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- Namepsaces were shown without dots after the new format strings were
added.
- Add a test for `spack find` to ensure that find -N shows the right
output.
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Fixes #11781
* Rename build log to spack-build-log.txt
* Rename environment variables file to spack-build-env.txt
* The name of the log and env files is now the same during the build
and after the build completes
* Update packages which referred to the build log/env files
* For packages installed before this commit using older names for the
build and env files, search for the older names
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- Fix a bug introdcued by removing parse_anonymous_spec()
- Conflicts' when specs are now *actually* anonymous, and the name of the
package is implicit, so we need to remember to add it back to error
messages.
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- We weren't previously printing stack traces on SystemExit or
KeyboardInterrupts.
- Either raise or print the stacktrace in these cases.
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- `parse_anonymous_spec()` is a vestige of the days when Spack didn't
support nameless specs. We don't need it anymore because now we can
write Spec() for a spec that will match anything, and satisfies()
semantics work properly for anonymous specs.
- Delete `parse_anonymous_spec()` and replace its uses with simple calls
to the Spec() constructor.
- make then handling of when='...' specs in directives more consistent.
- clean up Spec.__contains__()
- refactor directives and tests slightly to accommodate the change.
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- CNL OS previously used the *Cray PE* version to determine the OS
version. Cray does not synchronize PE and CLE releases; you can run
CLE7 with PrgEnv 6 (and NERSC currently does).
- Fix Spack's OS detection by using the cle-release file to detect the OS
version. This file is updated with every CLE OS release.
- Add some tests for our parsing logic
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libraries and executables. (#11882)
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Remove package access from directory_layout; add regression test to ensure
that specs can be uninstalled without a package being known
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Add an example of a 'modules:' entry for an external package in
packages.yaml. The 'External Packages' section of 'Build
Customization' mentions 'paths:' and 'modules:' and gives an
example of paths, but not modules.
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(#11834)
* Fix for #10063 : install from source if buildcache with different DAG exist
* Flake8
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Fixes #11816
Allow packages to refer to non-expanded downloads (e.g. a single
script) using Stage.archive_file. This addresses a regression from
#11688 and adds a unit test for it.
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This change reverts to the previous behavior of only looking for pgcc
and friends, not pgcc-llvm and friends.
The llvm variant doesn't support all the same features as the
traditional variant of the pgi code generator; this change avoids
treating the llvm variant as a default pgi compiler.
This retains the changes in #10704 which accept the "LLVM" suffix of
the version string of the PGI compiler, which allows users to
explicitly add the llvm-pgi compiler if desired.
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For resources, it is desirable to use the expanded archive name of
the resource as the name of the directory when adding it to the root
staging area.
#11528 established 'spack-src' as the universal directory where
source files are placed, which also affected the behavior of
resources managed with Stages.
This adds a new property ('srcdir') to Stage to remember the name of
the expanded source directory, and uses this as the default name when
placing a resource directory in the root staging area.
This also:
* Ensures that downloaded sources are archived using the expanded
archive name (otherwise Spack will not be able to determine the
original directory name when using a cached archive).
* Updates working_dir context manager to guarantee restoration of
original working directory when an exception occurs
* Adds a "temp_cwd" context manager which creates a temporary
directory and sets it as the working directory
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The regression test for #11678 fails on at least some Mac OS systems
because they have a /usr/bin/gcc that is secretly clang.
This PR replaces the dependency on a system gcc executable with a
test-generated script that generates the expected output for the
compiler logic.
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Rename build.out to build.txt; makes it easier when people post log files to the Spack mailing list.
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Some tests introduced in #11528 temporarily set the user's `config:build_stage`, which affected (or created) a config.yaml file in the user's `$HOME/.spack` directory that could leave entries behind if the tests fail.
This change ensures only temporary configuration files are used/affected by these tests.
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This fixes a few typos, adds a hint to `spack config blame` and brings
the variant specification in line with other docs sections.
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The "spack location" command was previously untested. This also adds
a check to ensure that composite Stages can report whether they were
expanded (this property was previously only recorded in Stage but not
in CompositeStage).
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DIYStage, used to treat a user-managed directory as a staging area,
should always be considered expanded (i.e. the source has been
decompressed if it was stored in an archive).
This also:
* Adds checks to ensure that the path used to instantiate a
DIYStage refers to an existing directory.
* Adds tests to check the behavior of DIYStage (including behavior
added here, but it was generally untested before).
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#11528 updated Stage to always store a Package's source in a fixed
directory accessible via `Stage.source_path` This left behind a
number of packages which were expecting to access the source code
via `Stage.path`. This Updates those packages to use
`Stage.source_path` instead.
