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This PR adds a configuration setting to allow setting time limits for concretization.
For backward compatibility, the default is to set no time limit.
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It was lost in #44843
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* cached_cmake: mpifc is not always defined
* mpich: only depend on fortran when +fortran
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Packages cannot be named like that, since we use "all" to indicate
default settings under the "packages" section of the configuration.
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Add various missing imports in packages.
Remove redundant imports
Export NoLibrariesError, NoHeadersError, which_string in spack.package
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Bumps [sphinx-rtd-theme](https://github.com/readthedocs/sphinx_rtd_theme) from 3.0.1 to 3.0.2.
- [Changelog](https://github.com/readthedocs/sphinx_rtd_theme/blob/master/docs/changelog.rst)
- [Commits](https://github.com/readthedocs/sphinx_rtd_theme/compare/3.0.1...3.0.2)
---
updated-dependencies:
- dependency-name: sphinx-rtd-theme
dependency-type: direct:production
update-type: version-update:semver-patch
...
Signed-off-by: dependabot[bot] <support@github.com>
Co-authored-by: dependabot[bot] <49699333+dependabot[bot]@users.noreply.github.com>
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by disentangling `package_base`, `builder` and `directives`.
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Automatic splicing say `Spec` grow a `__len__` method but it's only used
in one place and it's not clear the semantics are useful elsewhere. It also
runs the risk of Specs one day being confused for other types of containers.
Rather than introduce a new function for one algorithm, let's use a more
specific method in the splice code.
- [x] Use topological ordering in `_resolve_automatic_splices` instead of
sorting by node count
- [x] delete `Spec.__len__()` and `Spec.__bool__()`
---------
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
Co-authored-by: Greg Becker <becker33@llnl.gov>
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
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`spack spec` output has looked like this for a while:
```console
> spack spec /v5fn6xo /wd2p2v7
Input spec
--------------------------------
- /v5fn6xo
Concretized
--------------------------------
[+] openssl@3.3.1%apple-clang@16.0.0~docs+shared build_system=generic certs=mozilla arch=darwin-sequoia-m1
[+] ^ca-certificates-mozilla@2023-05-30%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
...
Input spec
--------------------------------
- /wd2p2v7
Concretized
--------------------------------
[+] py-six@1.16.0%apple-clang@16.0.0 build_system=python_pip arch=darwin-sequoia-m1
[+] ^py-pip@23.1.2%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
```
But the input spec is right there on the CLI, and it doesn't add anything to the output.
Also, since #44843, specs concretized in the CLI line can be unified, so it makes sense
to display them as we did in #44489 -- as one multi-root tree instead of as multiple
single-root trees.
With this PR, concretize output now looks like this:
```console
> spack spec /v5fn6xo /wd2p2v7
[+] openssl@3.3.1%apple-clang@16.0.0~docs+shared build_system=generic certs=mozilla arch=darwin-sequoia-m1
[+] ^ca-certificates-mozilla@2023-05-30%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
[+] ^gmake@4.4.1%apple-clang@16.0.0~guile build_system=generic arch=darwin-sequoia-m1
[+] ^perl@5.40.0%apple-clang@16.0.0+cpanm+opcode+open+shared+threads build_system=generic arch=darwin-sequoia-m1
[+] ^berkeley-db@18.1.40%apple-clang@16.0.0+cxx~docs+stl build_system=autotools patches=26090f4,b231fcc arch=darwin-sequoia-m1
[+] ^bzip2@1.0.8%apple-clang@16.0.0~debug~pic+shared build_system=generic arch=darwin-sequoia-m1
[+] ^diffutils@3.10%apple-clang@16.0.0 build_system=autotools arch=darwin-sequoia-m1
[+] ^libiconv@1.17%apple-clang@16.0.0 build_system=autotools libs=shared,static arch=darwin-sequoia-m1
[+] ^gdbm@1.23%apple-clang@16.0.0 build_system=autotools arch=darwin-sequoia-m1
[+] ^readline@8.2%apple-clang@16.0.0 build_system=autotools patches=bbf97f1 arch=darwin-sequoia-m1
[+] ^ncurses@6.5%apple-clang@16.0.0~symlinks+termlib abi=none build_system=autotools patches=7a351bc arch=darwin-sequoia-m1
[+] ^pkgconf@2.2.0%apple-clang@16.0.0 build_system=autotools arch=darwin-sequoia-m1
[+] ^zlib-ng@2.2.1%apple-clang@16.0.0+compat+new_strategies+opt+pic+shared build_system=autotools arch=darwin-sequoia-m1
[+] ^gnuconfig@2022-09-17%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
[+] py-six@1.16.0%apple-clang@16.0.0 build_system=python_pip arch=darwin-sequoia-m1
[+] ^py-pip@23.1.2%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
[+] ^py-setuptools@69.2.0%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
[-] ^py-wheel@0.41.2%apple-clang@16.0.0 build_system=generic arch=darwin-sequoia-m1
...
