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global: use pycompat.xrange()...

global: use pycompat.xrange() On Python 3, our module importer automatically rewrites xrange() to pycompat.xrange(). We want to move away from the custom importer on Python 3. This commit converts all instances of xrange() to use pycompat.xrange(). Differential Revision: https://phab.mercurial-scm.org/D4032

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      # Revision graph generator for Mercurial

      #

      # Copyright 2008 Dirkjan Ochtman <dirkjan@ochtman.nl>

      # Copyright 2007 Joel Rosdahl <joel@rosdahl.net>

      #

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

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

      """supports walking the history as DAGs suitable for graphical output

      The most basic format we use is that of::

        (id, type, data, [parentids])

      The node and parent ids are arbitrary integers which identify a node in the

      context of the graph returned. Type is a constant specifying the node type.

      Data depends on type.

      """

      from __future__ import absolute_import

      from .node import nullrev

      from . import (

          dagop,

          pycompat,

          smartset,

          util,

      )

      CHANGESET = 'C'

      PARENT = 'P'

      GRANDPARENT = 'G'

      MISSINGPARENT = 'M'

      # Style of line to draw. None signals a line that ends and is removed at this

      # point. A number prefix means only the last N characters of the current block

      # will use that style, the rest will use the PARENT style. Add a - sign

      # (so making N negative) and all but the first N characters use that style.

      EDGES = {PARENT: '|', GRANDPARENT: ':', MISSINGPARENT: None}

      def dagwalker(repo, revs):

          """cset DAG generator yielding (id, CHANGESET, ctx, [parentinfo]) tuples

          This generator function walks through revisions (which should be ordered

          from bigger to lower). It returns a tuple for each node.

          Each parentinfo entry is a tuple with (edgetype, parentid), where edgetype

          is one of PARENT, GRANDPARENT or MISSINGPARENT. The node and parent ids

          are arbitrary integers which identify a node in the context of the graph

          returned.

          """

          gpcache = {}

          for rev in revs:

              ctx = repo[rev]

              # partition into parents in the rev set and missing parents, then

              # augment the lists with markers, to inform graph drawing code about

              # what kind of edge to draw between nodes.

              pset = set(p.rev() for p in ctx.parents() if p.rev() in revs)

              mpars = [p.rev() for p in ctx.parents()

                       if p.rev() != nullrev and p.rev() not in pset]

              parents = [(PARENT, p) for p in sorted(pset)]

              for mpar in mpars:

                  gp = gpcache.get(mpar)

                  if gp is None:

                      # precompute slow query as we know reachableroots() goes

                      # through all revs (issue4782)

                      if not isinstance(revs, smartset.baseset):

                          revs = smartset.baseset(revs)

                      gp = gpcache[mpar] = sorted(set(dagop.reachableroots(

                          repo, revs, [mpar])))

                  if not gp:

                      parents.append((MISSINGPARENT, mpar))

                      pset.add(mpar)

                  else:

                      parents.extend((GRANDPARENT, g) for g in gp if g not in pset)

                      pset.update(gp)

              yield (ctx.rev(), CHANGESET, ctx, parents)

      def nodes(repo, nodes):

          """cset DAG generator yielding (id, CHANGESET, ctx, [parentids]) tuples

          This generator function walks the given nodes. It only returns parents

          that are in nodes, too.

          """

          include = set(nodes)

          for node in nodes:

              ctx = repo[node]

              parents = set((PARENT, p.rev()) for p in ctx.parents()

                            if p.node() in include)

              yield (ctx.rev(), CHANGESET, ctx, sorted(parents))

      def colored(dag, repo):

          """annotates a DAG with colored edge information

          For each DAG node this function emits tuples::

            (id, type, data, (col, color), [(col, nextcol, color)])

          with the following new elements:

            - Tuple (col, color) with column and color index for the current node

            - A list of tuples indicating the edges between the current node and its

              parents.

