patch 9.0.1776: No support for stable Python 3 ABI Commit: https://github.com/vim/vim/commit/c13b3d1350b60b94fe87f0761ea31c0e7fb6ebf3 Author: Yee Cheng Chin <ychin.git@gmail.com> Date: Sun Aug 20 21:18:38 2023 +0200 patch 9.0.1776: No support for stable Python 3 ABI Problem: No support for stable Python 3 ABI Solution: Support Python 3 stable ABI Commits: 1) Support Python 3 stable ABI to allow mixed version interoperatbility Vim currently supports embedding Python for use with plugins, and the "dynamic" linking option allows the user to specify a locally installed version of Python by setting `pythonthreedll`. However, one caveat is that the Python 3 libs are not binary compatible across minor versions, and mixing versions can potentially be dangerous (e.g. let's say Vim was linked against the Python 3.10 SDK, but the user sets `pythonthreedll` to a 3.11 lib). Usually, nothing bad happens, but in theory this could lead to crashes, memory corruption, and other unpredictable behaviors. It's also difficult for the user to tell something is wrong because Vim has no way of reporting what Python 3 version Vim was linked with. For Vim installed via a package manager, this usually isn't an issue because all the dependencies would already be figured out. For prebuilt Vim binaries like MacVim (my motivation for working on this), AppImage, and Win32 installer this could potentially be an issue as usually a single binary is distributed. This is more tricky when a new Python version is released, as there's a chicken-and-egg issue with deciding what Python version to build against and hard to keep in sync when a new Python version just drops and we have a mix of users of different Python versions, and a user just blindly upgrading to a new Python could lead to bad interactions with Vim. Python 3 does have a solution for this problem: stable ABI / limited API (see https://docs.python.org/3/c-api/stable.html). The C SDK limits the API to a set of functions that are promised to be stable across versions. This pull request adds an ifdef config that allows us to turn it on when building Vim. Vim binaries built with this option should be safe to freely link with any Python 3 libraies without having the constraint of having to use the same minor version. Note: Python 2 has no such concept and this doesn't change how Python 2 integration works (not that there is going to be a new version of Python 2 that would cause compatibility issues in the future anyway). --- Technical details: ====== The stable ABI can be accessed when we compile with the Python 3 limited API (by defining `Py_LIMITED_API`). The Python 3 code (in `if_python3.c` and `if_py_both.h`) would now handle this and switch to limited API mode. Without it set, Vim will still use the full API as before so this is an opt-in change. The main difference is that `PyType_Object` is now an opaque struct that we can't directly create "static types" out of, and we have to create type objects as "heap types" instead. This is because the struct is not stable and changes from version to version (e.g. 3.8 added a `tp_vectorcall` field to it). I had to change all the types to be allocated on the heap instead with just a pointer to them. Other functions are also simply missing in limited API, or they are introduced too late (e.g. `PyUnicode_AsUTF8AndSize` in 3.10) to it that we need some other ways to do the same thing, so I had to abstract a few things into macros, and sometimes re-implement functions like `PyObject_NEW`. One caveat is that in limited API, `OutputType` (used for replacing `sys.stdout`) no longer inherits from `PyStdPrinter_Type` which I don't think has any real issue other than minor differences in how they convert to a string and missing a couple functions like `mode()` and `fileno()`. Also fixed an existing bug where `tp_basicsize` was set incorrectly for `BufferObject`, `TabListObject, `WinListObject`. Technically, there could be a small performance drop, there is a little more indirection with accessing type objects, and some APIs like `PyUnicode_AsUTF8AndSize` are missing, but in practice I didn't see any difference, and any well-written Python plugin should try to avoid excessing callbacks to the `vim` module in Python anyway. I only tested limited API mode down to Python 3.7, which seemes to compile and work fine. I haven't tried earlier Python versions. 2) Fix PyIter_Check on older Python vers / type##Ptr unused warning For PyIter_Check, older versions exposed them as either macros (used in full API), or a function (for use in limited API). A previous change exposed PyIter_Check to the dynamic build because Python just moved it to function-only in 3.10 anyway. Because of that, just make sure we always grab the function in dynamic builds in earlier versions since that's what Python eventually did anyway. 3) Move Py_LIMITED_API define to configure script Can now use --with-python-stable-abi flag to customize what stable ABI version to target. Can also use an env var to do so as well. 4) Show +python/dyn-stable in :version, and allow has() feature query Not sure if the "/dyn-stable" suffix would break things, or whether we should do it another way. Or just don't show it in version and rely on has() feature checking. 5) Documentation first draft. Still need to implement v:python3_version 6) Fix PyIter_Check build breaks when compiling against Python 3.8 7) Add CI coverage stable ABI on Linux/Windows / make configurable on Windows This adds configurable options for Windows make files (both MinGW and MSVC). CI will also now exercise both traditional full API and stable ABI for Linux and Windows in the matrix for coverage. Also added a "dynamic" option to Linux matrix as a drive-by change to make other scripting languages like Ruby / Perl testable under both static and dynamic builds. 8) Fix inaccuracy in Windows docs Python's own docs are confusing but you don't actually want to use `python3.dll` for the dynamic linkage. 9) Add generated autoconf file 10) Add v:python3_version support This variable indicates the version of Python3 that Vim was built against (PY_VERSION_HEX), and will be useful to check whether the Python library you are loading in dynamically actually fits it. When built with stable ABI, it will be the limited ABI version instead (`Py_LIMITED_API`), which indicates the minimum version of Python 3 the user should have, rather than the exact match. When stable ABI is used, we won't be exposing PY_VERSION_HEX in this var because it just doesn't seem necessary to do so (the whole point of stable ABI is the promise that it will work across versions), and I don't want to confuse the user with too many variables. Also, cleaned up some documentation, and added help tags. 11) Fix Python 3.7 compat issues Fix a couple issues when using limited API < 3.8 - Crash on exit: In Python 3.7, if a heap-allocated type is destroyed before all instances are, it would cause a crash later. This happens when we destroyed `OptionsType` before calling `Py_Finalize` when using the limited API. To make it worse, later versions changed the semantics and now each instance has a strong reference to its own type and the recommendation has changed to have each instance de-ref its own type and have its type in GC traversal. To avoid dealing with these cross-version variations, we just don't free the heap type. They are static types in non-limited-API anyway and are designed to last through the entirety of the app, and we also don't restart the Python runtime and therefore do not need it to have absolutely 0 leaks. See: - https://docs.python.org/3/whatsnew/3.8.html#changes-in-the-c-api - https://docs.python.org/3/whatsnew/3.9.html#changes-in-the-c-api - PyIter_Check: This function is not provided in limited APIs older than 3.8. Previously I was trying to mock it out using manual PyType_GetSlot() but it was brittle and also does not actually work properly for static types (it will generate a Python error). Just return false. It does mean using limited API < 3.8 is not recommended as you lose the functionality to handle iterators, but from playing with plugins I couldn't find it to be an issue. - Fix loading of PyIter_Check so it will be done when limited API < 3.8. Otherwise loading a 3.7 Python lib will fail even if limited API was specified to use it. 12) Make sure to only load `PyUnicode_AsUTF8AndSize` in needed in limited API We don't use this function unless limited API >= 3.10, but we were loading it regardless. Usually it's ok in Unix-like systems where Python just has a single lib that we load from, but in Windows where there is a separate python3.dll this would not work as the symbol would not have been exposed in this more limited DLL file. This makes it much clearer under what condition is this function needed. closes: #12032 Signed-off-by: Christian Brabandt <cb@256bit.org> Co-authored-by: Yee Cheng Chin <ychin.git@gmail.com>

