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

largefiles: don't copy largefiles from working dir to the store while converting...

largefiles: don't copy largefiles from working dir to the store while converting Previously, if one or more largefiles for a repo being converted were not in the usercache, the convert would abort with a reference to the largefile being missing (as opposed to the previous patch, where the standin was referenced as missing). This is because commitctx() tries to copy all largefiles to the local store, first from the user cache, and if the file isn't found there, from the working directory. No files will exist in the working directory during a convert, however. It is not sufficient to force the source repo to be local before proceeding, because clone and pull do not download largefiles by default. This is slightly less than ideal because while the conversion will now complete, it won't be possible to update to revs with missing largefiles unless the user intervenes manually, because there is no default path pointing back to the source repo. Ideally these files would be cached during the conversion. This check could have been done in reposetup.commitctx() instead, but this ensures the local store directory is created, which is necessary to enable the standin matcher. The rm -> 'rm -f' change in the test is to temporarily suppress an error clearing the cache- as noted, the cache is is not repopulated during convert. When that is fixed, this can be changed back and the verification errors will disappear too.

Matt Mackall - - Load All Authors

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      # templater.py - template expansion for output

      #

      # Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>

      #

      # This software may be used and distributed according to the terms of the

      # GNU General Public License version 2 or any later version.

      from i18n import _

      import sys, os, re

      import util, config, templatefilters, parser, error

      # template parsing

      elements = {

          "(": (20, ("group", 1, ")"), ("func", 1, ")")),

          ",": (2, None, ("list", 2)),

          "|": (5, None, ("|", 5)),

          "%": (6, None, ("%", 6)),

          ")": (0, None, None),

          "symbol": (0, ("symbol",), None),

          "string": (0, ("string",), None),

          "end": (0, None, None),

      }

      def tokenizer(data):

          program, start, end = data

          pos = start

          while pos < end:

              c = program[pos]

              if c.isspace(): # skip inter-token whitespace

                  pass

              elif c in "(,)%|": # handle simple operators

                  yield (c, None, pos)

              elif (c in '"\'' or c == 'r' and

                    program[pos:pos + 2] in ("r'", 'r"')): # handle quoted strings

                  if c == 'r':

                      pos += 1

                      c = program[pos]

                      decode = False

                  else:

                      decode = True

                  pos += 1

                  s = pos

                  while pos < end: # find closing quote

                      d = program[pos]

                      if decode and d == '\\': # skip over escaped characters

                          pos += 2

                          continue

                      if d == c:

                          if not decode:

                              yield ('string', program[s:pos].replace('\\', r'\\'), s)

                              break

                          yield ('string', program[s:pos].decode('string-escape'), s)

                          break

                      pos += 1

                  else:

                      raise error.ParseError(_("unterminated string"), s)

              elif c.isalnum() or c in '_':

                  s = pos

                  pos += 1

                  while pos < end: # find end of symbol

                      d = program[pos]

                      if not (d.isalnum() or d == "_"):

                          break

                      pos += 1

                  sym = program[s:pos]

                  yield ('symbol', sym, s)

                  pos -= 1

              elif c == '}':

                  pos += 1

                  break

              else:

                  raise error.ParseError(_("syntax error"), pos)

              pos += 1

          yield ('end', None, pos)

      def compiletemplate(tmpl, context):

          parsed = []

          pos, stop = 0, len(tmpl)

          p = parser.parser(tokenizer, elements)

          while pos < stop:

              n = tmpl.find('{', pos)

              if n < 0:

                  parsed.append(("string", tmpl[pos:]))

                  break

              if n > 0 and tmpl[n - 1] == '\\':

                  # escaped

                  parsed.append(("string", tmpl[pos:n - 1] + "{"))

                  pos = n + 1

                  continue

              if n > pos:

                  parsed.append(("string", tmpl[pos:n]))

              pd = [tmpl, n + 1, stop]

              parseres, pos = p.parse(pd)

              parsed.append(parseres)

          return [compileexp(e, context) for e in parsed]

      def compileexp(exp, context):

          t = exp[0]

          if t in methods:

              return methods[t](exp, context)

          raise error.ParseError(_("unknown method '%s'") % t)