          """

          seen = []

          colors = {}

          newcolor = 1

          config = {}

          for key, val in repo.ui.configitems('graph'):

              if '.' in key:

                  branch, setting = key.rsplit('.', 1)

                  # Validation

                  if setting == "width" and val.isdigit():

                      config.setdefault(branch, {})[setting] = int(val)

                  elif setting == "color" and val.isalnum():

                      config.setdefault(branch, {})[setting] = val

          if config:

              getconf = util.lrucachefunc(

                  lambda rev: config.get(repo[rev].branch(), {}))

          else:

              getconf = lambda rev: {}

          for (cur, type, data, parents) in dag:

              # Compute seen and next

              if cur not in seen:

                  seen.append(cur) # new head

                  colors[cur] = newcolor

                  newcolor += 1

              col = seen.index(cur)

              color = colors.pop(cur)

              next = seen[:]

              # Add parents to next

              addparents = [p for pt, p in parents if p not in next]

              next[col:col + 1] = addparents

              # Set colors for the parents

              for i, p in enumerate(addparents):

                  if not i:

                      colors[p] = color

                  else:

                      colors[p] = newcolor

                      newcolor += 1

              # Add edges to the graph

              edges = []

              for ecol, eid in enumerate(seen):

                  if eid in next:

                      bconf = getconf(eid)

                      edges.append((

                          ecol, next.index(eid), colors[eid],

                          bconf.get('width', -1),

                          bconf.get('color', '')))

                  elif eid == cur:

                      for ptype, p in parents:

                          bconf = getconf(p)

                          edges.append((

                              ecol, next.index(p), color,

                              bconf.get('width', -1),

                              bconf.get('color', '')))

              # Yield and move on

              yield (cur, type, data, (col, color), edges)

              seen = next

      def asciiedges(type, char, state, rev, parents):

          """adds edge info to changelog DAG walk suitable for ascii()"""

          seen = state['seen']

          if rev not in seen:

              seen.append(rev)

          nodeidx = seen.index(rev)

          knownparents = []

          newparents = []

          for ptype, parent in parents:

              if parent == rev:

                  # self reference (should only be seen in null rev)

                  continue

              if parent in seen:

                  knownparents.append(parent)

              else:

                  newparents.append(parent)

                  state['edges'][parent] = state['styles'].get(ptype, '|')

          ncols = len(seen)

          width = 1 + ncols * 2

          nextseen = seen[:]

          nextseen[nodeidx:nodeidx + 1] = newparents

          edges = [(nodeidx, nextseen.index(p)) for p in knownparents]

          seen[:] = nextseen

          while len(newparents) > 2:

              # ascii() only knows how to add or remove a single column between two

              # calls. Nodes with more than two parents break this constraint so we

              # introduce intermediate expansion lines to grow the active node list

              # slowly.

              edges.append((nodeidx, nodeidx))

              edges.append((nodeidx, nodeidx + 1))

              nmorecols = 1

              width += 2

              yield (type, char, width, (nodeidx, edges, ncols, nmorecols))

              char = '\\'

              nodeidx += 1

              ncols += 1

              edges = []

              del newparents[0]

          if len(newparents) > 0:

              edges.append((nodeidx, nodeidx))

          if len(newparents) > 1:

              edges.append((nodeidx, nodeidx + 1))

          nmorecols = len(nextseen) - ncols

          if nmorecols > 0:

              width += 2

          # remove current node from edge characters, no longer needed

          state['edges'].pop(rev, None)

          yield (type, char, width, (nodeidx, edges, ncols, nmorecols))

      def _fixlongrightedges(edges):

          for (i, (start, end)) in enumerate(edges):

              if end > start:

                  edges[i] = (start, end + 1)

      def _getnodelineedgestail(

              echars, idx, pidx, ncols, coldiff, pdiff, fix_tail):

          if fix_tail and coldiff == pdiff and coldiff != 0:

              # Still going in the same non-vertical direction.

              if coldiff == -1:

                  start = max(idx + 1, pidx)

                  tail = echars[idx * 2:(start - 1) * 2]

                  tail.extend(["/", " "] * (ncols - start))

                  return tail

              else:

                  return ["\\", " "] * (ncols - idx - 1)

          else:

              remainder = (ncols - idx - 1)

              return echars[-(remainder * 2):] if remainder > 0 else []

      def _drawedges(echars, edges, nodeline, interline):

          for (start, end) in edges:

              if start == end + 1:

                  interline[2 * end + 1] = "/"

              elif start == end - 1:

                  interline[2 * start + 1] = "\\"

              elif start == end:

                  interline[2 * start] = echars[2 * start]

              else:

                  if 2 * end >= len(nodeline):

                      continue

                  nodeline[2 * end] = "+"

                  if start > end:

                      (start, end) = (end, start)

                  for i in range(2 * start + 1, 2 * end):

                      if nodeline[i] != "+":

                          nodeline[i] = "-"

      def _getpaddingline(echars, idx, ncols, edges):

          # all edges up to the current node

          line = echars[:idx * 2]

          # an edge for the current node, if there is one

          if (idx, idx - 1) in edges or (idx, idx) in edges:

              # (idx, idx - 1)      (idx, idx)

              # | | | |           | | | |

              # +---o |           | o---+

              # | | X |           | X | |

              # | |/ /            | |/ /

              # | | |             | | |

              line.extend(echars[idx * 2:(idx + 1) * 2])

          else:

              line.extend([' ', ' '])

          # all edges to the right of the current node

          remainder = ncols - idx - 1

          if remainder > 0:

              line.extend(echars[-(remainder * 2):])

          return line

      def _drawendinglines(lines, extra, edgemap, seen):

          """Draw ending lines for missing parent edges

          None indicates an edge that ends at between this node and the next

          Replace with a short line ending in ~ and add / lines to any edges to

          the right.

          """

          if None not in edgemap.values():

              return

          # Check for more edges to the right of our ending edges.

          # We need enough space to draw adjustment lines for these.

          edgechars = extra[::2]

          while edgechars and edgechars[-1] is None:

              edgechars.pop()

          shift_size = max((edgechars.count(None) * 2) - 1, 0)

          while len(lines) < 3 + shift_size:

              lines.append(extra[:])

          if shift_size:

              empties = []

              toshift = []

              first_empty = extra.index(None)

              for i, c in enumerate(extra[first_empty::2], first_empty // 2):

                  if c is None:

                      empties.append(i * 2)

                  else:

                      toshift.append(i * 2)

              targets = list(range(first_empty, first_empty + len(toshift) * 2, 2))

              positions = toshift[:]

              for line in lines[-shift_size:]:

                  line[first_empty:] = [' '] * (len(line) - first_empty)

                  for i in range(len(positions)):

                      pos = positions[i] - 1

                      positions[i] = max(pos, targets[i])

                      line[pos] = '/' if pos > targets[i] else extra[toshift[i]]

          map = {1: '|', 2: '~'}

          for i, line in enumerate(lines):

              if None not in line:

                  continue

              line[:] = [c or map.get(i, ' ') for c in line]

          # remove edges that ended

          remove = [p for p, c in edgemap.items() if c is None]

          for parent in remove:

              del edgemap[parent]

              seen.remove(parent)

      def asciistate():

          """returns the initial value for the "state" argument to ascii()"""

          return {

              'seen': [],

              'edges': {},

              'lastcoldiff': 0,

              'lastindex': 0,

              'styles': EDGES.copy(),

              'graphshorten': False,

          }

      def outputgraph(ui, graph):

          """outputs an ASCII graph of a DAG

          this is a helper function for 'ascii' below.

          takes the following arguments:

          - ui to write to

          - graph data: list of { graph nodes/edges, text }

          this function can be monkey-patched by extensions to alter graph display

          without needing to mimic all of the edge-fixup logic in ascii()

          """

          for (ln, logstr) in graph:

              ui.write((ln + logstr).rstrip() + "\n")

      def ascii(ui, state, type, char, text, coldata):

          """prints an ASCII graph of the DAG

          takes the following arguments (one call per node in the graph):

            - ui to write to

            - Somewhere to keep the needed state in (init to asciistate())

            - Column of the current node in the set of ongoing edges.

            - Type indicator of node data, usually 'C' for changesets.

            - Payload: (char, lines):

              - Character to use as node's symbol.

              - List of lines to display as the node's text.

            - Edges; a list of (col, next_col) indicating the edges between

              the current node and its parents.

            - Number of columns (ongoing edges) in the current revision.

            - The difference between the number of columns (ongoing edges)

              in the next revision and the number of columns (ongoing edges)

              in the current revision. That is: -1 means one column removed;

              0 means no columns added or removed; 1 means one column added.

          """

          idx, edges, ncols, coldiff = coldata

          assert -2 < coldiff < 2

          edgemap, seen = state['edges'], state['seen']

          # Be tolerant of history issues; make sure we have at least ncols + coldiff

          # elements to work with. See test-glog.t for broken history test cases.

          echars = [c for p in seen for c in (edgemap.get(p, '|'), ' ')]

          echars.extend(('|', ' ') * max(ncols + coldiff - len(seen), 0))

          if coldiff == -1:

              # Transform

              #

              #     | | |        | | |

              #     o | |  into  o---+

              #     |X /         |/ /

              #     | |          | |

              _fixlongrightedges(edges)

          # add_padding_line says whether to rewrite

          #

          #     | | | |        | | | |

          #     | o---+  into  | o---+

          #     |  / /         |   | |  # <--- padding line

          #     o | |          |  / /

          #                    o | |

          add_padding_line = (len(text) > 2 and coldiff == -1 and

                              [x for (x, y) in edges if x + 1 < y])

          # fix_nodeline_tail says whether to rewrite

          #

          #     | | o | |        | | o | |

          #     | | |/ /         | | |/ /

          #     | o | |    into  | o / /   # <--- fixed nodeline tail

          #     | |/ /           | |/ /

          #     o | |            o | |

          fix_nodeline_tail = len(text) <= 2 and not add_padding_line

          # nodeline is the line containing the node character (typically o)

          nodeline = echars[:idx * 2]

          nodeline.extend([char, " "])

          nodeline.extend(

              _getnodelineedgestail(

                  echars, idx, state['lastindex'], ncols, coldiff,

                  state['lastcoldiff'], fix_nodeline_tail))

          # shift_interline is the line containing the non-vertical

          # edges between this entry and the next

          shift_interline = echars[:idx * 2]

          for i in pycompat.xrange(2 + coldiff):

              shift_interline.append(' ')

          count = ncols - idx - 1

          if coldiff == -1:

              for i in pycompat.xrange(count):

                  shift_interline.extend(['/', ' '])

          elif coldiff == 0:

              shift_interline.extend(echars[(idx + 1) * 2:ncols * 2])

          else:

              for i in pycompat.xrange(count):

                  shift_interline.extend(['\\', ' '])

          # draw edges from the current node to its parents

          _drawedges(echars, edges, nodeline, shift_interline)

          # lines is the list of all graph lines to print

          lines = [nodeline]

          if add_padding_line:

              lines.append(_getpaddingline(echars, idx, ncols, edges))

          # If 'graphshorten' config, only draw shift_interline

          # when there is any non vertical flow in graph.

          if state['graphshorten']:

              if any(c in '\/' for c in shift_interline if c):

                  lines.append(shift_interline)

          # Else, no 'graphshorten' config so draw shift_interline.

          else:

              lines.append(shift_interline)

          # make sure that there are as many graph lines as there are

          # log strings

          extra_interline = echars[:(ncols + coldiff) * 2]

          if len(lines) < len(text):

              while len(lines) < len(text):

                  lines.append(extra_interline[:])

          _drawendinglines(lines, extra_interline, edgemap, seen)

          while len(text) < len(lines):

              text.append("")

          if any(len(char) > 1 for char in edgemap.values()):

              # limit drawing an edge to the first or last N lines of the current

              # section the rest of the edge is drawn like a parent line.

              parent = state['styles'][PARENT][-1:]

              def _drawgp(char, i):

                  # should a grandparent character be drawn for this line?

                  if len(char) < 2:

                      return True

                  num = int(char[:-1])

                  # either skip first num lines or take last num lines, based on sign

                  return -num <= i if num < 0 else (len(lines) - i) <= num

              for i, line in enumerate(lines):

                  line[:] = [c[-1:] if _drawgp(c, i) else parent for c in line]

              edgemap.update(

                  (e, (c if len(c) < 2 else parent)) for e, c in edgemap.items())

