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exchangev2: fetch manifest revisions Now that the server has support for retrieving manifest data, we can implement the client bits to call it. We teach the changeset fetching code to capture the manifest revisions that are encountered on incoming changesets. We then feed this into a new function which filters out known manifests and then batches up manifest data requests to the server. This is different from the previous wire protocol in a few notable ways. First, the client fetches manifest data separately and explicitly. Before, we'd ask the server for data pertaining to some changesets (via a "getbundle" command) and manifests (and files) would be sent automatically. Providing an API for looking up just manifest data separately gives clients much more flexibility for manifest management. For example, a client may choose to only fetch manifest data on demand instead of prefetching it (i.e. partial clone). Second, we send N commands to the server for manifest retrieval instead of 1. This property has a few nice side-effects. One is that the deterministic nature of the requests lends itself to server-side caching. For example, say the remote has 50,000 manifests. If the server is configured to cache responses, each time a new commit arrives, you will have a cache miss and need to regenerate all outgoing data. But if you makes N requests requesting 10,000 manifests each, a new commit will still yield cache hits on the initial, unchanged manifest batches/requests. A derived benefit from these properties is that resumable clone is conceptually simpler to implement. When making a monolithic request for all of the repository data, recovering from an interrupted clone is hard because the server was in the driver's seat and was maintaining state about all the data that needed transferred. With the client driving fetching, the client can persist the set of unfetched entities and retry/resume a fetch if something goes wrong. Or we can fetch all data N changesets at a time and slowly build up a repository. This approach is drastically easier to implement when we have server APIs exposing low-level repository primitives (such as manifests and files). We don't yet support tree manifests. But it should be possible to implement that with the existing wire protocol command. Differential Revision: https://phab.mercurial-scm.org/D4489

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      # dagparser.py - parser and generator for concise description of DAGs

      #

      # Copyright 2010 Peter Arrenbrecht <peter@arrenbrecht.ch>

      #

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

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

      from __future__ import absolute_import

      import re

      import string

      from .i18n import _

      from . import (

          error,

          pycompat,

      )

      from .utils import (

          stringutil,

      )

      def parsedag(desc):

          '''parses a DAG from a concise textual description; generates events

          "+n" is a linear run of n nodes based on the current default parent

          "." is a single node based on the current default parent

          "$" resets the default parent to -1 (implied at the start);

              otherwise the default parent is always the last node created

          "<p" sets the default parent to the backref p

          "*p" is a fork at parent p, where p is a backref

          "*p1/p2/.../pn" is a merge of parents p1..pn, where the pi are backrefs

          "/p2/.../pn" is a merge of the preceding node and p2..pn

          ":name" defines a label for the preceding node; labels can be redefined

          "@text" emits an annotation event for text

          "!command" emits an action event for the current node

          "!!my command\n" is like "!", but to the end of the line

          "#...\n" is a comment up to the end of the line

          Whitespace between the above elements is ignored.

          A backref is either

           * a number n, which references the node curr-n, where curr is the current

             node, or

           * the name of a label you placed earlier using ":name", or

           * empty to denote the default parent.

          All string valued-elements are either strictly alphanumeric, or must

          be enclosed in double quotes ("..."), with "\" as escape character.

          Generates sequence of

            ('n', (id, [parentids])) for node creation

            ('l', (id, labelname)) for labels on nodes

            ('a', text) for annotations

            ('c', command) for actions (!)

            ('C', command) for line actions (!!)

          Examples

          --------

          Example of a complex graph (output not shown for brevity):

              >>> len(list(parsedag(b"""

              ...

              ... +3         # 3 nodes in linear run

              ... :forkhere  # a label for the last of the 3 nodes from above

              ... +5         # 5 more nodes on one branch

              ... :mergethis # label again

              ... <forkhere  # set default parent to labeled fork node

              ... +10        # 10 more nodes on a parallel branch

              ... @stable    # following nodes will be annotated as "stable"

              ... +5         # 5 nodes in stable

              ... !addfile   # custom command; could trigger new file in next node

              ... +2         # two more nodes

              ... /mergethis # merge last node with labeled node

              ... +4         # 4 more nodes descending from merge node

              ...