      # template evaluation

      def getsymbol(exp):

          if exp[0] == 'symbol':

              return exp[1]

          raise error.ParseError(_("expected a symbol"))

      def getlist(x):

          if not x:

              return []

          if x[0] == 'list':

              return getlist(x[1]) + [x[2]]

          return [x]

      def getfilter(exp, context):

          f = getsymbol(exp)

          if f not in context._filters:

              raise error.ParseError(_("unknown function '%s'") % f)

          return context._filters[f]

      def gettemplate(exp, context):

          if exp[0] == 'string':

              return compiletemplate(exp[1], context)

          if exp[0] == 'symbol':

              return context._load(exp[1])

          raise error.ParseError(_("expected template specifier"))

      def runstring(context, mapping, data):

          return data

      def runsymbol(context, mapping, key):

          v = mapping.get(key)

          if v is None:

              v = context._defaults.get(key, '')

          if util.safehasattr(v, '__call__'):

              return v(**mapping)

          return v

      def buildfilter(exp, context):

          func, data = compileexp(exp[1], context)

          filt = getfilter(exp[2], context)

          return (runfilter, (func, data, filt))

      def runfilter(context, mapping, data):

          func, data, filt = data

          try:

              return filt(func(context, mapping, data))

          except (ValueError, AttributeError, TypeError):

              if isinstance(data, tuple):

                  dt = data[1]

              else:

                  dt = data

              raise util.Abort(_("template filter '%s' is not compatible with "

                                 "keyword '%s'") % (filt.func_name, dt))

      def buildmap(exp, context):

          func, data = compileexp(exp[1], context)

          ctmpl = gettemplate(exp[2], context)

          return (runmap, (func, data, ctmpl))

      def runtemplate(context, mapping, template):

          for func, data in template:

              yield func(context, mapping, data)

      def runmap(context, mapping, data):

          func, data, ctmpl = data

          d = func(context, mapping, data)

          if util.safehasattr(d, '__call__'):

              d = d()

          lm = mapping.copy()

          for i in d:

              if isinstance(i, dict):

                  lm.update(i)

                  yield runtemplate(context, lm, ctmpl)

              else:

                  # v is not an iterable of dicts, this happen when 'key'

                  # has been fully expanded already and format is useless.

                  # If so, return the expanded value.

                  yield i

      def buildfunc(exp, context):

          n = getsymbol(exp[1])

          args = [compileexp(x, context) for x in getlist(exp[2])]

          if n in funcs:

              f = funcs[n]

              return (f, args)

          if n in templatefilters.funcs:

              f = templatefilters.funcs[n]

              return (f, args)

          if n in context._filters:

              if len(args) != 1:

                  raise error.ParseError(_("filter %s expects one argument") % n)

              f = context._filters[n]

              return (runfilter, (args[0][0], args[0][1], f))

      def join(context, mapping, args):

          if not (1 <= len(args) <= 2):

              raise error.ParseError(_("join expects one or two arguments"))

          joinset = args[0][0](context, mapping, args[0][1])

          if util.safehasattr(joinset, '__call__'):

              joinset = [x.values()[0] for x in joinset()]

          joiner = " "

          if len(args) > 1:

              joiner = args[1][0](context, mapping, args[1][1])

          first = True

          for x in joinset:

              if first:

                  first = False

              else:

                  yield joiner

              yield x

      def sub(context, mapping, args):

          if len(args) != 3:

              raise error.ParseError(_("sub expects three arguments"))

          pat = stringify(args[0][0](context, mapping, args[0][1]))

          rpl = stringify(args[1][0](context, mapping, args[1][1]))

          src = stringify(args[2][0](context, mapping, args[2][1]))

          yield re.sub(pat, rpl, src)

      def if_(context, mapping, args):

          if not (2 <= len(args) <= 3):

              raise error.ParseError(_("if expects two or three arguments"))

          test = stringify(args[0][0](context, mapping, args[0][1]))

          if test:

              t = stringify(args[1][0](context, mapping, args[1][1]))

              yield runtemplate(context, mapping, compiletemplate(t, context))

          elif len(args) == 3:

              t = stringify(args[2][0](context, mapping, args[2][1]))