```
With no input spec displayed -- just the concretization output shown as one consolidated
tree and multiple roots.
- [x] remove "Input Spec" section and "Concretized" header from `spack spec` output
- [x] print concretized specs as one BFS tree instead of multiple
---------
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
Co-authored-by: Harmen Stoppels <harmenstoppels@gmail.com>
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(#46729)
This PR provides complementary 2 features:
1. An augmentation to the package language to express ABI compatibility relationships among packages.
2. An extension to the concretizer that can synthesize splices between ABI compatible packages.
1. The `can_splice` directive and ABI compatibility
We augment the package language with a single directive: `can_splice`. Here is an example of a package `Foo` exercising the `can_splice` directive:
class Foo(Package):
version("1.0")
version("1.1")
variant("compat", default=True)
variant("json", default=False)
variant("pic", default=False)
can_splice("foo@1.0", when="@1.1")
can_splice("bar@1.0", when="@1.0+compat")
can_splice("baz@1.0+compat", when="@1.0+compat", match_variants="*")
can_splice("quux@1.0", when=@1.1~compat", match_variants="json")
Explanations of the uses of each directive:
- `can_splice("foo@1.0", when="@1.1")`: If `foo@1.0` is the dependency of an already installed spec and `foo@1.1` could be a valid dependency for the parent spec, then `foo@1.1` can be spliced in for `foo@1.0` in the parent spec.
- `can_splice("bar@1.0", when="@1.0+compat")`: If `bar@1.0` is the dependency of an already installed spec and `foo@1.0+compat` could be a valid dependency for the parent spec, then `foo@1.0+compat` can be spliced in for `bar@1.0+compat` in the parent spec
- `can_splice("baz@1.0", when="@1.0+compat", match_variants="*")`: If `baz@1.0+compat` is the dependency of an already installed spec and `foo@1.0+compat` could be a valid dependency for the parent spec, then `foo@1.0+compat` can be spliced in for `baz@1.0+compat` in the parent spec, provided that they have the same value for all other variants (regardless of what those values are).
- `can_splice("quux@1.0", when=@1.1~compat", match_variants="json")`:If `quux@1.0` is the dependency of an already installed spec and `foo@1.1~compat` could be a valid dependency for the parent spec, then `foo@1.0~compat` can be spliced in for `quux@1.0` in the parent spec, provided that they have the same value for their `json` variant.
2. Augmenting the solver to synthesize splices
### Changes to the hash encoding in `asp.py`
Previously, when including concrete specs in the solve, they would have the following form:
installed_hash("foo", "xxxyyy")
imposed_constraint("xxxyyy", "foo", "attr1", ...)
imposed_constraint("xxxyyy", "foo", "attr2", ...)
% etc.
Concrete specs now have the following form:
installed_hash("foo", "xxxyyy")
hash_attr("xxxyyy", "foo", "attr1", ...)
hash_attr("xxxyyy", "foo", "attr2", ...)
