review and approve

3.56

2023/08/10 Thursday 0.25 github notifications 1.22 #21340 review modifications, research, comments 0.90 #21347 review and melt brain 0.53 #21332 work up a fix and make PR 21359

1.50 #21350 debugging

4.40

2023/08/14 Monday 0.30 #21347 review and approve 0.07 #21355 review and approve 0.90 #21358 review and comment 0.33 #21359 apply to blead, perldelta 0.27 #21361 review and approve

0.10 #21362, #21363, #21364 review and approve

1.97

2023/08/15 Tuesday 0.17 #21340 follow up 0.05 #21333 apply to blead 1.20 #21375 review and comments 0.45 #21376 try to reproduce CI failure, reproduce and comment 0.10 #21377 review and approve

0.62 #21340 follow up

2.59

2023/08/16 Wednesday 0.38 #21375 follow up comment 0.05 #21376 review after changes and approve 0.35 ppc#25 comments 0.65 #21379 research and comment

0.17 #21330 review and approve

1.60

2023/08/17 Thursday 0.23 ppc#25 follow-up comment 0.13 #21385 review and comment 0.25 #21375 re-review and comment

0.07 #21374 review and approve

0.68

2023/08/21 Monday 0.22 #21387 follow-up and close 0.20 #21350 research and comment 0.30 #20917 rebase, testing 0.97 #20917 more testing, push for re-CI (don’t pass until corelist update) 0.07 #21379 check latest changes and approve 0.05 #21395 review and approve 0.02 #21407 review and apply to blead

0.12 #21161 rebase, testing

1.95

2023/08/23 Wednesday 0.13 #20917 rebase on corelist fix 0.12 #19426 rebase on corelist fix 0.17 #21329 re-check and apply to blead, perldelta 0.13 #21394 review and comment 0.38 #21392 review and approve 0.13 #21391 review and approve 0.40 #21351 review and approve 0.47 #21415 research 2.15 #21415 testing, yet another cop_features fix, more

testing, push candidate for CI

4.08

2023/08/24 Thursday 0.95 #21415 testing, polish, make PR 21421 0.63 #21419 review and comments

0.77 #18606 simplify some old work, testing, push for CI

2.35

2023/08/28 Monday 0.40 #21431 review, research and comment 0.20 #21419 comment 0.15 #21411 comment 1.52 #21415 re-work 0.72 #21415 more re-work and push 0.28 #21390 review and comments

0.43 #21389 review, comment and approve

3.70

2023/08/29 Tuesday 0.10 #21390 review updates and approve 0.62 #21415 updates 0.10 #21420 review and apply to blead 0.37 #21422 review 0.37 #21422 more review, approve

0.80 review coverity results

2.36

2023/08/30 Wednesday 0.28 #21419 look over updates 0.15 #21433 review and comment 1.80 #21434 review and approve 0.23 #21428 review, testing and comment

1.63 more review coverity results, push some changes for CI

4.09

2023/08/31 Thursday 0.12 #21433 review changes and apply to blead 0.05 #21428 review changes and approve 1.15 #21421 apply to blead, perldelta 0.28 #21435 review and approve 0.10 #21436 review and approve

0.57 #19376 review existing docs and think how to re-work

2.27

Which I calculate is 58.59 hours.

Approximately 73 tickets were reviewed or worked on, and 13 patches were applied. ```

A new grant application from John Napiorkowski and Robert Grimes, this time targetting the development of a large language model trained specifically to develop Perl Code. These veteran coders suggest that using natural language to generate Perl code may potentially allow one to rapidly generate new APIs and applications, or at least give a skeleton to flesh out into a more elaborate tool.

Applicants:

John Napiorkowski & Robert Grimes

Amount Requested

The budget for this project is $8,800 USD, to be made in one lump-sum payment upon completion.

This amount is calculated by multiplying the estimated minimum total hours labor (220 hours) by the minimum acceptable hourly rate for an open source Perl project ($40 / hour):

(220 hours) * ($40 / hour) = $8,800 USD

Please note this amount does NOT include the high cost of renting or purchasing the necessary GPU hardware equipment, which will graciously be donated by the ChatGPU.ai group as a service to the Perl community.

Synopsis

This grant proposal is for phase 1 of the development of PerlGPT, a large language model (LLM) comparable to ChatGPT 4.0, and trained on additional Perl-related content only. PerlGPT will be based on Meta's Code Llama (from Llama v2 or newer) language models, with all new components implemented in Perl where possible and released as free-and-open-source software (FOSS), unlike ChatGPT and other proprietary LLM systems.

Code Llama: Open Foundation Models for Code

Code Llama's documentation currently lists the following primarily-supported languages: "Python, C++, Java, PHP, TypeScript, C#, and Bash". One of the outcome of the PerlGPT project will be to effectively add Perl to this list. (PerlGPT may ultimately be released under an alternative name, such as "Perllama".)

Phase 1 consists of training a 13B input language model using Perl-related stimulus/response pairs curated from Perl Monks, Stack Overflow, GitLab, GitHub, and other public Perl-specific data sources. Phase 1 will deliver an LLM capable of generating pure-Perl source code in collaboration with a Perl programmer, similar to Microsoft Bing and GitHub Copilot.

As with the Perl TensorFlow grants, PerlGPT "is a long-term multi-phase grant series, aimed at radically changing the perception of Perl in the modern software development and AI industries."

(This grant proposal has been simplified and re-submitted, per the request of TPF's grant committee.)

Benefits to the Perl Community

Phase 1 implements PerlGPT v1.0 and benefits the Perl community by enabling the creation of new pure-Perl libraries and applications on CPAN.

PerlGPT v1.0 is trained on pure-Perl source code examples and high-quality POD documentation from CPAN, GitLab, GitHub, and Bitbucket. PerlGPT is further trained on plain-English technical discussions pertaining to their respective feature set, gathered from Perl Monks and Stack Overflow.

For example, a programmer may want to create a new Perl API for some 3rd-party web platform such as the Amazon cloud. The programmer can write a plain-English description of their desired API features and functionality for accessing the Amazon cloud. They can also specify design decisions such as whether or not to utilize an MVC framework like Catalyst or Mojolicious, and they can even start stubbing out some Perl classes and subroutines with comments included where source code should be added.

In this example, PerlGPT v1.0 will work with the programmer to iteratively implement their desired Amazon cloud API in pure Perl, including a full-coverage test suite and POD documentation, etc. Once the API is working well enough for public release, the PerlGPT v1.0 LLM can even help the programmer execute the correct Dist::Zilla commands to build and upload the software to CPAN. Finally, many new independent Perl projects can be created with access to the Amazon cloud, thanks to the Perl API created and uploaded to CPAN with the help of PerlGPT v1.0!

These same benefits apply to any other non-Amazon API which somebody may want to create in Perl, or to any pure-Perl library or application that a programmer can think up. The sky is the limit! PerlGPT v1.0 dramatically increases the effectiveness and efficiency of creating new pure-Perl software.

Deliverables

• An implementation of the PerlGPT v1.0 13B large language model based on the Code Llama language model, configured and built using Dist::Zilla. (100 hours labor)
• • A comprehensive Perl test suite with automatically-provable coverage for 100% of the PerlGPT v1.0 LLM, using Test2 from CPAN. (45 hours labor)
• A carefully-written and explanatory collection of documentation with coverage for 100% of the PerlGPT v1.0 LLM, using normal POD fully compatible with CPAN. (20 hours labor)
• A small collection of user-friendly example Perl applications, using PerlGPT v1.0 LLM components to effectively showcase this project. (30 hours labor)
• A public GitLab repository with all source code and components of the PerlGPT v1.0 LLM, including unstable or experimental components. (5 hours labor)
• A public CPAN distribution with all stable source code and components of the PerlGPT v1.0 LLM. (5 hours labor)
• A public Docker repository with images containing all stable source code and components of the PerlGPT v1.0 LLM, along with all dependencies, ready to run out-of-the-box. (15 hours labor)
• The PerlGPT v1.0 LLM design does NOT yet support anything other than pure Perl source code. These features will be addressed in future grant proposals.
• This grant proposal specifically does NOT include PerlGPT phase 2 or beyond, such as XS or C or Perl internals, which is far beyond the scope of a single grant and will be addressed in future proposals.

Project details

We will generate the PerlGPT language model by training a Llama foundational language model. This training will be done using a combination of both manually-curated and automatically-selected stimulus/response pairs, collected from public websites and data sources. We will not utilize any proprietary data or stimulus/response training sets taken from other proprietary language models, such as OpenAI's ChatGPT, etc.

Most of the technical details of how to train the PerlGPT language model can be found in the following papers:

Training Language Models to Follow Instructions with Human Feedback, 3-4-2022

Teaching Large Language Models to Self-Debug, 4-11-2023

LLaMA: Open and Efficient Foundation Language Models, 2-27-2023

Project Schedule

Total development time is estimated at 3 to 6 months, with the normal disclaimer about the difficulty of predicting software project durations.

During the first work cycle of approximately 1 to 2 months, curate and implement the initial PerlGPT v1.0 training data set.

During the second work cycle, run the LLM training procedure and implement the Perl test suite. (The training may take a particularly long time on our currently-available GPU hardware, due to limitations in available grant funding for renting very expensive high-end GPU hardware.)

During the third work cycle, write the Perl documentation and implement the Perl example applications.

If a fourth work cycle is required, continue until the public releases on CPAN and DockerHub are complete.

Completeness Criteria

This grant is deemed complete when all the above-listed deliverables are reviewed and accepted by the official TPF-assigned grant manager.

Bio

We are both professional CPAN authors, with a current total of 98 CPAN distributions between the two of us.

JJNAPIORK RMZG

John is the maintainer of Catalyst:

Catalyst Runtime

The Perl Foundation sponsored the Perl TensorFlow API phase 1, and we recently worked with our colleagues Will Braswell and Zaki Mughal to successfully utilize and showcase Perl TensorFlow in the new ChatGPU Navi AI system:

Introduction to TensorFlow in Perl

We both live in the Austin, Texas area.

The first ever Perl and Koha conference was held in Helsinki, Finland this year. It featured three main days of Perl and Koha presentations and two days of workshops. Workshops included a Perl training session, a masterclass for new Koha developers, Koha improvement initiatives, discussions on the future of Perl as a language, and more.

Koha is the first free open source software library automation package. In use worldwide its development is steered by a growing community of users. Koha is a framework developed in Perl with modules stored on CPAN. Koha allows end users to borrow books from within district and national library systems. A large number of attendees were Koha front end users that are primarily made up of librarians. Perl community members made up an estimated third of attendees. While the connection between these two communities may not be obvious, they benefit from working together.

I was graciously given time to interview two attendees, Salve and Julien, they say there was room for cross interaction between Koha and Perl during talks and workshops, and speakers from both gave talks about mentoring that were attended by members from both communities. Community members also interacted during lightning talks and social events, such as the reception. The reception was held in the National Library in Helsinki and was impressive to the attendees.

Most of the people involved with Koha are librarians looking to make their lives better at work. In the eyes of some attendees, coding is something you do to reach a goal and Perl is well matched with Koha because of this. Koha also has a strong community, similar to our Perl community. Open source projects like Koha can save schools and public libraries thousands of dollars.

Finally, both of the interviewees found the opening talks especially moving. Olga Dibrova, The Ukrainian ambassador to Finland, was a surprise speaker at the opening. She spoke about the devastating impact the Russian invasion has caused on Ukrainian libraries and the urgency to rebuild those structures once it can be safely done. Perl/Koha conference organizer Andrii, also supports Ukrainian libraries and has created a project to help rebuild not only structures, but also the book collections that have been burned during the war. For more information about the Ukrainian Libraries help and post-war restoration initiative, visit https://perlkohacon.fi/ULRI.html .

Next year the conference will be held in Montreal, Canada.

Dave writes:

This is my monthly report on work done during June-August 2023 covered by my TPF perl core maintenance grant.

I fixed a performance regression bug related to my 'multiconcat' optimisation work from about 5 years ago.

Other than that, I restarted my work on my "make stack reference counted" branch, got it into a working state, and merged it into blead. See below for a detailed explanation.

SUMMARY:

• 11:02 GH #21360: Severe regex/concatenation performance regression
• 49:45 make stack reference counted
• 18:13 process p5p mailbox

TOTAL: * 79:00 (HH::MM)

Understanding the "stack not reference counted" issue.

I've been asked to include an explanation as to why "making the perl stack reference counted" is a Good Thing, and why it's burning up so many hours in TPF funding.

Internally, perl is mainly based around Scalar Value (SV) structures, which hold a single value. Entities such as $x or $a[0] are all SVs. These SVs include a reference count (RC) field which, when it reaches zero, triggers the freeing of the SV. For the basics, consider the following code:

sub f {
    my $x = ...;
    my $y = ...;
    return \$y;
}
my $ref = f();

On return from the function, the SV associated with $x is freed in a timely manner. This is because its RC starts as 1, and is reduced to 0 on scope exit. Conversely, the SV bound to $y has its RC increased to 2 by a reference being taken to it, then back down to 1 when $y goes out of scope. So it lives on, accessible as $$ref. This is all good.

Now, perl is a stack-based engine. Internally this means that it has a stack of pointers to SVs, and such pointers are pushed on and popped off as perl executes ops. For example, the action of perl's '+' operator is to:

• pop two SV pointers off the argument stack;
• add together the numeric values of those two SVs;
• store the result in another SV;
• push a pointer to that new SV onto the stack.

For brevity's sake, I shall in future refer to "pushing an SV" where I mean "pushing a pointer to an SV onto the argument stack".

Now we come to the issue. As a "premature optimisation", perl doesn't increase an SV's RC when pushing onto the stack, nor decrease it when popping. This has the obvious danger that an SV could be be freed while still on the stack, and thus something like an add operator could access a freed SV (and thus undef value), or even worse, the SV could have been reallocated in the meantime and have a completely unrelated value.

Related to this, the @_ argument array doesn't normally reference-count its contents. For normal arrays, the expression $a[0] = "abc" will create an SV, which has the value "abc", and which has a RC of 1 to account for the pointer to the SV which is stored in the array. When the array is freed, the RC of each SV in the array is decremented, and so the elements of the array are typically freed too. @_ doesn't do this. Instead, when a function is called, the arguments are pushed onto the stack (without the RC being bumped), then the list of SV pointers are moved from the stack into @_, again without the RCs being adjusted.

Thus items in @_ are in danger of being prematurely freed.

Here is a classic example of the bug. Examine this code carefully:

@a = qw(aaa bbb);
f(@a);

sub f {
    # on entry, $_[0] is an alias of $a[0],
    #           $_[1] is an alias of $a[1],
    print "@_\n"; # correctly prints "aaa bbb"

    @a = (); # this prematurely frees $_[0] and $_[1]

    # this causes the two just-freed SVs to be reallocated
    my $x = 'xxx:yyy'; my @x = split /:/, $x;

    # but the two reallocated SVs are still referenced by @_
    print "@_\n"; # incorrectly prints "xxx yyy"
}

This may sound horrendous, and in a way it is. Put in practice, this doesn't happen as often as you might expect. There is usually something else keeping the elements of @_ alive, so the bug is rarely encountered in day-to-day code. But when it does, it can be difficult to track down.

Also, it sabotages code-fuzzers. From time to time, volunteers run jobs which create perl "programs" out of small random fragments and attempt to run them. If one crashes (in the sense of a SEGV or ASAN error), then that indicates a bug in the perl interpreter itself. However, we stopped accepting such bug reports, becuase the vast majority of them turned out to be variants on "stack not refcounted", but it was taking some time to analyse each report and reach that conclusion.

