* buildcache sync: manifest-glob with arbitrary destination
The current implementation of the --manifest-glob is a bit restrictive
requiring the destination to be known by the generation stage of CI.
This allows specifying an arbitrary destination mirror URL.
* Add unit test for buildcache sync with manifest
* Fix test and arguments for manifest-glob with override destination
* Add testing path for unused mirror argument
* Remove a few compilers from static test data
These compilers were used only in a bunch of tests, so
they are added only there.
* Remove clang@3.3 from unit test configuration
* Parametrize compilers.yaml
* Remove specially named gcc from static data
The compilers are used in two tests
* Remove apple-clang and macOS compilers from static data
The compiler was used only in multimethod tests
* Remove clang@3.5 (compiler seems to be unused)
* Remove gcc@4.4.0 (compiler seems to be unused)
* Exclude x86_64 tests on other architectures
* Mark two tests as for clingo only
* Update version syntax in compilers.yaml
* Parametrize tcl tests on architectures
* Parametrize lmod tests on architectures
* Substitute gcc@4.5.0 with gcc@4.8.0 so it can be used on aarch64
* Fix a few issues with aarch64 and unit-tests
It's now possible to add config on the command line with `spack -c <CONFIG_VARS> ...`, but the new `command_line` scope isn't reflected in the help output for `--scope`:
```bash
> spack help config
...
--scope {defaults,system,site,user}[/PLATFORM] or env:ENVIRONMENT
configuration scope to read/modify
...
```
This PR adds:
- A new runtime for `%oneapi` compilers, called `intel-oneapi-runtime`
- Information to both `gcc-runtime` and `intel-oneapi-runtime`, to ensure
that we don't mix compilers using different soname for either `libgfortran`
or `libifcore`
To do so, the following internal mechanisms have been implemented:
- Possibility to inject virtual dependencies from the `runtime_constraints`
callback on packages
Information has been added to `gcc-runtime` to provide the correct soname
under different conditions on its `%gcc`.
Rules injected into the solver looks like:
```prolog
% Add a dependency on 'gfortran@5' for nodes compiled with gcc@=13.2.0 and using the 'fortran' language
attr("dependency_holds", node(ID, Package), "gfortran", "link") :-
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
attr("virtual_node", node(RuntimeID, "gfortran")) :-
attr("depends_on", node(ID, Package), ProviderNode, "link"),
provider(ProviderNode, node(RuntimeID, "gfortran")),
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
attr("node_version_satisfies", node(RuntimeID, "gfortran"), "5") :-
attr("depends_on", node(ID, Package), ProviderNode, "link"),
provider(ProviderNode, node(RuntimeID, "gfortran")),
attr("node", node(ID, Package)),
attr("node_compiler", node(ID, Package), "gcc"),
attr("node_compiler_version", node(ID, Package), "gcc", "13.2.0"),
not external(node(ID, Package)),
not runtime(Package),
attr("language", node(ID, Package), "fortran").
```
The default url couldn't be the one with v0.0.0-aws since spack was
replacing v0.0.0-aws with v<version_number> for example, deleting the
-aws suffix. I used the url_for_version method to specify this suffix.
This adds support for prereleases. Alpha, beta and release candidate
suffixes are ordered in the intuitive way:
```
1.2.0-alpha < 1.2.0-alpha.1 < 1.2.0-beta.2 < 1.2.0-rc.3 < 1.2.0 < 1.2.0-xyz
```
Alpha, beta and rc prereleases are defined as follows: split the version
string into components like before (on delimiters and string boundaries).
If there's a string component `alpha`, `beta` or `rc` followed by an optional
numeric component at the end, then the version is prerelease.
So `1.2.0-alpha.1 == 1.2.0alpha1 == 1.2.0.alpha1` are all the same, as usual.
The strings `alpha`, `beta` and `rc` are chosen because they match semver,
they are sufficiently long to be unambiguous, and and all contain at least
one non-hex character so distinguish them from shasum/digest type suffixes.
The comparison key is now stored as `(release_tuple, prerelease_tuple)`, so in
the above example:
```
((1,2,0),(ALPHA,)) < ((1,2,0),(ALPHA,1)) < ((1,2,0),(BETA,2)) < ((1,2,0),(RC,3)) < ((1,2,0),(FINAL,)) < ((1,2,0,"xyz"), (FINAL,))
```
The version ranges `@1.2.0:` and `@:1.1` do *not* include prereleases of
`1.2.0`.
So for packaging, if the `1.2.0alpha` and `1.2.0` versions have the same constraints on
dependencies, it's best to write
```python
depends_on("x@1:", when="@1.2.0alpha:")
```
However, `@1.2:` does include `1.2.0alpha`. This is because Spack considers
`1.2 < 1.2.0` as distinct versions, with `1.2 < 1.2.0alpha < 1.2.0` as a consequence.
Alternatively, the above `depends_on` statement can thus be written
```python
depends_on("x@1:", when="@1.2:")
```
which can be useful too. A short-hand to include prereleases, but you
can still be explicit to exclude the prerelease by specifying the patch version
number.
### Concretization
Concretization uses a different version order than `<`. Prereleases are ordered
between final releases and develop versions. That way, users should not
have to set `preferred=True` on every final release if they add just one
prerelease to a package. The concretizer is unlikely to pick a prerelease when
final releases are possible.
### Limitations
1. You can't express a range that includes all alpha release but excludes all beta
releases. Only alternative is good old repeated nines: `@:1.2.0alpha99`.
2. The Python ecosystem defaults to `a`, `b`, `rc` strings, so translation of Python versions to
Spack versions requires expansion to `alpha`, `beta`, `rc`. It's mildly annoying, because
this means we may need to compute URLs differently (not done in this commit).
### Hash
Care is taken not to break hashes of versions that do not have a prerelease
suffix.
Generate CI scripts as powershell on Windows. This is intended to
output exactly the same bash scripts as before on Linux.
Co-authored-by: Ryan Krattiger <ryan.krattiger@kitware.com>