              yield runtemplate(context, mapping, compiletemplate(t, context))

      def ifeq(context, mapping, args):

          if not (3 <= len(args) <= 4):

              raise error.ParseError(_("ifeq expects three or four arguments"))

          test = stringify(args[0][0](context, mapping, args[0][1]))

          match = stringify(args[1][0](context, mapping, args[1][1]))

          if test == match:

              t = stringify(args[2][0](context, mapping, args[2][1]))

              yield runtemplate(context, mapping, compiletemplate(t, context))

          elif len(args) == 4:

              t = stringify(args[3][0](context, mapping, args[3][1]))

              yield runtemplate(context, mapping, compiletemplate(t, context))

      methods = {

          "string": lambda e, c: (runstring, e[1]),

          "symbol": lambda e, c: (runsymbol, e[1]),

          "group": lambda e, c: compileexp(e[1], c),

      #    ".": buildmember,

          "|": buildfilter,

          "%": buildmap,

          "func": buildfunc,

          }

      funcs = {

          "if": if_,

          "ifeq": ifeq,

          "join": join,

          "sub": sub,

      }

      # template engine

      path = ['templates', '../templates']

      stringify = templatefilters.stringify

      def _flatten(thing):

          '''yield a single stream from a possibly nested set of iterators'''

          if isinstance(thing, str):

              yield thing

          elif not util.safehasattr(thing, '__iter__'):

              if thing is not None:

                  yield str(thing)

          else:

              for i in thing:

                  if isinstance(i, str):

                      yield i

                  elif not util.safehasattr(i, '__iter__'):

                      if i is not None:

                          yield str(i)

                  elif i is not None:

                      for j in _flatten(i):

                          yield j

      def parsestring(s, quoted=True):

          '''parse a string using simple c-like syntax.

          string must be in quotes if quoted is True.'''

          if quoted:

              if len(s) < 2 or s[0] != s[-1]:

                  raise SyntaxError(_('unmatched quotes'))

              return s[1:-1].decode('string_escape')

          return s.decode('string_escape')

      class engine(object):

          '''template expansion engine.

          template expansion works like this. a map file contains key=value

          pairs. if value is quoted, it is treated as string. otherwise, it

          is treated as name of template file.

          templater is asked to expand a key in map. it looks up key, and

          looks for strings like this: {foo}. it expands {foo} by looking up

          foo in map, and substituting it. expansion is recursive: it stops

          when there is no more {foo} to replace.

          expansion also allows formatting and filtering.

          format uses key to expand each item in list. syntax is

          {key%format}.

          filter uses function to transform value. syntax is

          {key|filter1|filter2|...}.'''

          def __init__(self, loader, filters={}, defaults={}):

              self._loader = loader

              self._filters = filters

              self._defaults = defaults

              self._cache = {}

          def _load(self, t):

              '''load, parse, and cache a template'''

              if t not in self._cache:

                  self._cache[t] = compiletemplate(self._loader(t), self)

              return self._cache[t]

          def process(self, t, mapping):

              '''Perform expansion. t is name of map element to expand.

              mapping contains added elements for use during expansion. Is a

              generator.'''

              return _flatten(runtemplate(self, mapping, self._load(t)))

      engines = {'default': engine}

      class templater(object):

          def __init__(self, mapfile, filters={}, defaults={}, cache={},

                       minchunk=1024, maxchunk=65536):

              '''set up template engine.

              mapfile is name of file to read map definitions from.

              filters is dict of functions. each transforms a value into another.

              defaults is dict of default map definitions.'''

              self.mapfile = mapfile or 'template'

              self.cache = cache.copy()

              self.map = {}

              self.base = (mapfile and os.path.dirname(mapfile)) or ''

              self.filters = templatefilters.filters.copy()

              self.filters.update(filters)

              self.defaults = defaults

              self.minchunk, self.maxchunk = minchunk, maxchunk

              self.ecache = {}

              if not mapfile:

                  return

              if not os.path.exists(mapfile):

                  raise util.Abort(_('style not found: %s') % mapfile)

              conf = config.config()

              conf.read(mapfile)

              for key, val in conf[''].items():

                  if not val:

                      raise SyntaxError(_('%s: missing value') % conf.source('', key))

                  if val[0] in "'\"":

                      try:

                          self.cache[key] = parsestring(val)

                      except SyntaxError, inst:

                          raise SyntaxError('%s: %s' %

                                            (conf.source('', key), inst.args[0]))

                  else:

                      val = 'default', val

                      if ':' in val[1]:

                          val = val[1].split(':', 1)

                      self.map[key] = val[0], os.path.join(self.base, val[1])

          def __contains__(self, key):

              return key in self.cache or key in self.map

          def load(self, t):

              '''Get the template for the given template name. Use a local cache.'''

              if t not in self.cache:

                  try:

                      self.cache[t] = util.readfile(self.map[t][1])

                  except KeyError, inst:

                      raise util.Abort(_('"%s" not in template map') % inst.args[0])

                  except IOError, inst:

                      raise IOError(inst.args[0], _('template file %s: %s') %

                                    (self.map[t][1], inst.args[1]))

              return self.cache[t]

          def __call__(self, t, **mapping):

              ttype = t in self.map and self.map[t][0] or 'default'

              if ttype not in self.ecache:

                  self.ecache[ttype] = engines[ttype](self.load,

                                                       self.filters, self.defaults)

              proc = self.ecache[ttype]

              stream = proc.process(t, mapping)

              if self.minchunk:

                  stream = util.increasingchunks(stream, min=self.minchunk,

                                                 max=self.maxchunk)

              return stream

      def templatepath(name=None):

          '''return location of template file or directory (if no name).

          returns None if not found.'''

          normpaths = []

          # executable version (py2exe) doesn't support __file__

          if util.mainfrozen():

              module = sys.executable

          else:

              module = __file__

          for f in path:

              if f.startswith('/'):

                  p = f

              else:

                  fl = f.split('/')

                  p = os.path.join(os.path.dirname(module), *fl)

              if name:

                  p = os.path.join(p, name)

              if name and os.path.exists(p):

                  return os.path.normpath(p)

              elif os.path.isdir(p):

                  normpaths.append(os.path.normpath(p))

          return normpaths

      def stylemap(styles, paths=None):

          """Return path to mapfile for a given style.

          Searches mapfile in the following locations:

          1. templatepath/style/map

          2. templatepath/map-style

          3. templatepath/map

          """

          if paths is None:

              paths = templatepath()

          elif isinstance(paths, str):

              paths = [paths]

          if isinstance(styles, str):

              styles = [styles]

          for style in styles:

              if not style:

                  continue

              locations = [os.path.join(style, 'map'), 'map-' + style]

              locations.append('map')

              for path in paths:

                  for location in locations:

                      mapfile = os.path.join(path, location)

                      if os.path.isfile(mapfile):

                          return style, mapfile

          raise RuntimeError("No hgweb templates found in %r" % paths)

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				# templater.py - template expansion for output
				#
				# Copyright 2005, 2006 Matt Mackall <mpm@selenic.com>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from i18n import _
				import sys, os, re
				import util, config, templatefilters, parser, error

				# template parsing

				elements = {
				"(": (20, ("group", 1, ")"), ("func", 1, ")")),
				",": (2, None, ("list", 2)),
				"\|": (5, None, ("\|", 5)),
				"%": (6, None, ("%", 6)),
				")": (0, None, None),
				"symbol": (0, ("symbol",), None),
				"string": (0, ("string",), None),
				"end": (0, None, None),
				}

				def tokenizer(data):
				program, start, end = data
				pos = start
				while pos < end:
				c = program[pos]
				if c.isspace(): # skip inter-token whitespace
				pass
				elif c in "(,)%\|": # handle simple operators
				yield (c, None, pos)
				elif (c in '"\'' or c == 'r' and
				program[pos:pos + 2] in ("r'", 'r"')): # handle quoted strings
				if c == 'r':
				pos += 1
				c = program[pos]
				decode = False
				else:
				decode = True
				pos += 1
				s = pos
				while pos < end: # find closing quote
				d = program[pos]
				if decode and d == '\\': # skip over escaped characters
				pos += 2
				continue
				if d == c:
				if not decode:
				yield ('string', program[s:pos].replace('\\', r'\\'), s)
				break
				yield ('string', program[s:pos].decode('string-escape'), s)
				break
				pos += 1
				else:
				raise error.ParseError(_("unterminated string"), s)
				elif c.isalnum() or c in '_':
				s = pos
				pos += 1
				while pos < end: # find end of symbol
				d = program[pos]
				if not (d.isalnum() or d == "_"):
				break
				pos += 1
				sym = program[s:pos]
				yield ('symbol', sym, s)
				pos -= 1
				elif c == '}':
				pos += 1
				break
				else:
				raise error.ParseError(_("syntax error"), pos)
				pos += 1
				yield ('end', None, pos)

				def compiletemplate(tmpl, context):
				parsed = []
				pos, stop = 0, len(tmpl)
				p = parser.parser(tokenizer, elements)

				while pos < stop:
				n = tmpl.find('{', pos)
				if n < 0:
				parsed.append(("string", tmpl[pos:]))
				break
				if n > 0 and tmpl[n - 1] == '\\':
				# escaped
				parsed.append(("string", tmpl[pos:n - 1] + "{"))
				pos = n + 1
				continue
				if n > pos:
				parsed.append(("string", tmpl[pos:n]))

				pd = [tmpl, n + 1, stop]
				parseres, pos = p.parse(pd)
				parsed.append(parseres)

				return [compileexp(e, context) for e in parsed]

				def compileexp(exp, context):
				t = exp[0]
				if t in methods:
				return methods[t](exp, context)
				raise error.ParseError(_("unknown method '%s'") % t)

				# template evaluation

				def getsymbol(exp):
				if exp[0] == 'symbol':
				return exp[1]
				raise error.ParseError(_("expected a symbol"))

				def getlist(x):
				if not x:
				return []
				if x[0] == 'list':
				return getlist(x[1]) + [x[2]]
				return [x]

				def getfilter(exp, context):
				f = getsymbol(exp)
				if f not in context._filters:
				raise error.ParseError(_("unknown function '%s'") % f)
				return context._filters[f]

				def gettemplate(exp, context):
				if exp[0] == 'string':
				return compiletemplate(exp[1], context)
				if exp[0] == 'symbol':
				return context._load(exp[1])
				raise error.ParseError(_("expected template specifier"))

				def runstring(context, mapping, data):
				return data

				def runsymbol(context, mapping, key):
				v = mapping.get(key)
				if v is None:
				v = context._defaults.get(key, '')
				if util.safehasattr(v, '__call__'):
				return v(**mapping)
				return v

				def buildfilter(exp, context):
				func, data = compileexp(exp[1], context)
				filt = getfilter(exp[2], context)
				return (runfilter, (func, data, filt))

				def runfilter(context, mapping, data):
				func, data, filt = data
				try:
				return filt(func(context, mapping, data))
				except (ValueError, AttributeError, TypeError):
				if isinstance(data, tuple):
				dt = data[1]
				else:
				dt = data
				raise util.Abort(_("template filter '%s' is not compatible with "
				"keyword '%s'") % (filt.func_name, dt))

				def buildmap(exp, context):
				func, data = compileexp(exp[1], context)
				ctmpl = gettemplate(exp[2], context)
				return (runmap, (func, data, ctmpl))

				def runtemplate(context, mapping, template):
				for func, data in template:
				yield func(context, mapping, data)

				def runmap(context, mapping, data):
				func, data, ctmpl = data
				d = func(context, mapping, data)
				if util.safehasattr(d, '__call__'):
				d = d()

				lm = mapping.copy()

				for i in d:
				if isinstance(i, dict):
				lm.update(i)
				yield runtemplate(context, lm, ctmpl)
				else:
				# v is not an iterable of dicts, this happen when 'key'
				# has been fully expanded already and format is useless.
				# If so, return the expanded value.
				yield i

				def buildfunc(exp, context):
				n = getsymbol(exp[1])
				args = [compileexp(x, context) for x in getlist(exp[2])]
				if n in funcs:
				f = funcs[n]
				return (f, args)
				if n in templatefilters.funcs:
				f = templatefilters.funcs[n]
				return (f, args)
				if n in context._filters:
				if len(args) != 1:
				raise error.ParseError(_("filter %s expects one argument") % n)
				f = context._filters[n]
				return (runfilter, (args[0][0], args[0][1], f))