*usr_43.txt*	For Vim version 9.0.  Last change: 2015 Oct 23

		     VIM USER MANUAL - by Bram Moolenaar

			       Using filetypes


When you are editing a file of a certain type, for example a C program or a
shell script, you often use the same option settings and mappings.  You
quickly get tired of manually setting these each time.  This chapter explains
how to do it automatically.

|43.1|	Plugins for a filetype
|43.2|	Adding a filetype

     Next chapter: |usr_44.txt|  Your own syntax highlighted
 Previous chapter: |usr_42.txt|  Add new menus
Table of contents: |usr_toc.txt|

==============================================================================
*43.1*	Plugins for a filetype				*filetype-plugin*

How to start using filetype plugins has already been discussed here:
|add-filetype-plugin|.  But you probably are not satisfied with the default
settings, because they have been kept minimal.  Suppose that for C files you
want to set the 'softtabstop' option to 4 and define a mapping to insert a
three-line comment.  You do this with only two steps:

							*your-runtime-dir*
1. Create your own runtime directory.  On Unix this usually is "~/.vim".  In
   this directory create the "ftplugin" directory: >

	mkdir ~/.vim
	mkdir ~/.vim/ftplugin
<
   When you are not on Unix, check the value of the 'runtimepath' option to
   see where Vim will look for the "ftplugin" directory: >

	set runtimepath

<  You would normally use the first directory name (before the first comma).
   You might want to prepend a directory name to the 'runtimepath' option in
   your |vimrc| file if you don't like the default value.

2. Create the file "~/.vim/ftplugin/c.vim", with the contents: >

	setlocal softtabstop=4
	noremap <buffer> <LocalLeader>c o/**************<CR><CR>/<Esc>
	let b:undo_ftplugin = "setl softtabstop< | unmap <buffer> <LocalLeader>c"

Try editing a C file.  You should notice that the 'softtabstop' option is set
to 4.  But when you edit another file it's reset to the default zero.  That is
because the ":setlocal" command was used.  This sets the 'softtabstop' option
only locally to the buffer.  As soon as you edit another buffer, it will be
set to the value set for that buffer.  For a new buffer it will get the
default value or the value from the last ":set" command.