This transformation allows us to control which constraints are imposed when we select a hash, to facilitate the splicing of dependencies.
2.1 Compiling `can_splice` directives in `asp.py`
Consider the concrete spec:
foo@2.72%gcc@11.4 arch=linux-ubuntu22.04-icelake build_system=autotools ^bar ...
It will emit the following facts for reuse (below is a subset)
installed_hash("foo", "xxxyyy")
hash_attr("xxxyyy", "hash", "foo", "xxxyyy")
hash_attr("xxxyyy", "version", "foo", "2.72")
hash_attr("xxxyyy", "node_os", "ubuntu22.04")
hash_attr("xxxyyy", "hash", "bar", "zzzqqq")
hash_attr("xxxyyy", "depends_on", "foo", "bar", "link")
Rules that derive abi_splice_conditions_hold will be generated from
use of the `can_splice` directive. They will have the following form:
can_splice("foo@1.0.0+a", when="@1.0.1+a", match_variants=["b"]) --->
abi_splice_conditions_hold(0, node(SID, "foo"), "foo", BaseHash) :-
installed_hash("foo", BaseHash),
attr("node", node(SID, SpliceName)),
attr("node_version_satisfies", node(SID, "foo"), "1.0.1"),
hash_attr("hash", "node_version_satisfies", "foo", "1.0.1"),
attr("variant_value", node(SID, "foo"), "a", "True"),
hash_attr("hash", "variant_value", "foo", "a", "True"),
attr("variant_value", node(SID, "foo"), "b", VariVar0),
hash_attr("hash", "variant_value", "foo", "b", VariVar0).
2.2 Synthesizing splices in `concretize.lp` and `splices.lp`
The ASP solver generates "splice_at_hash" attrs to indicate that a particular node has a splice in one of its immediate dependencies.
Splices can be introduced in the dependencies of concrete specs when `splices.lp` is conditionally loaded (based on the config option `concretizer:splice:True`.
2.3 Constructing spliced specs in `asp.py`
The method `SpecBuilder._resolve_splices` implements a top-down memoized implementation of hybrid splicing. This is an optimization over the more general `Spec.splice`, since the solver gives a global view of exactly which specs can be shared, to ensure the minimal number of splicing operations.
Misc changes to facilitate configuration and benchmarking
- Added the method `Solver.solve_with_stats` to expose timers from the public interface for easier benchmarking
- Added the boolean config option `concretizer:splice` to conditionally load splicing behavior
Co-authored-by: Greg Becker <becker33@llnl.gov>
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We added unification semantics for parsing specs from the CLI, but there are a couple
of special cases in which we can avoid calls to the concretizer for speed when the
specs can all be resolved by lookups.
- [x] special case 1: solving a single spec
- [x] special case 2: all specs are either concrete (come from a file) or have an abstract
hash. In this case if concretizer:unify:true we need an additional check to confirm
the specs are compatible.
- [x] add a parameterized test for unifying on the CI
---------
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
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* Compiler.default_libc: early exit on darwin/win
* use .cc when testing c++ compiler if c compiler is missing
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This addresses part [1] of #46345
#44713 introduced a bug where all non-spec query parameters like date
ranges, -x, etc. were ignored when an env was active.
This fixes that issue and adds tests for it.
---------
Co-authored-by: Harmen Stoppels <me@harmenstoppels.nl>
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* Move concretization tests to the same folder
Signed-off-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
* Fix for clingo-cffi
---------
Signed-off-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
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`spack mirror add` and `set` now have flags `--oci-password-variable`, `--oci-password-variable`, `--s3-access-key-id-variable`, `--s3-access-key-secret-variable`, `--s3-access-token-variable`, which allows users to specify an environment variable in which a username or password is stored.
Storing plain text passwords in config files is considered deprecated.
The schema for mirrors.yaml has changed, notably the `access_pair` list is generally replaced with a dictionary of `{id: ..., secret_variable: ...}` or `{id_variable: ..., secret_variable: ...}`.
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- [x] Get rid of a call to `parser.quote_if_needed()` during solver setup, which
introduces a circular import and also isn't necessary.
- [x] Rename `spack.variant.Value` to `spack.variant.ConditionalValue`, as it is *only*
used for conditional values. This makes it much easier to understand some of the
logic for variant definitions.
Co-authored-by: Harmen Stoppels <me@harmenstoppels.nl>
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
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`conditional()`, which defines conditional variant values, and the other ways to declare
variant values should probably be in a layer above `spack.variant`. This does the simple
thing and moves *just* `conditional()` to `spack.directives` to avoid a circular import.
We can revisit the public variant interface later, when we split packages from core.
Co-authored-by: Harmen Stoppels <me@harmenstoppels.nl>
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
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This reverts commit da1d533877f90610571b72f070c01e13b9729108.
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`mypy` checks have been accidentally broken by #47213
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Currently, if a package has a dependency from another repository and patches it,
generation of the patch cache will fail. Concretization succeeds if a fixed patch
cache is in place.
- [x] don't assume that patched dependencies are in the same repo when indexing
- [x] add some test fixtures to support multi-repo tests.
---------
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
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* spack.compiler: cache output
* compute libc from the dynamic linker at most once per spack process
* wrap compiler cache entry in class, add type hints
* test compiler caching
* ensure tests do not populate user cache, and fix 2 tests
* avoid recursion: cache lookup -> compute key -> cflags -> real_version -> cache lookup
* allow compiler execution in test that depends on get_real_version
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If a package `foo` doesn't implement `libs`, the default was to search recursively for `libfoo` whenever asking for `spec[foo].libs` (this also happens automatically if a package includes `foo` as a link dependency).
This can lead to some strange behavior:
1. A package that is normally used as a build dependency (e.g. `cmake` at one point) is referenced like
`depends_on(cmake)` which leads to a fully-recursive search for `libcmake` (this can take
"forever" when CMake is registered as an external with a prefix like `/usr`, particularly on NFS mounts).
2. A similar hang can occur if a package is registered as an external with an incorrect prefix
- [x] Update the default library search to stop after a maximum depth (by default, search
the root prefix and each directory in it, but no lower).
- [x]
The following is a list of known changes to `find` compared to `develop`:
1. Matching directories are no longer returned -- `find` consistently only finds non-dirs,
even at `max_depth`
2. Symlinked directories are followed (needed to support max_depth)
3. `find(..., "dir/*.txt")` is allowed, for finding files inside certain dirs. These "complex"
patterns are delegated to `glob`, like they are on `develop`.
4. `root` and `files` arguments both support generic sequences, and `root`
allows both `str` and `path` types. This allows us to specify multiple entry points to `find`.
---------
Co-authored-by: Peter Scheibel <scheibel1@llnl.gov>
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This PR adds a sub-command to `spack env` (`track`) which allows users to add/link
anonymous environments into their installation as named environments. This allows
users to more easily track their installed packages and the environments they're
dependencies of. For example, with the addition of #41731 it's now easier to remove
all packages not required by any environments with,
```
spack gc -bE
```
#### Usage
```
spack env track /path/to/env
==> Linked environment in /path/to/env
==> You can activate this environment with:
==> spack env activate env
```
By default `track /path/to/env` will use the last directory in the path as the name of
the environment. However users may customize the name of the linked environment
with `-n | --name`. Shown below.
```
spack env track /path/to/env --name foo
==> Tracking environment in /path/to/env
==> You can activate this environment with:
==> spack env activate foo
```
When removing a linked environment, Spack will remove the link to the environment
but will keep the structure of the environment within the directory. This will allow
users to remove a linked environment from their installation without deleting it from
a shared repository.
There is a `spack env untrack` command that can be used to *only* untrack a tracked
environment -- it will fail if it is used on a managed environment. Users can also use
`spack env remove` to untrack an environment.