              ... """)))

              34

          Empty list:

              >>> list(parsedag(b""))

              []

          A simple linear run:

              >>> list(parsedag(b"+3"))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

          Some non-standard ways to define such runs:

              >>> list(parsedag(b"+1+2"))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

              >>> list(parsedag(b"+1*1*"))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

              >>> list(parsedag(b"*"))

              [('n', (0, [-1]))]

              >>> list(parsedag(b"..."))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

          A fork and a join, using numeric back references:

              >>> list(parsedag(b"+2*2*/2"))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [0])), ('n', (3, [2, 1]))]

              >>> list(parsedag(b"+2<2+1/2"))

              [('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [0])), ('n', (3, [2, 1]))]

          Placing a label:

              >>> list(parsedag(b"+1 :mylabel +1"))

              [('n', (0, [-1])), ('l', (0, 'mylabel')), ('n', (1, [0]))]

          An empty label (silly, really):

              >>> list(parsedag(b"+1:+1"))

              [('n', (0, [-1])), ('l', (0, '')), ('n', (1, [0]))]

          Fork and join, but with labels instead of numeric back references:

              >>> list(parsedag(b"+1:f +1:p2 *f */p2"))

              [('n', (0, [-1])), ('l', (0, 'f')), ('n', (1, [0])), ('l', (1, 'p2')),

               ('n', (2, [0])), ('n', (3, [2, 1]))]

              >>> list(parsedag(b"+1:f +1:p2 <f +1 /p2"))

              [('n', (0, [-1])), ('l', (0, 'f')), ('n', (1, [0])), ('l', (1, 'p2')),

               ('n', (2, [0])), ('n', (3, [2, 1]))]

          Restarting from the root:

              >>> list(parsedag(b"+1 $ +1"))

              [('n', (0, [-1])), ('n', (1, [-1]))]

          Annotations, which are meant to introduce sticky state for subsequent nodes:

              >>> list(parsedag(b"+1 @ann +1"))

              [('n', (0, [-1])), ('a', 'ann'), ('n', (1, [0]))]

              >>> list(parsedag(b'+1 @"my annotation" +1'))

              [('n', (0, [-1])), ('a', 'my annotation'), ('n', (1, [0]))]

          Commands, which are meant to operate on the most recently created node:

              >>> list(parsedag(b"+1 !cmd +1"))

              [('n', (0, [-1])), ('c', 'cmd'), ('n', (1, [0]))]

              >>> list(parsedag(b'+1 !"my command" +1'))

              [('n', (0, [-1])), ('c', 'my command'), ('n', (1, [0]))]

              >>> list(parsedag(b'+1 !!my command line\\n +1'))

              [('n', (0, [-1])), ('C', 'my command line'), ('n', (1, [0]))]

          Comments, which extend to the end of the line:

              >>> list(parsedag(b'+1 # comment\\n+1'))

              [('n', (0, [-1])), ('n', (1, [0]))]

          Error:

              >>> try: list(parsedag(b'+1 bad'))

              ... except Exception as e: print(pycompat.sysstr(bytes(e)))

              invalid character in dag description: bad...

          '''

          if not desc:

              return

          wordchars = pycompat.bytestr(string.ascii_letters + string.digits)

          labels = {}

          p1 = -1

          r = 0

          def resolve(ref):

              if not ref:

                  return p1

              elif ref[0] in pycompat.bytestr(string.digits):

                  return r - int(ref)

              else:

                  return labels[ref]

          chiter = pycompat.iterbytestr(desc)

          def nextch():

              return next(chiter, '\0')

          def nextrun(c, allow):

              s = ''

              while c in allow:

                  s += c

                  c = nextch()

              return c, s

          def nextdelimited(c, limit, escape):

              s = ''

              while c != limit:

                  if c == escape:

                      c = nextch()

                  s += c

                  c = nextch()

              return nextch(), s

          def nextstring(c):

              if c == '"':

                  return nextdelimited(nextch(), '"', '\\')

              else:

                  return nextrun(c, wordchars)

          c = nextch()

          while c != '\0':

              while c in pycompat.bytestr(string.whitespace):

                  c = nextch()

              if c == '.':

                  yield 'n', (r, [p1])

                  p1 = r

                  r += 1

                  c = nextch()

              elif c == '+':

                  c, digs = nextrun(nextch(), pycompat.bytestr(string.digits))

