Update CHANGELOG.md for v0.22.0

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Todd Gamblin 2024-05-12 01:45:52 +02:00
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# v0.22.0 (2024-05-12)
`v0.22.0` is a major feature release.
## Features in this release
1. **Compiler dependencies**
We are in the process of making compilers proper dependencies in Spack, and a number
of changes in `v0.22` support that effort. You may notice nodes in your dependency
graphs for compiler runtime libraries like `gcc-runtime` or `libgfortran`, and you
may notice that Spack graphs now include `libc`. We've also begun moving compiler
configuration from `compilers.yaml` to `packages.yaml` to make it consistent with
other externals. We are trying to do this with the least disruption possible, so
your existing `compilers.yaml` files should still work. We expect to be done with
this transition by the `v0.23` release in November.
* #41104: Packages compiled with `%gcc` on Linux, macOS and FreeBSD now depend on a
new package `gcc-runtime`, which contains a copy of the shared compiler runtime
libraries. This enables gcc runtime libraries to be installed and relocated when
using a build cache. When building minimal Spack-generated container images it is
no longer necessary to install libgfortran, libgomp etc. using the system package
manager.
* #42062: Packages compiled with `%oneapi` now depend on a new package
`intel-oneapi-runtime`. This is similar to `gcc-runtime`, and the runtimes can
provide virtuals and compilers can inject dependencies on virtuals into compiled
packages. This allows us to model library soname compatibility and allows
compilers like `%oneapi` to provide virtuals like `sycl` (which can also be
provided by standalone libraries). Note that until we have an agreement in place
with intel, Intel packages are marked `redistribute(source=False, binary=False)`
and must be downloaded outside of Spack.
* #43272: changes to the optimization criteria of the solver improve the hit-rate of
buildcaches by a fair amount. The solver more relaxed compatibility rules and will
not try to strictly match compilers or targets of reused specs. Users can still
enforce the previous strict behavior with `require:` sections in `packages.yaml`.
Note that to enforce correct linking, Spack will *not* reuse old `%gcc` and
`%oneapi` specs that do not have the runtime libraries as a dependency.
* #43539: Spack will reuse specs built with compilers that are *not* explicitly
configured in `compilers.yaml`. Because we can now keep runtime libraries in build
cache, we do not require you to also have a local configured compiler to *use* the
runtime libraries. This improves reuse in buildcaches and avoids conflicts with OS
updates that happen underneath Spack.
* #43190: binary compatibility on `linux` is now based on the `libc` version,
instead of on the `os` tag. Spack builds now detect the host `libc` (`glibc` or
`musl`) and add it as an implicit external node in the dependency graph. Binaries
with a `libc` with the same name and a version less than or equal to that of the
detected `libc` can be reused. This is only on `linux`, not `macos` or `Windows`.
* #43464: each package that can provide a compiler is now detectable using `spack
external find`. External packages defining compiler paths are effectively used as
compilers, and `spack external find -t compiler` can be used as a substitute for
`spack compiler find`. More details on this transition are in
[the docs](https://spack.readthedocs.io/en/latest/getting_started.html#manual-compiler-configuration)
2. **Improved `spack find` UI for Environments**
If you're working in an enviroment, you likely care about:
* What are the roots
* Which ones are installed / not installed
* What's been added that still needs to be concretized
We've tweaked `spack find` in environments to show this information much more
clearly. Installation status is shown next to each root, so you can see what is
installed. Roots are also shown in bold in the list of installed packages. There is
also a new option for `spack find -r` / `--only-roots` that will only show env
roots, if you don't want to look at all the installed specs.
More details in #42334.
3. **Improved command-line string quoting**
We are making some breaking changes to how Spack parses specs on the CLI in order to
respect shell quoting instead of trying to fight it. If you (sadly) had to write
something like this on the command line:
```
spack install zlib cflags=\"-O2 -g\"
```
That will now result in an error. The correct format (which you probably expected in
the first place) is:
```
spack install zlib cflags="-O2 -g"
```
Quoted can also now include special characters, enabling commands like:
```
spack install zlib ldflags='-Wl,-rpath=$ORIGIN/_libs'
```
To reduce ambiguity in parsing, do *not* put spaces around `=` and `==` in
flags or variants, as this will now result in an error:
```
spack install zlib cflags = "-O2 -g"
```
More details and discussion in #30634.
4. **Revert default `spack install` behavior to `--reuse`**
We changed the default concretizer behavior from `--reuse` to `--reuse-deps` in
#30990 (in `v0.20`), which meant that *every* `spack install` invocation would
attempt to build a new version of the requested package / any environment roots.
While this is a common ask for *upgrading* and for *developer* workflows, we don't
think it should be the default for a package manager.
We are going to try to stick to this policy:
1. Prioritize reuse and build as little as possible by default.
2. Only upgrade or install duplicates if they are explicitly asked for, or if there
is a known security issue that necessitates an upgrade.
With the install command you now have three options:
* `--reuse` (default): reuse as many existing installations as possible.
* `--reuse-deps` / `--fresh-roots`: upgrade (freshen) roots but reuse dependencies if possible.
* `--fresh`: install fresh versions of requested packages (roots) and their dependencies.
We've also introduced `--fresh-roots` as an alias for `--reuse-deps` to make it more clear
that it may give you fresh versions. More details in #41302 and #43988.