Likewise, the mapping for "\c" will disappear when editing another buffer.
The ":map <buffer>" command creates a mapping that is local to the current
buffer.  This works with any mapping command: ":map!", ":vmap", etc.  The
|<LocalLeader>| in the mapping is replaced with the value of the
"maplocalleader" variable.

The line to set b:undo_ftplugin is for when the filetype is set to another
value.  In that case you will want to undo your preferences.  The
b:undo_ftplugin variable is executed as a command. Watch out for characters
with a special meaning inside a string, such as a backslash.

You can find examples for filetype plugins in this directory: >

	$VIMRUNTIME/ftplugin/

More details about writing a filetype plugin can be found here:
|write-plugin|.

==============================================================================
*43.2*	Adding a filetype

If you are using a type of file that is not recognized by Vim, this is how to
get it recognized.  You need a runtime directory of your own.  See
|your-runtime-dir| above.

Create a file "filetype.vim" which contains an autocommand for your filetype.
(Autocommands were explained in section |40.3|.)  Example: >

	augroup filetypedetect
	au BufNewFile,BufRead *.xyz	setf xyz
	augroup END

This will recognize all files that end in ".xyz" as the "xyz" filetype.  The
":augroup" commands put this autocommand in the "filetypedetect" group.  This
allows removing all autocommands for filetype detection when doing ":filetype
off".  The "setf" command will set the 'filetype' option to its argument,
unless it was set already.  This will make sure that 'filetype' isn't set
twice.

You can use many different patterns to match the name of your file.  Directory
names can also be included.  See |autocmd-patterns|.  For example, the files
under "/usr/share/scripts/" are all "ruby" files, but don't have the expected
file name extension.  Adding this to the example above: >

	augroup filetypedetect
	au BufNewFile,BufRead *.xyz			setf xyz
	au BufNewFile,BufRead /usr/share/scripts/*	setf ruby
	augroup END

However, if you now edit a file /usr/share/scripts/README.txt, this is not a
ruby file.  The danger of a pattern ending in "*" is that it quickly matches
too many files.  To avoid trouble with this, put the filetype.vim file in
another directory, one that is at the end of 'runtimepath'.  For Unix for
example, you could use "~/.vim/after/filetype.vim".
   You now put the detection of text files in ~/.vim/filetype.vim: >

	augroup filetypedetect
	au BufNewFile,BufRead *.txt			setf text
	augroup END

That file is found in 'runtimepath' first.  Then use this in
~/.vim/after/filetype.vim, which is found last: >

	augroup filetypedetect
	au BufNewFile,BufRead /usr/share/scripts/*	setf ruby
	augroup END

What will happen now is that Vim searches for "filetype.vim" files in each
directory in 'runtimepath'.  First ~/.vim/filetype.vim is found.  The
autocommand to catch *.txt files is defined there.  Then Vim finds the
filetype.vim file in $VIMRUNTIME, which is halfway 'runtimepath'.  Finally
~/.vim/after/filetype.vim is found and the autocommand for detecting ruby
files in /usr/share/scripts is added.
   When you now edit /usr/share/scripts/README.txt, the autocommands are
checked in the order in which they were defined.  The *.txt pattern matches,
thus "setf text" is executed to set the filetype to "text".  The pattern for
ruby matches too, and the "setf ruby" is executed.  But since 'filetype' was
already set to "text", nothing happens here.
   When you edit the file /usr/share/scripts/foobar the same autocommands are
checked.  Only the one for ruby matches and "setf ruby" sets 'filetype' to
ruby.


RECOGNIZING BY CONTENTS

If your file cannot be recognized by its file name, you might be able to
recognize it by its contents.  For example, many script files start with a
line like:

	#!/bin/xyz ~

To recognize this script create a file "scripts.vim" in your runtime directory
(same place where filetype.vim goes).  It might look like this: >

	if did_filetype()
	  finish
	endif
	if getline(1) =~ '^#!.*[/\\]xyz\>'
	  setf xyz
	endif

The first check with did_filetype() is to avoid that you will check the
contents of files for which the filetype was already detected by the file
name.  That avoids wasting time on checking the file when the "setf" command
won't do anything.
   The scripts.vim file is sourced by an autocommand in the default
filetype.vim file.  Therefore, the order of checks is:

	1. filetype.vim files before $VIMRUNTIME in 'runtimepath'
	2. first part of $VIMRUNTIME/filetype.vim
	3. all scripts.vim files in 'runtimepath'
	4. remainder of $VIMRUNTIME/filetype.vim
	5. filetype.vim files after $VIMRUNTIME in 'runtimepath'

If this is not sufficient for you, add an autocommand that matches all files
and sources a script or executes a function to check the contents of the file.

==============================================================================

Next chapter: |usr_44.txt|  Your own syntax highlighted

Copyright: see |manual-copyright|  vim:tw=78:ts=8:noet:ft=help:norl: