We use POSIX `patch` to apply patches to files when building, but
`patch` by default prompts the user when it looks like a patch
has already been applied. This means that:
1. If a patch lands in upstream and we don't disable it
in a package, the build will start failing.
2. `spack develop` builds (which keep the stage around) will
fail the second time you try to use them.
To avoid that, we can run `patch` with `-N` (also called
`--forward`, but the long option is not in POSIX). `-N` causes
`patch` to just ignore patches that have already been applied.
This *almost* makes `patch` idempotent, except that it returns 1
when it detects already applied patches with `-N`, so we have to
look at the output of the command to see if it's safe to ignore
the error.
- [x] Remove non-POSIX `-s` option from `patch` call
- [x] Add `-N` option to `patch`
- [x] Ignore error status when `patch` returns 1 due to `-N`
- [x] Add tests for applying a patch twice and applying a bad patch
- [x] Tweak `spack.util.executable` so that it saves the error that
*would have been* raised with `fail_on_error=True`. This lets
us easily re-raise it.
Co-authored-by: Greg Becker <becker33@llnl.gov>
Signed-off-by: Mickaël Schoentgen <contact@tiger-222.fr>
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* py-magic: delete redundant package
This package is actually named py-python-magic (since the project itself
is "python-magic").
* New package: libmagic
* Py-python-magic: add required runtime dependency on libmagic and new version
* Py-filemagic: add required runtime dependency
* py-magic: restore and mark as redundant
This reverts commit 4cab7fb69e2c2b8098895bee92aabe5df8b7aaaa.
* file: add implicit dependencies and static variant
Replaces redundant libmagic that I added. Compression headers were previously
being picked up from the system.
* Fix py-python-magic dependency
* Update python version requirements
* relocate: call install_name_tool less
* zstd: fix race condition
Multiple times on my mac, trying to install in parallel led to failures
from multiple tasks trying to simultaneously create `$PREFIX/lib`.
* PackageMeta: simplify callback flush
* Relocate: use spack.platforms instead of platform
* Relocate: code improvements
* fix zstd
* Automatically fix rpaths for packages on macOS
* Only change library IDs when the path is already in the rpath
This restores the hardcoded library path for GCC.
* Delete nonexistent rpaths and add more testing
* Relocate: Allow @executable_path and @loader_path
* downgrade_docutils_version
* invalid version
* Update requirements.txt
* Improve spelling and shorten the reference link
* Update spack.yaml
* update version requirement
* update version to maximum of 0.16
Co-authored-by: bernhardkaindl <43588962+bernhardkaindl@users.noreply.github.com>
* py-jupytext: add new package
* Apply suggestions from code review
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* update jupytext dependencies
* Apply suggestions from code review
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* py-jupytext: remove py-jupyerlab dependency
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* py-gevent: add version 1.5
* py-gevent: update dependencies for v1.5.0
* Apply suggestions from code review
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* Update var/spack/repos/builtin/packages/py-gevent/package.py
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
Co-authored-by: Adam J. Stewart <ajstewart426@gmail.com>
* phist: Prefer 1.9.5 (1.9.6 uses mpi_f08, but not available in CI)
* phist: remove dupe of 1.9.5, missing preferred=True
Also, for 1.9.6, patch the (most, one does not work) tests to use
Currently Spack keeps track of the origin in the code of any
modification to the environment variables. This is very slow
and enabled unconditionally even in code paths where the
origin of the modification is never queried.
The only place where we inspect the origins of environment
modifications is before we start a build, If there's an override
of the type `e.set(...)` after incremental changes like
`e.append_path(..)`, which is a "suspicious" change.
This is very rare though.
If an override like this ever happens, it might mean a package is
broken. If that leads to build errors, we can just ask the user to run
`spack -d install ...` and check the warnings issued by Spack to find
the origins of the problem.
UPP and ncep-post are the same package, so this PR
removes the duplication.
ncep-post was originally named after the upstream repo
that now changed its name to UPP.
It can be frustrating to successfully run `spack test run --alias <name>` only to find you cannot get the results because you already use `<name>` in some previous stand-alone test execution. This PR prevents that from happening.
Primary fix:
Due to a typo in a version range, overlapping PR merges resulted
in a build failure of the latest version:
Don't attempt to remove a non-existing file for version 1.9.6.
Secondary fixes:
update_tpetra_gotypes.patch was mentioned twice, and the version
range has to exclude @1.4.2, to which it cannot be applied.
Add depend_on() py-pytest, py-numpy and pkgconfig with type='test'
@:1.9.0 fail with 'Rank mismatch with gfortran@10:, add a conflicts().
raise InstallError('~mpi not possible with kernel_lib=builtin!')
when applicable.
Fixes for spack install --test=root phist:
mpiexec -n12 puts a lot of stress on a pod and gets stuck in a loop
very often: Reduce the mpiexec procs and the number of threads.
Remove @run_after('build') @on_package_attributes(run_tests=True):
from 'def check()': fixes it from getting called twice
The build script of 'make test_install' for the installcheck expects
the examples to be copied to self.stage.path: Provide them.
* updating the recipe for betterment
* addressing the suggesions received from reviewers
* adding package helper macros
Co-authored-by: mohan002 <mohbabul@amd.com>