So fixing this bug would be a Good Thing. However, it turns out that fixing it is rather hard. This design flaw has been in the heart of the perl core for 25+ years, and there's about 30,000 lines of C code directly related to implementing all the stack operators (basically just about every op in perl works from the stack).

In particular, it's an all-or-nothing situation: you can't have half the ops adjusting reference counts when pushing/popping while the other half leave them unadjusted.

The way I eventually worked out how to achieve this was by initially wrapping nearly every op function (around 300 of them) with code that adjusts the reference counts of all its arguments on the stack, calls the "real" function, then adjusts any return values in the stack.

This allowed a "big switch" to be turned on in one go that activated reference counting across the entirety of the perl core.

Then in relative leisure, each individual function can be re-written to work directly on an RC stack and not require slow wrapping.

The initial wrapping work, involving around 70 commits, was merged into blead on 16th August. from that point it is now possible to build a perl with the PERL_RC_STACK configuration option which will now run safely, fixing at least least 70 issue tickets and allowing fuzzers to be be used again, while running approximately 30% slower (based on approximate time to run the test suite).

A second set of commits, merged on 4th Sept, unwrapped many of the common and/or easy ops, leaving around 140 out of 314 still to unwrap. At a very rough glance this is now around 10% slower than "vanilla" blead. I haven't done any proper benchmarking yet, though - I plan to do that after I've unwrapped all the hot ops.

Note that none of this work (or at least, very little) currently affects a default build of the perl interpreter: it is only when perl is built with the PERL_RC_STACK option that reference-counting is enabled. Without that, perl behaves and performs just as before (although many of the ops have now been rewritten to use a new API to manipulate the stack: which in theory should behave in a non-changed way on non-PERL_RC_STACK builds).

It is intended that eventually, PERL_RC_STACK will become the default, and then the only, build option.

There is still much work to be done, including

• unwrapping more ops,
• fixing some common CPAN distributions (and/or perl core) where they don't work under PERL_RC_STACK builds (note that most already do).
• optimising some of the hot ops
• making common XS code not needing the slowdown of wrapping,

