upstream/mercurial-mirror Files · mercurial/namespaces.py

util: lower water mark when removing nodes after cost limit reached...

util: lower water mark when removing nodes after cost limit reached See the inline comment for the reasoning here. This is a pretty common strategy for garbage collectors, other cache-like primtives. The performance impact is substantial: $ hg perflrucachedict --size 4 --gets 1000000 --sets 1000000 --mixed 1000000 --costlimit 100 ! inserts w/ cost limit ! wall 1.659181 comb 1.650000 user 1.650000 sys 0.000000 (best of 7) ! wall 1.722122 comb 1.720000 user 1.720000 sys 0.000000 (best of 6) ! mixed w/ cost limit ! wall 1.139955 comb 1.140000 user 1.140000 sys 0.000000 (best of 9) ! wall 1.182513 comb 1.180000 user 1.180000 sys 0.000000 (best of 9) $ hg perflrucachedict --size 1000 --gets 1000000 --sets 1000000 --mixed 1000000 --costlimit 10000 ! inserts ! wall 0.679546 comb 0.680000 user 0.680000 sys 0.000000 (best of 15) ! sets ! wall 0.825147 comb 0.830000 user 0.830000 sys 0.000000 (best of 13) ! inserts w/ cost limit ! wall 25.105273 comb 25.080000 user 25.080000 sys 0.000000 (best of 3) ! wall 1.724397 comb 1.720000 user 1.720000 sys 0.000000 (best of 6) ! mixed ! wall 0.807096 comb 0.810000 user 0.810000 sys 0.000000 (best of 13) ! mixed w/ cost limit ! wall 12.104470 comb 12.070000 user 12.070000 sys 0.000000 (best of 3) ! wall 1.190563 comb 1.190000 user 1.190000 sys 0.000000 (best of 9) $ hg perflrucachedict --size 1000 --gets 1000000 --sets 1000000 --mixed 1000000 --costlimit 10000 --mixedgetfreq 90 ! inserts ! wall 0.711177 comb 0.710000 user 0.710000 sys 0.000000 (best of 14) ! sets ! wall 0.846992 comb 0.850000 user 0.850000 sys 0.000000 (best of 12) ! inserts w/ cost limit ! wall 25.963028 comb 25.960000 user 25.960000 sys 0.000000 (best of 3) ! wall 2.184311 comb 2.180000 user 2.180000 sys 0.000000 (best of 5) ! mixed ! wall 0.728256 comb 0.730000 user 0.730000 sys 0.000000 (best of 14) ! mixed w/ cost limit ! wall 3.174256 comb 3.170000 user 3.170000 sys 0.000000 (best of 4) ! wall 0.773186 comb 0.770000 user 0.770000 sys 0.000000 (best of 13) $ hg perflrucachedict --size 100000 --gets 1000000 --sets 1000000 --mixed 1000000 --mixedgetfreq 90 --costlimit 5000000 ! gets ! wall 1.191368 comb 1.190000 user 1.190000 sys 0.000000 (best of 9) ! wall 1.195304 comb 1.190000 user 1.190000 sys 0.000000 (best of 9) ! inserts ! wall 0.950995 comb 0.950000 user 0.950000 sys 0.000000 (best of 11) ! inserts w/ cost limit ! wall 1.589732 comb 1.590000 user 1.590000 sys 0.000000 (best of 7) ! sets ! wall 1.094941 comb 1.100000 user 1.090000 sys 0.010000 (best of 9) ! mixed ! wall 0.936420 comb 0.940000 user 0.930000 sys 0.010000 (best of 10) ! mixed w/ cost limit ! wall 0.882780 comb 0.870000 user 0.870000 sys 0.000000 (best of 11) This puts us ~2x slower than caches without cost accounting. And for read-heavy workloads (the prime use cases for caches), performance is nearly identical. In the worst case (pure write workloads with cost accounting enabled), we're looking at ~1.5us per insert on large caches. That seems "fast enough." Differential Revision: https://phab.mercurial-scm.org/D4505

Martin von Zweigbergk - - Load All Authors

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      from __future__ import absolute_import

      from .i18n import _

      from . import (

          registrar,

          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()

              columns = templatekw.getlogcolumns()

              # 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, node: repo.nodebookmarks(node)

              n = namespace("bookmarks", templatename="bookmark",

                            logfmt=columns['bookmark'],

                            listnames=bmknames,

                            namemap=bmknamemap, nodemap=bmknodemap,

                            builtin=True)