                  n = int(digs)

                  for i in pycompat.xrange(0, n):

                      yield 'n', (r, [p1])

                      p1 = r

                      r += 1

              elif c in '*/':

                  if c == '*':

                      c = nextch()

                  c, pref = nextstring(c)

                  prefs = [pref]

                  while c == '/':

                      c, pref = nextstring(nextch())

                      prefs.append(pref)

                  ps = [resolve(ref) for ref in prefs]

                  yield 'n', (r, ps)

                  p1 = r

                  r += 1

              elif c == '<':

                  c, ref = nextstring(nextch())

                  p1 = resolve(ref)

              elif c == ':':

                  c, name = nextstring(nextch())

                  labels[name] = p1

                  yield 'l', (p1, name)

              elif c == '@':

                  c, text = nextstring(nextch())

                  yield 'a', text

              elif c == '!':

                  c = nextch()

                  if c == '!':

                      cmd = ''

                      c = nextch()

                      while c not in '\n\r\0':

                          cmd += c

                          c = nextch()

                      yield 'C', cmd

                  else:

                      c, cmd = nextstring(c)

                      yield 'c', cmd

              elif c == '#':

                  while c not in '\n\r\0':

                      c = nextch()

              elif c == '$':

                  p1 = -1

                  c = nextch()

              elif c == '\0':

                  return # in case it was preceded by whitespace

              else:

                  s = ''

                  i = 0

                  while c != '\0' and i < 10:

                      s += c

                      i += 1

                      c = nextch()

                  raise error.Abort(_('invalid character in dag description: '

                                     '%s...') % s)

      def dagtextlines(events,

                       addspaces=True,

                       wraplabels=False,

                       wrapannotations=False,

                       wrapcommands=False,

                       wrapnonlinear=False,

                       usedots=False,

                       maxlinewidth=70):

          '''generates single lines for dagtext()'''

          def wrapstring(text):

              if re.match("^[0-9a-z]*$", text):

                  return text

              return '"' + text.replace('\\', '\\\\').replace('"', '\"') + '"'

          def gen():

              labels = {}

              run = 0

              wantr = 0

              needroot = False

              for kind, data in events:

                  if kind == 'n':

                      r, ps = data

                      # sanity check

                      if r != wantr:

                          raise error.Abort(_("expected id %i, got %i") % (wantr, r))

                      if not ps:

                          ps = [-1]

                      else:

                          for p in ps:

                              if p >= r:

                                  raise error.Abort(_("parent id %i is larger than "

                                                     "current id %i") % (p, r))

                      wantr += 1

                      # new root?

                      p1 = r - 1

                      if len(ps) == 1 and ps[0] == -1:

                          if needroot:

                              if run:

                                  yield '+%d' % run

                                  run = 0

                              if wrapnonlinear:

                                  yield '\n'

                              yield '$'

                              p1 = -1

                          else:

                              needroot = True

                      if len(ps) == 1 and ps[0] == p1:

                          if usedots:

                              yield "."

                          else:

                              run += 1

                      else:

                          if run:

                              yield '+%d' % run

                              run = 0

                          if wrapnonlinear:

                              yield '\n'

                          prefs = []

                          for p in ps:

                              if p == p1:

                                  prefs.append('')

                              elif p in labels:

                                  prefs.append(labels[p])

                              else:

                                  prefs.append('%d' % (r - p))

                          yield '*' + '/'.join(prefs)

                  else:

                      if run:

                          yield '+%d' % run

                          run = 0

                      if kind == 'l':

                          rid, name = data

                          labels[rid] = name

                          yield ':' + name

                          if wraplabels:

                              yield '\n'

                      elif kind == 'c':

                          yield '!' + wrapstring(data)

                          if wrapcommands:

                              yield '\n'

                      elif kind == 'C':

                          yield '!!' + data

                          yield '\n'

                      elif kind == 'a':

                          if wrapannotations:

                              yield '\n'

                          yield '@' + wrapstring(data)

                      elif kind == '#':

                          yield '#' + data

                          yield '\n'

                      else:

                          raise error.Abort(_("invalid event type in dag: "

                                              "('%s', '%s')")

                                            % (stringutil.escapestr(kind),

                                               stringutil.escapestr(data)))

              if run:

                  yield '+%d' % run

          line = ''

          for part in gen():

              if part == '\n':

                  if line:

                      yield line

                      line = ''

              else:

                  if len(line) + len(part) >= maxlinewidth:

                      yield line

                      line = ''

                  elif addspaces and line and part != '.':

                      line += ' '

                  line += part

          if line:

              yield line

      def dagtext(dag,

                  addspaces=True,

                  wraplabels=False,

                  wrapannotations=False,

                  wrapcommands=False,

                  wrapnonlinear=False,

                  usedots=False,

                  maxlinewidth=70):

          '''generates lines of a textual representation for a dag event stream

          events should generate what parsedag() does, so:

            ('n', (id, [parentids])) for node creation

            ('l', (id, labelname)) for labels on nodes

            ('a', text) for annotations

            ('c', text) for commands

            ('C', text) for line commands ('!!')

            ('#', text) for comment lines

          Parent nodes must come before child nodes.

          Examples

          --------

          Linear run:

              >>> dagtext([(b'n', (0, [-1])), (b'n', (1, [0]))])

              '+2'

          Two roots:

              >>> dagtext([(b'n', (0, [-1])), (b'n', (1, [-1]))])

              '+1 $ +1'

          Fork and join:

              >>> dagtext([(b'n', (0, [-1])), (b'n', (1, [0])), (b'n', (2, [0])),

              ...          (b'n', (3, [2, 1]))])

              '+2 *2 */2'

          Fork and join with labels:

              >>> dagtext([(b'n', (0, [-1])), (b'l', (0, b'f')), (b'n', (1, [0])),

              ...          (b'l', (1, b'p2')), (b'n', (2, [0])), (b'n', (3, [2, 1]))])

              '+1 :f +1 :p2 *f */p2'

          Annotations:

              >>> dagtext([(b'n', (0, [-1])), (b'a', b'ann'), (b'n', (1, [0]))])

              '+1 @ann +1'

              >>> dagtext([(b'n', (0, [-1])),

              ...          (b'a', b'my annotation'),

              ...          (b'n', (1, [0]))])

              '+1 @"my annotation" +1'

          Commands:

              >>> dagtext([(b'n', (0, [-1])), (b'c', b'cmd'), (b'n', (1, [0]))])

              '+1 !cmd +1'

              >>> dagtext([(b'n', (0, [-1])),

              ...          (b'c', b'my command'),

              ...          (b'n', (1, [0]))])

              '+1 !"my command" +1'

              >>> dagtext([(b'n', (0, [-1])),

              ...          (b'C', b'my command line'),

              ...          (b'n', (1, [0]))])

              '+1 !!my command line\\n+1'

          Comments:

              >>> dagtext([(b'n', (0, [-1])), (b'#', b' comment'), (b'n', (1, [0]))])

              '+1 # comment\\n+1'

              >>> dagtext([])

              ''

          Combining parsedag and dagtext:

              >>> dagtext(parsedag(b'+1 :f +1 :p2 *f */p2'))

              '+1 :f +1 :p2 *f */p2'

          '''

          return "\n".join(dagtextlines(dag,

                                        addspaces,

                                        wraplabels,

                                        wrapannotations,

                                        wrapcommands,

                                        wrapnonlinear,

                                        usedots,

                                        maxlinewidth))

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				# dagparser.py - parser and generator for concise description of DAGs
				#
				# Copyright 2010 Peter Arrenbrecht <peter@arrenbrecht.ch>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				from __future__ import absolute_import

				import re
				import string

				from .i18n import _
				from . import (
				error,
				pycompat,
				)
				from .utils import (
				stringutil,
				)

				def parsedag(desc):
				'''parses a DAG from a concise textual description; generates events

				"+n" is a linear run of n nodes based on the current default parent
				"." is a single node based on the current default parent
				"$" resets the default parent to -1 (implied at the start);
				otherwise the default parent is always the last node created
				"<p" sets the default parent to the backref p
				"*p" is a fork at parent p, where p is a backref
				"*p1/p2/.../pn" is a merge of parents p1..pn, where the pi are backrefs
				"/p2/.../pn" is a merge of the preceding node and p2..pn
				":name" defines a label for the preceding node; labels can be redefined
				"@text" emits an annotation event for text
				"!command" emits an action event for the current node
				"!!my command\n" is like "!", but to the end of the line
				"#...\n" is a comment up to the end of the line

				Whitespace between the above elements is ignored.