This allows users to continue to share environments in git repositories while also having
the dependencies of those environments be remembered by Spack.
---------
Co-authored-by: Todd Gamblin <tgamblin@llnl.gov>
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This reverts commit 38c8069ab42f44aa9f4779968937fc6842dc2109.
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This reverts commit a31c525778773b8c6a6fc35617454d954a05d74d.
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This reverts commit 73219e4b02e6561bbeef379081f63efb0dc78817.
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You can now provide multiple roots to a single `find()` call and all of
them will be searched. The roots can overlap (e.g. can be parents of one
another).
This also adds a library function for taking a set of regular expression
patterns and creating a single OR expression (and that library function
is used in `find` to improve its performance).
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Set command line scopes last in _main, so they are higher scopes
Restore the global configuration in a spawned process by inspecting
the result of ctx.get_start_method()
Add the ability to pass a mp.context to PackageInstallContext.
Add shell-tests to check overriding the configuration:
- Using both -c and -C from command line
- With and without an environment active
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Variants can now be propagated from a dependent package to (transitive) dependencies,
even if the source or transitive dependencies have the propagated variants.
For example, here `zlib` doesn't have a `guile` variant, but `gmake` does:
```
$ spack spec zlib++guile
- zlib@1.3%gcc@12.2.0+optimize+pic+shared build_system=makefile arch=linux-rhel8-broadwell
- ^gcc-runtime@12.2.0%gcc@12.2.0 build_system=generic arch=linux-rhel8-broadwell
- ^gmake@4.4.1%gcc@12.2.0+guile build_system=generic arch=linux-rhel8-broadwell
```
Adding this property has some strange ramifications for `satisfies()`. In particular:
* The abstract specs `pkg++variant` and `pkg+variant` do not intersect, because `+variant`
implies that `pkg` *has* the variant, but `++variant` does not.
* This means that `spec.satisfies("++foo")` is `True` if:
* for concrete specs: `spec` and its dependencies all have `foo` set if it exists
* for abstract specs: no dependency of `spec` has `~foo` (i.e. no dependency contradicts `++foo`).
* This also means that `Spec("++foo").satisfies("+foo")` is `False` -- we only know after concretization.
The `satisfies()` semantics may be surprising, but this is the cost of introducing non-subset
semantics (which are more useful than proper subsets here).
- [x] Change checks for variants
- [x] Resolve conflicts
- [x] Add tests
- [x] Add documentation
---------
Co-authored-by: Gregory Becker <becker33@llnl.gov>
Co-authored-by: Massimiliano Culpo <massimiliano.culpo@gmail.com>
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This reverts commit 1462c357619fedf7354bc60f9178b2199258ebd2.
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Also remove find_spec, which was used by the old concretizer.
Currently, it seems to be used only in tests.
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* `find(..., max_depth=...)` can be used to control how many directories at most to descend into below the starting point
* `find` now enters every unique (symlinked) directory once at the lowest depth
* `find` is now repeatable: it traverses the directory tree in a deterministic order
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In the pure `ld` case, we weren't actually parsing `RPATH` arguments separately as we
do for `ccld`. Fix this by adding *another* nested case statement for raw `RPATH`
parsing.
There are now 3 places where we deal with `-rpath` and friends, but I don't see a great
way to unify them, as `-Wl,`, `-Xlinker`, and raw `-rpath` arguments are all ever so
slightly different.
Also, this Fixes ordering of assertions to make `pytest` diffs more intelligible.
The meaning of `+` and `-` in diffs changed in `pytest` 6.0 and the "preferred" order
for assertions became `assert actual == expected` instead of the other way around.
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
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`cc` divides most paths up into system paths, spack managed paths, and other paths.
This gets really repetitive and makes the code hard to read. Simplify the script
by adding some functions to do most of the redundant work for us.
Signed-off-by: Todd Gamblin <tgamblin@llnl.gov>
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