Tony writes:

``` [Hours] [Activity] 2023/07/03 Monday 0.92 #21181 fixes, testing, re-push and push to smoke-me 0.50 #21180 fixes, testing, push for re-CI 1.52 apply one of my PRs, look into unexpected mingw64 failure

on another PR

2.94

2023/07/04 Tuesday 0.42 #21120 apply to blead, perldelta update, add to maint votes 0.65 #21132, #21095 apply to blead, perldelta #21202 comment 0.08 #21118, #21060 apply to blead 0.28 #21031 apply to blead 0.85 #21041 testing, checks to see if regen changes meant this needed updates, apply to blead 0.45 #21030 testing, apply to blead, perldelta 0.30 #21180 check CI results, apply to blead

1.37 #21202 look at mingw failure again, testing, comment

4.40

2023/07/05 Wednesday 2.55 #21202 more testing, only happens when linking with -g, doesn’t happen with gcc from WIP strawberry perl 3.03 #21202 work on trying to use mingw64 that’s meant to be

part of the runner

5.58

2023/07/06 Thursday 1.65 #21202 mingw64 that’s part of the runner is old, install using action, but it’s ucrt, see if we can detect that

0.98 #21202 work on ucrt support

2.63

2023/07/10 Monday 0.68 #21212 research and comment 1.98 #21202 detect CRT type and pass it into the build, start on adapting conditional compilation to match

1.22 #21202 more adaption, get it building, testing

3.88

2023/07/11 Tuesday 1.60 #21202 clean up, work on adapting CI itself

3.20 #21202 testing, fix some issues, make PR #21234

4.80

2023/07/12 Wednesday 0.38 #21202 change as suggested by xenu, push for CI 0.08 #21202 squash UCRT re-work into original commit and re- push 0.35 #21012 comment 0.13 review github notifications 1.08 #21176 fix issues, re-push 0.43 push revert for generateuudmap change to CI 0.57 #21230 review, comment 0.20 #21227 review and approve 0.08 #21226 review and approve

0.15 #21225 review and approve

3.45

2023/07/13 Thursday 1.50 #21012 follow-up, add a related fix, comment 0.10 generate_uudmap revert: make PR 21237 0.80 #21233 work on fix and testing, make into a branch on the upstream and push for CI 0.13 #21233 clean up and make pr pjf/autodie#120 0.12 #21152 briefly comment 2.15 #21186 research, testing and comment 0.73 #21084 work on fixing format strings, side-tracked by

build issue, work it out, finish fix and update branch

5.53

2023/07/17 Monday 0.13 #21240 comment 0.82 #21241 review and comments 2.40 #21186 have porting tests handle CRLF checkouts on Win32,

review some PRs while testing

3.35

2023/07/18 Tuesday 0.35 #21230 comments 0.35 #21240 review updates and approve 0.17 #21252 research and comment 0.48 #21186 re-work, testing 0.32 #21186 recheck, push for CI 0.12 #21257 review and comment

0.73 #21256 review, some comments

2.52

2023/07/19 Wednesday 0.08 #21257 comment about possible mis-close 0.18 #21241 follow-up 0.17 #21256 research 0.43 #21256 follow-up comment, separate comment on another commit 0.23 #21266 review and approve

0.12 #21264 review and comment

1.21

2023/07/20 Thursday 0.45 github notifications 0.92 #21265 review, research and approve 1.47 #20811 rebase, testing, re-check 0.13 #21152 apply to blead

0.43 #21233 make into a blead PR 21270

3.40

2023/07/24 Monday 0.48 #21256 review new changes and approve 0.45 #21230 follow-up 0.38 PPC#36 review, re-check mailing list discussion 1.08 #21271 debug and work on a fix, testing, make PR 21284

1.17 try codeql on perl source, review results

3.56

2023/07/25 Tuesday 0.65 #21271 apply to blead, add to votes files, perldelta 0.68 ppc#36 comment 0.05 #21287 review and approve 0.03 #21281 review and apply to blead 0.17 #21280 review, briefly research and comment 0.07 #21280 review changes, follow-up comment 1.75 #21286 review and approve 0.43 #21149 re-check and apply to blead

0.03 #21032 apply to blead

3.86

2023/07/26 Wednesday 0.18 ppc#36 comment 0.80 #21290 research, comment 0.08 #21289 comment briefly 0.18 #21275 close 0.08 #21292 review and approve 0.05 #21285 review and approve 1.20 #21294 reviewing more locale changes 0.43 #21294 more reviewing more locale changes 0.10 #21211 review and approve 0.22 #21236 review and approve 0.18 #21012 rebase to get the mingw fix 0.18 #21187 work on a doc fix 1.40 try -Wshadow, work on -Wconversion fixes (since it detects

some known issues)

5.08

2023/07/27 Thursday 0.60 #21294 research, follow-up 0.77 more -Wconversion 0.50 #21187 make the doc update more complete, make PR 21298 0.95 #21297 testing, comment 0.70 #21012 apply to blead and perldelta 0.65 #20990 rebase and testing

0.62 more -Wconversion

4.79

2023/07/31 Monday 0.40 #21297 review new patch and approve 0.33 #21294 review changes and approve 0.20 #21298 minor update 0.60 #21310 review, testing (and find -Dusequadmath -Dclang doesn’t work with or without this change), approve 0.07 #21302 review and approve 0.15 #21304 research 0.37 #20811 rebase and apply to blead 0.48 look at some win32/gnumakefile optimization fixes 0.32 #21312 review and approve 1.07 more win32/gnumakefile, testing 0.07 #21298 apply to blead

0.12 #21313 research

4.18

Which I calculate is 65.16 hours.

Approximately 54 tickets were reviewed or worked on, and 15 patches were applied. ```