This also updates the name of the fixed directory: The original name
of the fixed directory was "src", so if an expanded archive created a
"src" directory, then users inspecting the directory structure could
see paths like "src/src" (which wasn't wrong but could be confusing).
Therefore this also updates the name of the fixed directory to
"spack-src".
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Fixes #11678
`spack compiler find` was not searching `PATH` when provided with no
arguments. ea7910a updated the API for the search function and the
command logic did not update how it called this function. This also
adds a test to ensure that `spack compiler find` will collect
compilers from `PATH`.
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* Add additional common C++ and Fortran header file extensions
* Add .hxx extension
* Add .txx and .tcc extensions
* Add .icc extension
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"spack module tcl find -r <spec>" (and equivalents for other module
systems) was failing when a dependency was installed in an upstream
Spack instance. This updates the module index to handle locating
module files for upstream Spack installations (encapsulating the
logic in a new class called UpstreamModuleIndex); the updated index
handles the case where a Spack installation has multiple upstream
instances.
Note that if a module is not available locally but we are using the
local package, then we shouldn't use a module (i.e. if the package is
also installed upstream, and there is a module file for it, Spack
should not use that module). Likewise, if we are instance X using
upstreams Y and Z like X->Y->Z, and if we are using a package from
instance Y, then we should only use a module from instance Y. This
commit includes tests to check that this is handled properly.
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(#11594)
Spack currently tries to unify everything in the DAG, but this is too strict for build dependencies, where it is fine to build a dependency with a tool that conflicts with a version fo that tool for a dependent's build.
To enable a workaround for conflicts among build dependencies, so that users can install in multiple steps to avoid these conflicts, make the following changes:
* Dont apply package dependency constraints for build deps of installed packages
* Avoid applying constraints for installed packages vs. concrete packages
* Mark all dependencies of installed packages as visited in normalization method
* don't remove dependency links for concrete specs in flat_dependencies
Also add tests:
* Update test to ensure that link dependencies of installed packages have constraints applied
* Add test to check for proper handling of transitive dependencies (which is currently not the case)
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List the latest version of each package in JSON encoding.
Preparation for consumption for a "spack badge" service.
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- spack.compilers.find_compilers now uses a multiprocess.pool.ThreadPool to execute
system commands for the detection of compiler versions.
- A few memoized functions have been introduced to avoid poking the filesystem multiple
times for the same results.
- Performance is much improved, and Spack no longer fork-bombs the system when doing a `compiler find`
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- We use `spack list --foramt=html` now, as it is much faster and doesn't
make the docs build take forever.
- Remove `spack list --format=rst` as it is no longer used.
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- `stage.source_path` was previously overloaded; it returned `None` if it
didn't exist and this was used by client code
- we want to be able to know the `source_path` before it's created
- make stage.source_path available before it exists.
- use a well-known stage source path name, `$stage_path/src` that is
available when `Stage` is instantiated but does not exist until it's
"expanded"
- client code can now use the variable before the stage is created.
- client code can test whether the tarball is expanded by using the new
`stage.expanded` property instead of testing whether `source_path` is
`None`
- add tests for the new source_path semantics
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- make tty.msg, tty.info, etc. print the exception type and stringified
message if the message argument is an exception.
- simplify parts of the code that call tty.debug(str(e))
- add extra tty.debug statements in places where exceptions were
previously ignored
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- `spack graph --static` (and `spack.graph.dot_graph`) now do the "right
thing" and print the possible dependency graph of provided packages.
- `spack graph --static` no longer concretizes specs, as it only relies
on class level metadata
- Previously the behavior was not consistent -- `spack graph --static`
would graph possible dependencies of concrete specs, but would only
include some of them. The new code properly pursues all possible
dependencies, and allows traversing by different dependency types.
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- `spack dependencies` can now take a --deptype argument to only traverse
particular deptypes
- add a new "common" argument for deptype in spack.cmd.common.arguments
- Database.installed_relatives() can now also take a deptype argument
- this is used by `spack dependencies --installed`
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- `PackageBase.possible_dependencies` now:
- accepts a deptype param that controls dependency types traversed
- returns a dict mapping possible depnames to their immediate possible
dependencies (this lets you build a graph easily)
- Add tests for PackageBaes
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- The 'name' attribute for packages was being set in DirectiveMeta, which
wasn't consistent with other class properties (like fullname, etc.)
- Move it to be a class property of `PackageMeta`, and add the
corresponding property method wrapper on `PackageBase`
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