Mercurial > hg
view mercurial/namespaces.py @ 27222:511a4384b033
setup: refactor handling of modules with C/Python implementations
Previously, .py files under mercurial/pure/ were copied to mercurial/*
during installation if we were performing a pure Python installation.
Now that the new import hooks and module load policy are in place, this
hackery from the past is no longer necessary.
With this patch, we stop copying modules from mercurial/pure/* to
mercurial/*. Instead, we preserve the files at their original
hierarchy, mirroring the source repository structure.
In addition, we always install the pure modules. Before, we would only
include the pure modules in the distribution/installation if the
install-time settings requested a pure Python installation. The upside
of this change is that CPython and PyPy can run from the same Mercurial
installation, making packaging and distribution of Mercurial simpler.
The inclusion of pure Python modules in the installation sounds
risky, as it could lead to inadvertent loading of non-C modules.
This shouldn't be a problem. The default module load policy is "C
only" (or at least will be shortly) and the only way to load pure
modules from an installation is if a) pure installation was requested
b) the HGMODULELOADPOLICY overrides the requirement for C modules.
The default module load policy as defined in source is a special string
whose default value from the checkout is equivalent to the "C only"
policy (again, not exactly the state right now). For pure
installations, this default policy is not appropriate and will not
work. This patch adds support for rewriting __init__.py during
installation to reflect the module load policy that should be in
place accoding to the installation settings. For default CPython
installs, the value in the source file will change but there will
be no functional change. For pure installations, the default policy
will be set to "py," allowing them to work without having to set
environment variables.
author | Gregory Szorc <gregory.szorc@gmail.com> |
---|---|
date | Thu, 03 Dec 2015 21:48:12 -0800 |
parents | c0c89b2d07be |
children | ca52512ac709 |
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from __future__ import absolute_import from .i18n import _ from . import ( templatekw, util, ) def tolist(val): """ a convenience method to return an empty list instead of None """ if val is None: return [] else: return [val] class namespaces(object): """provides an interface to register and operate on multiple namespaces. See the namespace class below for details on the namespace object. """ _names_version = 0 def __init__(self): self._names = util.sortdict() # we need current mercurial named objects (bookmarks, tags, and # branches) to be initialized somewhere, so that place is here bmknames = lambda repo: repo._bookmarks.keys() bmknamemap = lambda repo, name: tolist(repo._bookmarks.get(name)) bmknodemap = lambda repo, name: repo.nodebookmarks(name) n = namespace("bookmarks", templatename="bookmark", # i18n: column positioning for "hg log" logfmt=_("bookmark: %s\n"), listnames=bmknames, namemap=bmknamemap, nodemap=bmknodemap) self.addnamespace(n) tagnames = lambda repo: [t for t, n in repo.tagslist()] tagnamemap = lambda repo, name: tolist(repo._tagscache.tags.get(name)) tagnodemap = lambda repo, name: repo.nodetags(name) n = namespace("tags", templatename="tag", # i18n: column positioning for "hg log" logfmt=_("tag: %s\n"), listnames=tagnames, namemap=tagnamemap, nodemap=tagnodemap, deprecated=set(['tip'])) self.addnamespace(n) bnames = lambda repo: repo.branchmap().keys() bnamemap = lambda repo, name: tolist(repo.branchtip(name, True)) bnodemap = lambda repo, node: [repo[node].branch()] n = namespace("branches", templatename="branch", # i18n: column positioning for "hg log" logfmt=_("branch: %s\n"), listnames=bnames, namemap=bnamemap, nodemap=bnodemap) self.addnamespace(n) def __getitem__(self, namespace): """returns the namespace object""" return self._names[namespace] def __iter__(self): return self._names.__iter__() def iteritems(self): return self._names.iteritems() def addnamespace(self, namespace, order=None): """register a namespace namespace: the name to be registered (in plural form) order: optional argument to specify the order of namespaces (e.g. 'branches' should be listed before 'bookmarks') """ if order is not None: self._names.insert(order, namespace.name, namespace) else: self._names[namespace.name] = namespace # we only generate a template keyword if one does not already exist if namespace.name not in templatekw.keywords: def generatekw(**args): return templatekw.shownames(namespace.name, **args) templatekw.keywords[namespace.name] = generatekw def singlenode(self, repo, name): """ Return the 'best' node for the given name. Best means the first node in the first nonempty list returned by a name-to-nodes mapping function in the defined precedence order. Raises a KeyError if there is no such node. """ for ns, v in self._names.iteritems(): n = v.namemap(repo, name) if n: # return max revision number if len(n) > 1: cl = repo.changelog maxrev = max(cl.rev(node) for node in n) return cl.node(maxrev) return n[0] raise KeyError(_('no such name: %s') % name) class namespace(object): """provides an interface to a namespace Namespaces are basically generic many-to-many mapping between some (namespaced) names and nodes. The goal here is to control the pollution of jamming things into tags or bookmarks (in extension-land) and to simplify internal bits of mercurial: log output, tab completion, etc. More precisely, we define a mapping of names to nodes, and a mapping from nodes to names. Each mapping returns a list. Furthermore, each name mapping will be passed a name to lookup which might not be in its domain. In this case, each method should return an empty list and not raise an error. This namespace object will define the properties we need: 'name': the namespace (plural form) 'templatename': name to use for templating (usually the singular form of the plural namespace name) 'listnames': list of all names in the namespace (usually the keys of a dictionary) 'namemap': function that takes a name and returns a list of nodes 'nodemap': function that takes a node and returns a list of names 'deprecated': set of names to be masked for ordinary use """ def __init__(self, name, templatename=None, logname=None, colorname=None, logfmt=None, listnames=None, namemap=None, nodemap=None, deprecated=None): """create a namespace name: the namespace to be registered (in plural form) templatename: the name to use for templating logname: the name to use for log output; if not specified templatename is used colorname: the name to use for colored log output; if not specified logname is used logfmt: the format to use for (i18n-ed) log output; if not specified it is composed from logname listnames: function to list all names namemap: function that inputs a node, output name(s) nodemap: function that inputs a name, output node(s) deprecated: set of names to be masked for ordinary use """ self.name = name self.templatename = templatename self.logname = logname self.colorname = colorname self.logfmt = logfmt self.listnames = listnames self.namemap = namemap self.nodemap = nodemap # if logname is not specified, use the template name as backup if self.logname is None: self.logname = self.templatename # if colorname is not specified, just use the logname as a backup if self.colorname is None: self.colorname = self.logname # if logfmt is not specified, compose it from logname as backup if self.logfmt is None: # i18n: column positioning for "hg log" self.logfmt = ("%s:" % self.logname).ljust(13) + "%s\n" if deprecated is None: self.deprecated = set() else: self.deprecated = deprecated def names(self, repo, node): """method that returns a (sorted) list of names in a namespace that match a given node""" return sorted(self.nodemap(repo, node)) def nodes(self, repo, name): """method that returns a list of nodes in a namespace that match a given name. """ return sorted(self.namemap(repo, name))