5. **More control over reused specs**
You can now control which packages to reuse and how. There is a new
`concretizer:reuse` config option, which accepts the following properties:
- `roots`: `true` to reuse roots, `false` to reuse just dependencies
- `exclude`: list of constraints used to select which specs *not* to reuse
- `include`: list of constraints used to select which specs *to* reuse
- `from`: list of sources for reused specs (some combination of `local`,
`buildcache`, or `external`)
For example, to reuse only specs compiled with GCC, you could write:
```yaml
concretizer:
reuse:
roots: true
include:
- "%gcc"
```
Or, if `openmpi` must be used from externals, and it must be the only external used:
```yaml
concretizer:
reuse:
roots: true
from:
- type: local
exclude: ["openmpi"]
- type: buildcache
exclude: ["openmpi"]
- type: external
include: ["openmpi"]
```
6. **Add new `redistribute()` directive**
Some packages can't be redistributed in source or binary form. We need an explicit
way to say that in a package.
Now there is a `redistribute()` directive so that package authors can write:
```python
class MyPackage(Package):
redistribute(source=False, binary=False)
```
Like other directives, this works with `when=`:
```python
class MyPackage(Package):
# 12.0 and higher are proprietary
redistribute(source=False, binary=False, when="@12.0:")
# can't redistribute when we depend on some proprietary dependency
redistribute(source=False, binary=False, when="^proprietary-dependency")
```
More in #20185.
7. **New `conflict:` and `prefer:` syntax for package preferences**
Previously, you could express conflicts and preferences in `packages.yaml` through
some contortions with `require:`:
```yaml
packages:
zlib-ng:
require:
- one_of: ["%clang", "@:"] # conflict on %clang
- any_of: ["+shared", "@:"] # strong preference for +shared
```
You can now use `require:` and `prefer:` for a much more readable configuration:
```yaml
packages:
zlib-ng:
conflict:
- "%clang"
prefer:
- "+shared"
```
See [the documentation](https://spack.readthedocs.io/en/latest/packages_yaml.html#conflicts-and-strong-preferences)
and #41832 for more details.
8. **`include_concrete` in environments**
You may want to build on the *concrete* contents of another environment without
changing that environment. You can now include the concrete specs from another
environment's `spack.lock` with `include_concrete`:
```yaml
spack:
specs: []
concretizer:
unify: true
include_concrete:
- /path/to/environment1
- /path/to/environment2
```
Now, when *this* environment is concretized, it will bring in the already concrete
specs from `environment1` and `environment2`, and build on top of them without
changing them. This is useful if you have phased deployments, where old deployments
should not be modified but you want to use as many of them as possible. More details
in #33768.
9. **`python-venv` isolation**
Spack has unique requirements for Python because it:
1. installs every package in its own independent directory, and
2. allows users to register *external* python installations.
External installations may contain their own installed packages that can interfere
with Spack installations, and some distributions (Debian and Ubuntu) even change the
`sysconfig` in ways that alter the installation layout of installed Python packages
(e.g., with the addition of a `/local` prefix on Debian or Ubuntu). To isolate Spack
from these and other issues, we now insert a small `python-venv` package in between
`python` and packages that need to install Python code. This isolates Spack's build
environment, isolates Spack from any issues with an external python, and resolves a
large number of issues we've had with Python installations.
See #40773 for further details.
## New commands, options, and directives
* Allow packages to be pushed to build cache after install from source (#42423)
* `spack develop`: stage build artifacts in same root as non-dev builds #41373
* Don't delete `spack develop` build artifacts after install (#43424)
* `spack find`: add options for local/upstream only (#42999)
* `spack logs`: print log files for packages (either partially built or installed) (#42202)
* `patch`: support reversing patches (#43040)
* `develop`: Add -b/--build-directory option to set build_directory package attribute (#39606)
* `spack list`: add `--namesapce` / `--repo` option (#41948)
* directives: add `checked_by` field to `license()`, add some license checks
* `spack gc`: add options for environments and build dependencies (#41731)
* Add `--create` to `spack env activate` (#40896)
## Performance improvements
* environment.py: fix excessive re-reads (#43746)
* ruamel yaml: fix quadratic complexity bug (#43745)
* Refactor to improve `spec format` speed (#43712)
* Do not acquire a write lock on the env post install if no views (#43505)
* asp.py: fewer calls to `spec.copy()` (#43715)
* spec.py: early return in `__str__`
* avoid `jinja2` import at startup unless needed (#43237)
## Other new features of note
* `archspec`: update to `v0.2.4`: support for Windows, bugfixes for `neoverse-v1` and
`neoverse-v2` detection.
* `spack config get`/`blame`: with no args, show entire config
* `spack env create <env>`: dir if dir-like (#44024)
* ASP-based solver: update os compatibility for macOS (#43862)
* Add handling of custom ssl certs in urllib ops (#42953)
* Add ability to rename environments (#43296)
* Add config option and compiler support to reuse across OS's (#42693)
* Support for prereleases (#43140)
* Only reuse externals when configured (#41707)
* Environments: Add support for including views (#42250)
* Make signed/unsigned a mirror configuration property (#41507)
## Removals, deprecations, and syntax changes
* remove `dpcpp` compiler and package (#43418)
* `spack load`: remove --only argument (#42120)
## Notable Bugfixes
* repo.py: drop deleted packages from provider cache (#43779)
* Allow `+` in module file names (#41999)
* `cmd/python`: use runpy to allow multiprocessing in scripts (#41789)
* Show extension commands with spack -h (#41726)
* Support environment variable expansion inside module projections (#42917)
* Alert user to failed concretizations (#42655)
* shell: fix zsh color formatting for PS1 in environments (#39497)
* spack mirror create --all: include patches (#41579)
## Spack community stats
* 7,994 total packages; 525 since `v0.21.0`
* 178 new Python packages, 5 new R packages
* 358 people contributed to this release
* 344 committers to packages
* 45 committers to core
# v0.21.2 (2024-03-01) # v0.21.2 (2024-03-01)
## Bugfixes ## Bugfixes