Source code for spack.dependency

# Copyright 2013-2022 Lawrence Livermore National Security, LLC and other
# Spack Project Developers. See the top-level COPYRIGHT file for details.
# SPDX-License-Identifier: (Apache-2.0 OR MIT)

"""Data structures that represent Spack's dependency relationships.
from six import string_types

import spack.spec

#: The types of dependency relationships that Spack understands.
all_deptypes = ('build', 'link', 'run', 'test')

#: Default dependency type if none is specified
default_deptype = ('build', 'link')

[docs]def deptype_chars(*type_tuples): """Create a string representing deptypes for many dependencies. The string will be some subset of 'blrt', like 'bl ', 'b t', or ' lr ' where each letter in 'blrt' stands for 'build', 'link', 'run', and 'test' (the dependency types). For a single dependency, this just indicates that the dependency has the indicated deptypes. For a list of dependnecies, this shows whether ANY dpeendency in the list has the deptypes (so the deptypes are merged). """ types = set() for t in type_tuples: if t: types.update(t) return ''.join(t[0] if t in types else ' ' for t in all_deptypes)
[docs]def canonical_deptype(deptype): """Convert deptype to a canonical sorted tuple, or raise ValueError. Args: deptype (str or list or tuple): string representing dependency type, or a list/tuple of such strings. Can also be the builtin function ``all`` or the string 'all', which result in a tuple of all dependency types known to Spack. """ if deptype in ('all', all): return all_deptypes elif isinstance(deptype, string_types): if deptype not in all_deptypes: raise ValueError('Invalid dependency type: %s' % deptype) return (deptype,) elif isinstance(deptype, (tuple, list, set)): bad = [d for d in deptype if d not in all_deptypes] if bad: raise ValueError( 'Invalid dependency types: %s' % ','.join(str(t) for t in bad)) return tuple(sorted(set(deptype))) raise ValueError('Invalid dependency type: %s' % repr(deptype))
[docs]class Dependency(object): """Class representing metadata for a dependency on a package. This class differs from ``spack.spec.DependencySpec`` because it represents metadata at the ``Package`` level. ``spack.spec.DependencySpec`` is a descriptor for an actual package configuration, while ``Dependency`` is a descriptor for a package's dependency *requirements*. A dependency is a requirement for a configuration of another package that satisfies a particular spec. The dependency can have *types*, which determine *how* that package configuration is required, e.g. whether it is required for building the package, whether it needs to be linked to, or whether it is needed at runtime so that Spack can call commands from it. A package can also depend on another package with *patches*. This is for cases where the maintainers of one package also maintain special patches for their dependencies. If one package depends on another with patches, a special version of that dependency with patches applied will be built for use by the dependent package. The patches are included in the new version's spec hash to differentiate it from unpatched versions of the same package, so that unpatched versions of the dependency package can coexist with the patched version. """ def __init__(self, pkg, spec, type=default_deptype): """Create a new Dependency. Args: pkg (type): Package that has this dependency spec (Spec): Spec indicating dependency requirements type (sequence): strings describing dependency relationship """ assert isinstance(spec, spack.spec.Spec) self.pkg = pkg self.spec = spec.copy() # This dict maps condition specs to lists of Patch objects, just # as the patches dict on packages does. self.patches = {} if type is None: self.type = set(default_deptype) else: self.type = set(type) @property def name(self): """Get the name of the dependency package.""" return
[docs] def merge(self, other): """Merge constraints, deptypes, and patches of other into self.""" self.spec.constrain(other.spec) self.type |= other.type # concatenate patch lists, or just copy them in for cond, p in other.patches.items(): if cond in self.patches: current_list = self.patches[cond] current_list.extend( p for p in other.patches[cond] if p not in current_list ) else: self.patches[cond] = other.patches[cond]
def __repr__(self): types = deptype_chars(self.type) return '<Dependency: %s -> %s [%s]>' % (, self.spec, types)