				A backref is either
				* a number n, which references the node curr-n, where curr is the current
				node, or
				* the name of a label you placed earlier using ":name", or
				* empty to denote the default parent.

				All string valued-elements are either strictly alphanumeric, or must
				be enclosed in double quotes ("..."), with "\" as escape character.

				Generates sequence of

				('n', (id, [parentids])) for node creation
				('l', (id, labelname)) for labels on nodes
				('a', text) for annotations
				('c', command) for actions (!)
				('C', command) for line actions (!!)

				Examples
				--------

				Example of a complex graph (output not shown for brevity):

				>>> len(list(parsedag(b"""
				...
				... +3 # 3 nodes in linear run
				... :forkhere # a label for the last of the 3 nodes from above
				... +5 # 5 more nodes on one branch
				... :mergethis # label again
				... <forkhere # set default parent to labeled fork node
				... +10 # 10 more nodes on a parallel branch
				... @stable # following nodes will be annotated as "stable"
				... +5 # 5 nodes in stable
				... !addfile # custom command; could trigger new file in next node
				... +2 # two more nodes
				... /mergethis # merge last node with labeled node
				... +4 # 4 more nodes descending from merge node
				...
				... """)))
				34

				Empty list:

				>>> list(parsedag(b""))
				[]

				A simple linear run:

				>>> list(parsedag(b"+3"))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

				Some non-standard ways to define such runs:

				>>> list(parsedag(b"+1+2"))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

				>>> list(parsedag(b"+11"))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

				>>> list(parsedag(b"*"))
				[('n', (0, [-1]))]

				>>> list(parsedag(b"..."))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [1]))]

				A fork and a join, using numeric back references:

				>>> list(parsedag(b"+22/2"))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [0])), ('n', (3, [2, 1]))]

				>>> list(parsedag(b"+2<2+1/2"))
				[('n', (0, [-1])), ('n', (1, [0])), ('n', (2, [0])), ('n', (3, [2, 1]))]

				Placing a label:

				>>> list(parsedag(b"+1 :mylabel +1"))
				[('n', (0, [-1])), ('l', (0, 'mylabel')), ('n', (1, [0]))]

				An empty label (silly, really):

				>>> list(parsedag(b"+1:+1"))
				[('n', (0, [-1])), ('l', (0, '')), ('n', (1, [0]))]

				Fork and join, but with labels instead of numeric back references:

				>>> list(parsedag(b"+1:f +1:p2 f /p2"))
				[('n', (0, [-1])), ('l', (0, 'f')), ('n', (1, [0])), ('l', (1, 'p2')),
				('n', (2, [0])), ('n', (3, [2, 1]))]

				>>> list(parsedag(b"+1:f +1:p2 <f +1 /p2"))
				[('n', (0, [-1])), ('l', (0, 'f')), ('n', (1, [0])), ('l', (1, 'p2')),
				('n', (2, [0])), ('n', (3, [2, 1]))]

				Restarting from the root:

				>>> list(parsedag(b"+1 $ +1"))
				[('n', (0, [-1])), ('n', (1, [-1]))]

				Annotations, which are meant to introduce sticky state for subsequent nodes:

				>>> list(parsedag(b"+1 @ann +1"))
				[('n', (0, [-1])), ('a', 'ann'), ('n', (1, [0]))]

				>>> list(parsedag(b'+1 @"my annotation" +1'))
				[('n', (0, [-1])), ('a', 'my annotation'), ('n', (1, [0]))]

				Commands, which are meant to operate on the most recently created node:

				>>> list(parsedag(b"+1 !cmd +1"))
				[('n', (0, [-1])), ('c', 'cmd'), ('n', (1, [0]))]

				>>> list(parsedag(b'+1 !"my command" +1'))
				[('n', (0, [-1])), ('c', 'my command'), ('n', (1, [0]))]

				>>> list(parsedag(b'+1 !!my command line\\n +1'))
				[('n', (0, [-1])), ('C', 'my command line'), ('n', (1, [0]))]

				Comments, which extend to the end of the line:

				>>> list(parsedag(b'+1 # comment\\n+1'))
				[('n', (0, [-1])), ('n', (1, [0]))]

				Error:

				>>> try: list(parsedag(b'+1 bad'))
				... except Exception as e: print(pycompat.sysstr(bytes(e)))
				invalid character in dag description: bad...

