This fixes the problem described in #3374, which describes `spack find` ignore explicit/implicit.
I believe that this was broken in #2626.
This restores the behavior of implicit/explicit for me.
I believe that it does not screw anything else up, but ....
* Order listed compiler sections
"spack compiler list" output compiler sections in an arbitrary order.
With this commit compiler sections are ordered primarily by compiler
name and then by operating system and target.
* Compiler search lists config files with compilers
If a compiler entry is already defined in a configuration file that
the user does not know about, they may be confused when that compiler
is not added by "spack compiler find". This commit adds a message at
the end of "spack compiler find" to inform the user of the locations
of all config files where compilers are defined.
Fixes#1476
Concretization uses compilers defined in config files and if those
are not available defaults to searching typical paths where the
detected operating system would have a compiler. If there is an OS
update, the detected OS can change; in this case all compilers
defined in the config files would no longer match (because they would
be associated with the previous OS version). The error message in
this case was too vague. This commit adds logic for detecting when it
is likely that the OS has been updated (in particular when that
affects compiler concretization) and improves the information provided
to the user in the error message.
* Dont propagate flags between different compilers
Fixes#2786
Previously when a spec had no parents with an equivalent compiler,
Spack would default to adding the compiler flags associated with the
root of the DAG. This eliminates that default.
* added test for compiler flag propagation
* simplify compiler flag propagation logic
Fixes#3428
Users can run 'spack compiler find' to automatically initialize their
compilers.yaml configuration file. It also turns out that Spack will
implicitly initialize the compilers configuration file as part of
detecting compilers if none are found (so if a user were to attempt to
concretize a spec without running 'spack compiler find' it would not
fail). However, in this case Spack was overlooking its own implicit
initialization of the config files and would report that no new
compilers were found. This commit removes implicit initialization when
the user calls 'spack compiler find'.
This did not surface until #2999 because the 'spack compiler' command
defaulted to using a scope 'user/platform' that was not accounted for
in get_compiler_config (where the implicit initialization logic
predates the addition of this new scope); #2999 removed the scope
specification when checking through config files, leading to the
implicit initialization.
Previously, this would fail with a NoSuchMethodError:
class Package(object):
# this is the default implementation
def some_method(self):
...
class Foo(Package):
@when('platform=cray')
def some_method(self):
...
@when('platform=linux')
def some_method(self):
...
This fixes the implementation of `@when` so that the superclass method
will be invoked when no subclass method matches.
Adds tests to ensure this works, as well.
* default scope for config command is made consistent with cmd/__init__ default
* dont specify a scope when looking for compilers with a matching spec (since compiler concretization is scope-independent)
* config edit should default to platform-specific file only for compilers
* when duplicate compiler specs are detected, the exception raised now points the user to the files where the duplicates appear
* updated error message to emphasize that a spec is duplicated (since multiple specs can reference the same compiler)
* 'spack compilers' is now also broken down into sections by os and target
* Added tests for new compiler methods
Modifications:
- `dump_packages` copies build dependencies into `$prefix/.spack`, as well as the link/run dependencies that we already copied there.
- fake installs copy dependency packages into `$prefix/.spack` as well
- Added a new interface for Specs to pass build information
- Calls forwarded from Spec to Package are now explicit
- Added descriptor within Spec to manage forwarding
- Added state in Spec to maintain query information
- Modified a few packages (the one involved in spack install pexsi) to showcase changes
- This uses an object wrapper to `spec` to implement the `libs` sub-calls.
- wrapper is returned from `__getitem__` only if spec is concrete
- allows packagers to access build information easily
It seems the tests in `packages.py` were running just because we had a specific order of execution. This should fix the problem, and make the test_suite more resilient to running order.
- Fix format printing to match command line for hashes and full name formats
- Update spack graph to use new format
- Changed format string signifier for hashes from `$#` to `$/`
Modules generated by the module creation machinery currently print out
a notice that warnts the user that things are being autoloaded. In
some situations those warnings are problematic. See #2754 for
discussion.
This is a first cut at optionally disabling the warning messages:
- adds a helper tothe EnvModule base class that encapsulates the
config file variable;
- adds a method to the base class that provides a default (empty)
code fragment for generating a warning message;
- passes the warning fragment into the bit that formats the autoload
string;
- adds specialized autload_warner() methods in the tcl and lmod
subclasses;; and finally
- touches up the autoload_format strings in the specialized classes.
Add the ability to the modules generation process to blacklist
packages that were installed implicitly. One can still whitelist
modules that were installed implicitly.
This changes adds a `blacklist_implicts` boolean as a peer to the
`whitelist` and `blacklist` arrays, e.g.:
```
modules:
enable::
- lmod
lmod:
whitelist:
- 'lua'
- 'py-setuptools'
blacklist:
- '%gcc@4.8.3'
blacklist_implicits: True
```
It adds a small helper in `spec.py` and then touches up the package
filtering code in `modules.py`.
* Replace `spack urls` and `spack url-parse` with `spack url`
* Allow spack url list to only list incorrect parsings
* Add spack url test reporting
* Add unit tests for new URL commands
* Add several new R packages
* Add a few more R packages
* Update more versions
* Convert Package to RPackage
* Add a few more packages
* Add missing dependencies
* AutotoolsPackage: added configure_directory to permit build out of source. The configure script executable is now invoked with an absolute path. Modified a few packages accordingly.
* build_systems: functions returning directories are now properties
* build_systems: fixed issues with tcl and tk
* AutotoolsPackage: reworked recipe for autoreconf