				def join(context, mapping, args):
				if not (1 <= len(args) <= 2):
				raise error.ParseError(_("join expects one or two arguments"))

				joinset = args[0][0](context, mapping, args[0][1])
				if util.safehasattr(joinset, '__call__'):
				joinset = [x.values()[0] for x in joinset()]

				joiner = " "
				if len(args) > 1:
				joiner = args[1][0](context, mapping, args[1][1])

				first = True
				for x in joinset:
				if first:
				first = False
				else:
				yield joiner
				yield x

				def sub(context, mapping, args):
				if len(args) != 3:
				raise error.ParseError(_("sub expects three arguments"))

				pat = stringify(args[0][0](context, mapping, args[0][1]))
				rpl = stringify(args[1][0](context, mapping, args[1][1]))
				src = stringify(args[2][0](context, mapping, args[2][1]))
				yield re.sub(pat, rpl, src)

				def if_(context, mapping, args):
				if not (2 <= len(args) <= 3):
				raise error.ParseError(_("if expects two or three arguments"))

				test = stringify(args[0][0](context, mapping, args[0][1]))
				if test:
				t = stringify(args[1][0](context, mapping, args[1][1]))
				yield runtemplate(context, mapping, compiletemplate(t, context))
				elif len(args) == 3:
				t = stringify(args[2][0](context, mapping, args[2][1]))
				yield runtemplate(context, mapping, compiletemplate(t, context))

				def ifeq(context, mapping, args):
				if not (3 <= len(args) <= 4):
				raise error.ParseError(_("ifeq expects three or four arguments"))

				test = stringify(args[0][0](context, mapping, args[0][1]))
				match = stringify(args[1][0](context, mapping, args[1][1]))
				if test == match:
				t = stringify(args[2][0](context, mapping, args[2][1]))
				yield runtemplate(context, mapping, compiletemplate(t, context))
				elif len(args) == 4:
				t = stringify(args[3][0](context, mapping, args[3][1]))
				yield runtemplate(context, mapping, compiletemplate(t, context))

				methods = {
				"string": lambda e, c: (runstring, e[1]),
				"symbol": lambda e, c: (runsymbol, e[1]),
				"group": lambda e, c: compileexp(e[1], c),
				# ".": buildmember,
				"\|": buildfilter,
				"%": buildmap,
				"func": buildfunc,
				}

				funcs = {
				"if": if_,
				"ifeq": ifeq,
				"join": join,
				"sub": sub,
				}

				# template engine

				path = ['templates', '../templates']
				stringify = templatefilters.stringify

				def _flatten(thing):
				'''yield a single stream from a possibly nested set of iterators'''
				if isinstance(thing, str):
				yield thing
				elif not util.safehasattr(thing, '__iter__'):
				if thing is not None:
				yield str(thing)
				else:
				for i in thing:
				if isinstance(i, str):
				yield i
				elif not util.safehasattr(i, '__iter__'):
				if i is not None:
				yield str(i)
				elif i is not None:
				for j in _flatten(i):
				yield j

				def parsestring(s, quoted=True):
				'''parse a string using simple c-like syntax.
				string must be in quotes if quoted is True.'''
				if quoted:
				if len(s) < 2 or s[0] != s[-1]:
				raise SyntaxError(_('unmatched quotes'))
				return s[1:-1].decode('string_escape')

				return s.decode('string_escape')

				class engine(object):
				'''template expansion engine.

				template expansion works like this. a map file contains key=value
				pairs. if value is quoted, it is treated as string. otherwise, it
				is treated as name of template file.

				templater is asked to expand a key in map. it looks up key, and
				looks for strings like this: {foo}. it expands {foo} by looking up
				foo in map, and substituting it. expansion is recursive: it stops
				when there is no more {foo} to replace.

				expansion also allows formatting and filtering.

				format uses key to expand each item in list. syntax is
				{key%format}.

				filter uses function to transform value. syntax is
				{key\|filter1\|filter2\|...}.'''