          # print lines

          indentation_level = max(ncols, ncols + coldiff)

          lines = ["%-*s " % (2 * indentation_level, "".join(line)) for line in lines]

          outputgraph(ui, zip(lines, text))

          # ... and start over

          state['lastcoldiff'] = coldiff

          state['lastindex'] = idx

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				# Revision graph generator for Mercurial
				#
				# Copyright 2008 Dirkjan Ochtman <dirkjan@ochtman.nl>
				# Copyright 2007 Joel Rosdahl <joel@rosdahl.net>
				#
				# This software may be used and distributed according to the terms of the
				# GNU General Public License version 2 or any later version.

				"""supports walking the history as DAGs suitable for graphical output

				The most basic format we use is that of::

				(id, type, data, [parentids])

				The node and parent ids are arbitrary integers which identify a node in the
				context of the graph returned. Type is a constant specifying the node type.
				Data depends on type.
				"""

				from __future__ import absolute_import

				from .node import nullrev
				from . import (
				dagop,
				pycompat,
				smartset,
				util,
				)

				CHANGESET = 'C'
				PARENT = 'P'
				GRANDPARENT = 'G'
				MISSINGPARENT = 'M'
				# Style of line to draw. None signals a line that ends and is removed at this
				# point. A number prefix means only the last N characters of the current block
				# will use that style, the rest will use the PARENT style. Add a - sign
				# (so making N negative) and all but the first N characters use that style.
				EDGES = {PARENT: '\|', GRANDPARENT: ':', MISSINGPARENT: None}

				def dagwalker(repo, revs):
				"""cset DAG generator yielding (id, CHANGESET, ctx, [parentinfo]) tuples

				This generator function walks through revisions (which should be ordered
				from bigger to lower). It returns a tuple for each node.

				Each parentinfo entry is a tuple with (edgetype, parentid), where edgetype
				is one of PARENT, GRANDPARENT or MISSINGPARENT. The node and parent ids
				are arbitrary integers which identify a node in the context of the graph
				returned.

				"""
				gpcache = {}

				for rev in revs:
				ctx = repo[rev]
				# partition into parents in the rev set and missing parents, then
				# augment the lists with markers, to inform graph drawing code about
				# what kind of edge to draw between nodes.
				pset = set(p.rev() for p in ctx.parents() if p.rev() in revs)
				mpars = [p.rev() for p in ctx.parents()
				if p.rev() != nullrev and p.rev() not in pset]
				parents = [(PARENT, p) for p in sorted(pset)]

				for mpar in mpars:
				gp = gpcache.get(mpar)
				if gp is None:
				# precompute slow query as we know reachableroots() goes
				# through all revs (issue4782)
				if not isinstance(revs, smartset.baseset):
				revs = smartset.baseset(revs)
				gp = gpcache[mpar] = sorted(set(dagop.reachableroots(
				repo, revs, [mpar])))
				if not gp:
				parents.append((MISSINGPARENT, mpar))
				pset.add(mpar)
				else:
				parents.extend((GRANDPARENT, g) for g in gp if g not in pset)
				pset.update(gp)

				yield (ctx.rev(), CHANGESET, ctx, parents)

				def nodes(repo, nodes):
				"""cset DAG generator yielding (id, CHANGESET, ctx, [parentids]) tuples

				This generator function walks the given nodes. It only returns parents
				that are in nodes, too.
				"""
				include = set(nodes)
				for node in nodes:
				ctx = repo[node]
				parents = set((PARENT, p.rev()) for p in ctx.parents()
				if p.node() in include)
				yield (ctx.rev(), CHANGESET, ctx, sorted(parents))

				def colored(dag, repo):
				"""annotates a DAG with colored edge information

				For each DAG node this function emits tuples::

				(id, type, data, (col, color), [(col, nextcol, color)])

				with the following new elements:

				- Tuple (col, color) with column and color index for the current node
				- A list of tuples indicating the edges between the current node and its
				parents.
				"""
				seen = []
				colors = {}
				newcolor = 1
				config = {}

				for key, val in repo.ui.configitems('graph'):
				if '.' in key:
				branch, setting = key.rsplit('.', 1)
				# Validation
				if setting == "width" and val.isdigit():
				config.setdefault(branch, {})[setting] = int(val)
				elif setting == "color" and val.isalnum():
				config.setdefault(branch, {})[setting] = val

				if config:
				getconf = util.lrucachefunc(
				lambda rev: config.get(repo[rev].branch(), {}))
				else:
				getconf = lambda rev: {}

				for (cur, type, data, parents) in dag:

				# Compute seen and next
				if cur not in seen:
				seen.append(cur) # new head
				colors[cur] = newcolor
				newcolor += 1

				col = seen.index(cur)
				color = colors.pop(cur)
				next = seen[:]

				# Add parents to next
				addparents = [p for pt, p in parents if p not in next]
				next[col:col + 1] = addparents

				# Set colors for the parents
				for i, p in enumerate(addparents):
				if not i:
				colors[p] = color
				else:
				colors[p] = newcolor
				newcolor += 1

				# Add edges to the graph
				edges = []
				for ecol, eid in enumerate(seen):
				if eid in next:
				bconf = getconf(eid)
				edges.append((
				ecol, next.index(eid), colors[eid],
				bconf.get('width', -1),
				bconf.get('color', '')))
				elif eid == cur:
				for ptype, p in parents:
				bconf = getconf(p)
				edges.append((
				ecol, next.index(p), color,
				bconf.get('width', -1),
				bconf.get('color', '')))

				# Yield and move on
				yield (cur, type, data, (col, color), edges)
				seen = next

				def asciiedges(type, char, state, rev, parents):
				"""adds edge info to changelog DAG walk suitable for ascii()"""
				seen = state['seen']
				if rev not in seen:
				seen.append(rev)
				nodeidx = seen.index(rev)

				knownparents = []
				newparents = []
				for ptype, parent in parents:
				if parent == rev:
				# self reference (should only be seen in null rev)
				continue
				if parent in seen:
				knownparents.append(parent)
				else:
				newparents.append(parent)
				state['edges'][parent] = state['styles'].get(ptype, '\|')

				ncols = len(seen)
				width = 1 + ncols * 2
				nextseen = seen[:]
				nextseen[nodeidx:nodeidx + 1] = newparents
				edges = [(nodeidx, nextseen.index(p)) for p in knownparents]

				seen[:] = nextseen
				while len(newparents) > 2:
				# ascii() only knows how to add or remove a single column between two
				# calls. Nodes with more than two parents break this constraint so we
				# introduce intermediate expansion lines to grow the active node list
				# slowly.
				edges.append((nodeidx, nodeidx))
				edges.append((nodeidx, nodeidx + 1))
				nmorecols = 1
				width += 2
				yield (type, char, width, (nodeidx, edges, ncols, nmorecols))
				char = '\\'
				nodeidx += 1
				ncols += 1
				edges = []
				del newparents[0]

				if len(newparents) > 0:
				edges.append((nodeidx, nodeidx))
				if len(newparents) > 1:
				edges.append((nodeidx, nodeidx + 1))
				nmorecols = len(nextseen) - ncols
				if nmorecols > 0:
				width += 2
				# remove current node from edge characters, no longer needed
				state['edges'].pop(rev, None)
				yield (type, char, width, (nodeidx, edges, ncols, nmorecols))

				def _fixlongrightedges(edges):
				for (i, (start, end)) in enumerate(edges):
				if end > start:
				edges[i] = (start, end + 1)

				def _getnodelineedgestail(
				echars, idx, pidx, ncols, coldiff, pdiff, fix_tail):
				if fix_tail and coldiff == pdiff and coldiff != 0:
				# Still going in the same non-vertical direction.
				if coldiff == -1:
				start = max(idx + 1, pidx)
				tail = echars[idx * 2:(start - 1) * 2]
				tail.extend(["/", " "] * (ncols - start))
				return tail
				else:
				return ["\\", " "] * (ncols - idx - 1)
				else:
				remainder = (ncols - idx - 1)
				return echars[-(remainder * 2):] if remainder > 0 else []