				'''
				if not desc:
				return

				wordchars = pycompat.bytestr(string.ascii_letters + string.digits)

				labels = {}
				p1 = -1
				r = 0

				def resolve(ref):
				if not ref:
				return p1
				elif ref[0] in pycompat.bytestr(string.digits):
				return r - int(ref)
				else:
				return labels[ref]

				chiter = pycompat.iterbytestr(desc)

				def nextch():
				return next(chiter, '\0')

				def nextrun(c, allow):
				s = ''
				while c in allow:
				s += c
				c = nextch()
				return c, s

				def nextdelimited(c, limit, escape):
				s = ''
				while c != limit:
				if c == escape:
				c = nextch()
				s += c
				c = nextch()
				return nextch(), s

				def nextstring(c):
				if c == '"':
				return nextdelimited(nextch(), '"', '\\')
				else:
				return nextrun(c, wordchars)

				c = nextch()
				while c != '\0':
				while c in pycompat.bytestr(string.whitespace):
				c = nextch()
				if c == '.':
				yield 'n', (r, [p1])
				p1 = r
				r += 1
				c = nextch()
				elif c == '+':
				c, digs = nextrun(nextch(), pycompat.bytestr(string.digits))
				n = int(digs)
				for i in pycompat.xrange(0, n):
				yield 'n', (r, [p1])
				p1 = r
				r += 1
				elif c in '*/':
				if c == '*':
				c = nextch()
				c, pref = nextstring(c)
				prefs = [pref]
				while c == '/':
				c, pref = nextstring(nextch())
				prefs.append(pref)
				ps = [resolve(ref) for ref in prefs]
				yield 'n', (r, ps)
				p1 = r
				r += 1
				elif c == '<':
				c, ref = nextstring(nextch())
				p1 = resolve(ref)
				elif c == ':':
				c, name = nextstring(nextch())
				labels[name] = p1
				yield 'l', (p1, name)
				elif c == '@':
				c, text = nextstring(nextch())
				yield 'a', text
				elif c == '!':
				c = nextch()
				if c == '!':
				cmd = ''
				c = nextch()
				while c not in '\n\r\0':
				cmd += c
				c = nextch()
				yield 'C', cmd
				else:
				c, cmd = nextstring(c)
				yield 'c', cmd
				elif c == '#':
				while c not in '\n\r\0':
				c = nextch()
				elif c == '$':
				p1 = -1
				c = nextch()
				elif c == '\0':
				return # in case it was preceded by whitespace
				else:
				s = ''
				i = 0
				while c != '\0' and i < 10:
				s += c
				i += 1
				c = nextch()
				raise error.Abort(_('invalid character in dag description: '
				'%s...') % s)

				def dagtextlines(events,
				addspaces=True,
				wraplabels=False,
				wrapannotations=False,
				wrapcommands=False,
				wrapnonlinear=False,
				usedots=False,
				maxlinewidth=70):
				'''generates single lines for dagtext()'''

				def wrapstring(text):
				if re.match("^[0-9a-z]*$", text):
				return text
				return '"' + text.replace('\\', '\\\\').replace('"', '\"') + '"'

				def gen():
				labels = {}
				run = 0
				wantr = 0
				needroot = False
				for kind, data in events:
				if kind == 'n':
				r, ps = data

				# sanity check
				if r != wantr:
				raise error.Abort(_("expected id %i, got %i") % (wantr, r))
				if not ps:
				ps = [-1]
				else:
				for p in ps:
				if p >= r:
				raise error.Abort(_("parent id %i is larger than "
				"current id %i") % (p, r))
				wantr += 1