				def __init__(self, loader, filters={}, defaults={}):
				self._loader = loader
				self._filters = filters
				self._defaults = defaults
				self._cache = {}

				def _load(self, t):
				'''load, parse, and cache a template'''
				if t not in self._cache:
				self._cache[t] = compiletemplate(self._loader(t), self)
				return self._cache[t]

				def process(self, t, mapping):
				'''Perform expansion. t is name of map element to expand.
				mapping contains added elements for use during expansion. Is a
				generator.'''
				return _flatten(runtemplate(self, mapping, self._load(t)))

				engines = {'default': engine}

				class templater(object):

				def __init__(self, mapfile, filters={}, defaults={}, cache={},
				minchunk=1024, maxchunk=65536):
				'''set up template engine.
				mapfile is name of file to read map definitions from.
				filters is dict of functions. each transforms a value into another.
				defaults is dict of default map definitions.'''
				self.mapfile = mapfile or 'template'
				self.cache = cache.copy()
				self.map = {}
				self.base = (mapfile and os.path.dirname(mapfile)) or ''
				self.filters = templatefilters.filters.copy()
				self.filters.update(filters)
				self.defaults = defaults
				self.minchunk, self.maxchunk = minchunk, maxchunk
				self.ecache = {}

				if not mapfile:
				return
				if not os.path.exists(mapfile):
				raise util.Abort(_('style not found: %s') % mapfile)

				conf = config.config()
				conf.read(mapfile)

				for key, val in conf[''].items():
				if not val:
				raise SyntaxError(_('%s: missing value') % conf.source('', key))
				if val[0] in "'\"":
				try:
				self.cache[key] = parsestring(val)
				except SyntaxError, inst:
				raise SyntaxError('%s: %s' %
				(conf.source('', key), inst.args[0]))
				else:
				val = 'default', val
				if ':' in val[1]:
				val = val[1].split(':', 1)
				self.map[key] = val[0], os.path.join(self.base, val[1])

				def __contains__(self, key):
				return key in self.cache or key in self.map

				def load(self, t):
				'''Get the template for the given template name. Use a local cache.'''
				if t not in self.cache:
				try:
				self.cache[t] = util.readfile(self.map[t][1])
				except KeyError, inst:
				raise util.Abort(_('"%s" not in template map') % inst.args[0])
				except IOError, inst:
				raise IOError(inst.args[0], _('template file %s: %s') %
				(self.map[t][1], inst.args[1]))
				return self.cache[t]

				def __call__(self, t, **mapping):
				ttype = t in self.map and self.map[t][0] or 'default'
				if ttype not in self.ecache:
				self.ecache[ttype] = engines[ttype](self.load,
				self.filters, self.defaults)
				proc = self.ecache[ttype]

				stream = proc.process(t, mapping)
				if self.minchunk:
				stream = util.increasingchunks(stream, min=self.minchunk,
				max=self.maxchunk)
				return stream

				def templatepath(name=None):
				'''return location of template file or directory (if no name).
				returns None if not found.'''
				normpaths = []

				# executable version (py2exe) doesn't support __file__
				if util.mainfrozen():
				module = sys.executable
				else:
				module = __file__
				for f in path:
				if f.startswith('/'):
				p = f
				else:
				fl = f.split('/')
				p = os.path.join(os.path.dirname(module), *fl)
				if name:
				p = os.path.join(p, name)
				if name and os.path.exists(p):
				return os.path.normpath(p)
				elif os.path.isdir(p):
				normpaths.append(os.path.normpath(p))

				return normpaths

				def stylemap(styles, paths=None):
				"""Return path to mapfile for a given style.

				Searches mapfile in the following locations:
				1. templatepath/style/map
				2. templatepath/map-style
				3. templatepath/map
				"""

				if paths is None:
				paths = templatepath()
				elif isinstance(paths, str):
				paths = [paths]

				if isinstance(styles, str):
				styles = [styles]

				for style in styles:
				if not style:
				continue
				locations = [os.path.join(style, 'map'), 'map-' + style]
				locations.append('map')

				for path in paths:
				for location in locations:
				mapfile = os.path.join(path, location)
				if os.path.isfile(mapfile):
				return style, mapfile

				raise RuntimeError("No hgweb templates found in %r" % paths)