              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, node: repo.nodetags(node)

              n = namespace("tags", templatename="tag",

                            logfmt=columns['tag'],

                            listnames=tagnames,

                            namemap=tagnamemap, nodemap=tagnodemap,

                            deprecated={'tip'},

                            builtin=True)

              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",

                            logfmt=columns['branch'],

                            listnames=bnames,

                            namemap=bnamemap, nodemap=bnodemap,

                            builtin=True)

              self.addnamespace(n)

          def __getitem__(self, namespace):

              """returns the namespace object"""

              return self._names[namespace]

          def __iter__(self):

              return self._names.__iter__()

          def items(self):

              return self._names.iteritems()

          iteritems = items

          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:

                  templatekeyword = registrar.templatekeyword(templatekw.keywords)

                  @templatekeyword(namespace.name, requires={'repo', 'ctx'})

                  def generatekw(context, mapping):

                      return templatekw.shownames(context, mapping, namespace.name)

          def singlenode(self, repo, name):

              """

              Return the 'best' node for the given name. What's best is defined

              by the namespace's singlenode() function. The first match returned by

              a namespace in the defined precedence order is used.

              Raises a KeyError if there is no such node.

              """

              for ns, v in self._names.iteritems():

                  n = v.singlenode(repo, name)

                  if n:

                      return n

              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

            'builtin': bool indicating if this namespace is supported by core

                       Mercurial.

          """

          def __init__(self, name, templatename=None, logname=None, colorname=None,

                       logfmt=None, listnames=None, namemap=None, nodemap=None,

                       deprecated=None, builtin=False, singlenode=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 name, output node(s)

              nodemap: function that inputs a node, output name(s)

              deprecated: set of names to be masked for ordinary use

              builtin: whether namespace is implemented by core Mercurial

              singlenode: function that inputs a name, output best node (or None)

              """

              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 singlenode:

                  self.singlenode = singlenode

              # 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

              self.builtin = builtin

          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))

          def singlenode(self, repo, name):

              """returns the best node for the given name

              By default, the best node is the node from nodes() with the highest

              revision number. It can be overriden by the namespace."""

              n = self.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]

              return None

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				from __future__ import absolute_import

				from .i18n import _
				from . import (
				registrar,
				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()
				columns = templatekw.getlogcolumns()

				# 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, node: repo.nodebookmarks(node)
				n = namespace("bookmarks", templatename="bookmark",
				logfmt=columns['bookmark'],
				listnames=bmknames,
				namemap=bmknamemap, nodemap=bmknodemap,
				builtin=True)
				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, node: repo.nodetags(node)
				n = namespace("tags", templatename="tag",
				logfmt=columns['tag'],
				listnames=tagnames,
				namemap=tagnamemap, nodemap=tagnodemap,
				deprecated={'tip'},
				builtin=True)
				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",
				logfmt=columns['branch'],
				listnames=bnames,
				namemap=bnamemap, nodemap=bnodemap,
				builtin=True)
				self.addnamespace(n)

				def __getitem__(self, namespace):
				"""returns the namespace object"""
				return self._names[namespace]

				def __iter__(self):
				return self._names.__iter__()

				def items(self):
				return self._names.iteritems()

				iteritems = items

				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:
				templatekeyword = registrar.templatekeyword(templatekw.keywords)
				@templatekeyword(namespace.name, requires={'repo', 'ctx'})
				def generatekw(context, mapping):
				return templatekw.shownames(context, mapping, namespace.name)

				def singlenode(self, repo, name):
				"""
				Return the 'best' node for the given name. What's best is defined
				by the namespace's singlenode() function. The first match returned by
				a namespace in the defined precedence order is used.

				Raises a KeyError if there is no such node.
				"""
				for ns, v in self._names.iteritems():
				n = v.singlenode(repo, name)
				if n:
				return n
				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
				'builtin': bool indicating if this namespace is supported by core
				Mercurial.
				"""

				def __init__(self, name, templatename=None, logname=None, colorname=None,
				logfmt=None, listnames=None, namemap=None, nodemap=None,
				deprecated=None, builtin=False, singlenode=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 name, output node(s)
				nodemap: function that inputs a node, output name(s)
				deprecated: set of names to be masked for ordinary use
				builtin: whether namespace is implemented by core Mercurial
				singlenode: function that inputs a name, output best node (or None)
				"""
				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 singlenode:
				self.singlenode = singlenode

				# 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

				self.builtin = builtin

				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))

				def singlenode(self, repo, name):
				"""returns the best node for the given name

				By default, the best node is the node from nodes() with the highest
				revision number. It can be overriden by the namespace."""
				n = self.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]
				return None