				# new root?
				p1 = r - 1
				if len(ps) == 1 and ps[0] == -1:
				if needroot:
				if run:
				yield '+%d' % run
				run = 0
				if wrapnonlinear:
				yield '\n'
				yield '$'
				p1 = -1
				else:
				needroot = True
				if len(ps) == 1 and ps[0] == p1:
				if usedots:
				yield "."
				else:
				run += 1
				else:
				if run:
				yield '+%d' % run
				run = 0
				if wrapnonlinear:
				yield '\n'
				prefs = []
				for p in ps:
				if p == p1:
				prefs.append('')
				elif p in labels:
				prefs.append(labels[p])
				else:
				prefs.append('%d' % (r - p))
				yield '*' + '/'.join(prefs)
				else:
				if run:
				yield '+%d' % run
				run = 0
				if kind == 'l':
				rid, name = data
				labels[rid] = name
				yield ':' + name
				if wraplabels:
				yield '\n'
				elif kind == 'c':
				yield '!' + wrapstring(data)
				if wrapcommands:
				yield '\n'
				elif kind == 'C':
				yield '!!' + data
				yield '\n'
				elif kind == 'a':
				if wrapannotations:
				yield '\n'
				yield '@' + wrapstring(data)
				elif kind == '#':
				yield '#' + data
				yield '\n'
				else:
				raise error.Abort(_("invalid event type in dag: "
				"('%s', '%s')")
				% (stringutil.escapestr(kind),
				stringutil.escapestr(data)))
				if run:
				yield '+%d' % run

				line = ''
				for part in gen():
				if part == '\n':
				if line:
				yield line
				line = ''
				else:
				if len(line) + len(part) >= maxlinewidth:
				yield line
				line = ''
				elif addspaces and line and part != '.':
				line += ' '
				line += part
				if line:
				yield line

				def dagtext(dag,
				addspaces=True,
				wraplabels=False,
				wrapannotations=False,
				wrapcommands=False,
				wrapnonlinear=False,
				usedots=False,
				maxlinewidth=70):
				'''generates lines of a textual representation for a dag event stream

				events should generate what parsedag() does, so:

				('n', (id, [parentids])) for node creation
				('l', (id, labelname)) for labels on nodes
				('a', text) for annotations
				('c', text) for commands
				('C', text) for line commands ('!!')
				('#', text) for comment lines

				Parent nodes must come before child nodes.

				Examples
				--------

				Linear run:

				>>> dagtext([(b'n', (0, [-1])), (b'n', (1, [0]))])
				'+2'

				Two roots:

				>>> dagtext([(b'n', (0, [-1])), (b'n', (1, [-1]))])
				'+1 $ +1'

				Fork and join:

				>>> dagtext([(b'n', (0, [-1])), (b'n', (1, [0])), (b'n', (2, [0])),
				... (b'n', (3, [2, 1]))])
				'+2 2 /2'

				Fork and join with labels:

				>>> dagtext([(b'n', (0, [-1])), (b'l', (0, b'f')), (b'n', (1, [0])),
				... (b'l', (1, b'p2')), (b'n', (2, [0])), (b'n', (3, [2, 1]))])
				'+1 :f +1 :p2 f /p2'

				Annotations:

				>>> dagtext([(b'n', (0, [-1])), (b'a', b'ann'), (b'n', (1, [0]))])
				'+1 @ann +1'

				>>> dagtext([(b'n', (0, [-1])),
				... (b'a', b'my annotation'),
				... (b'n', (1, [0]))])
				'+1 @"my annotation" +1'

				Commands:

				>>> dagtext([(b'n', (0, [-1])), (b'c', b'cmd'), (b'n', (1, [0]))])
				'+1 !cmd +1'

				>>> dagtext([(b'n', (0, [-1])),
				... (b'c', b'my command'),
				... (b'n', (1, [0]))])
				'+1 !"my command" +1'

				>>> dagtext([(b'n', (0, [-1])),
				... (b'C', b'my command line'),
				... (b'n', (1, [0]))])
				'+1 !!my command line\\n+1'

				Comments:

				>>> dagtext([(b'n', (0, [-1])), (b'#', b' comment'), (b'n', (1, [0]))])
				'+1 # comment\\n+1'

				>>> dagtext([])
				''

				Combining parsedag and dagtext:

				>>> dagtext(parsedag(b'+1 :f +1 :p2 f /p2'))
				'+1 :f +1 :p2 f /p2'

				'''
				return "\n".join(dagtextlines(dag,
				addspaces,
				wraplabels,
				wrapannotations,
				wrapcommands,
				wrapnonlinear,
				usedots,
				maxlinewidth))