				def _drawedges(echars, edges, nodeline, interline):
				for (start, end) in edges:
				if start == end + 1:
				interline[2 * end + 1] = "/"
				elif start == end - 1:
				interline[2 * start + 1] = "\\"
				elif start == end:
				interline[2 * start] = echars[2 * start]
				else:
				if 2 * end >= len(nodeline):
				continue
				nodeline[2 * end] = "+"
				if start > end:
				(start, end) = (end, start)
				for i in range(2 * start + 1, 2 * end):
				if nodeline[i] != "+":
				nodeline[i] = "-"

				def _getpaddingline(echars, idx, ncols, edges):
				# all edges up to the current node
				line = echars[:idx * 2]
				# an edge for the current node, if there is one
				if (idx, idx - 1) in edges or (idx, idx) in edges:
				# (idx, idx - 1) (idx, idx)
				# \| \| \| \| \| \| \| \|
				# +---o \| \| o---+
				# \| \| X \| \| X \| \|
				# \| \|/ / \| \|/ /
				# \| \| \| \| \| \|
				line.extend(echars[idx * 2:(idx + 1) * 2])
				else:
				line.extend([' ', ' '])
				# all edges to the right of the current node
				remainder = ncols - idx - 1
				if remainder > 0:
				line.extend(echars[-(remainder * 2):])
				return line

				def _drawendinglines(lines, extra, edgemap, seen):
				"""Draw ending lines for missing parent edges

				None indicates an edge that ends at between this node and the next
				Replace with a short line ending in ~ and add / lines to any edges to
				the right.

				"""
				if None not in edgemap.values():
				return

				# Check for more edges to the right of our ending edges.
				# We need enough space to draw adjustment lines for these.
				edgechars = extra[::2]
				while edgechars and edgechars[-1] is None:
				edgechars.pop()
				shift_size = max((edgechars.count(None) * 2) - 1, 0)
				while len(lines) < 3 + shift_size:
				lines.append(extra[:])

				if shift_size:
				empties = []
				toshift = []
				first_empty = extra.index(None)
				for i, c in enumerate(extra[first_empty::2], first_empty // 2):
				if c is None:
				empties.append(i * 2)
				else:
				toshift.append(i * 2)
				targets = list(range(first_empty, first_empty + len(toshift) * 2, 2))
				positions = toshift[:]
				for line in lines[-shift_size:]:
				line[first_empty:] = [' '] * (len(line) - first_empty)
				for i in range(len(positions)):
				pos = positions[i] - 1
				positions[i] = max(pos, targets[i])
				line[pos] = '/' if pos > targets[i] else extra[toshift[i]]

				map = {1: '\|', 2: '~'}
				for i, line in enumerate(lines):
				if None not in line:
				continue
				line[:] = [c or map.get(i, ' ') for c in line]

				# remove edges that ended
				remove = [p for p, c in edgemap.items() if c is None]
				for parent in remove:
				del edgemap[parent]
				seen.remove(parent)

				def asciistate():
				"""returns the initial value for the "state" argument to ascii()"""
				return {
				'seen': [],
				'edges': {},
				'lastcoldiff': 0,
				'lastindex': 0,
				'styles': EDGES.copy(),
				'graphshorten': False,
				}

				def outputgraph(ui, graph):
				"""outputs an ASCII graph of a DAG

				this is a helper function for 'ascii' below.

				takes the following arguments:

				- ui to write to
				- graph data: list of { graph nodes/edges, text }

				this function can be monkey-patched by extensions to alter graph display
				without needing to mimic all of the edge-fixup logic in ascii()
				"""
				for (ln, logstr) in graph:
				ui.write((ln + logstr).rstrip() + "\n")

				def ascii(ui, state, type, char, text, coldata):
				"""prints an ASCII graph of the DAG

				takes the following arguments (one call per node in the graph):

				- ui to write to
				- Somewhere to keep the needed state in (init to asciistate())
				- Column of the current node in the set of ongoing edges.
				- Type indicator of node data, usually 'C' for changesets.
				- Payload: (char, lines):
				- Character to use as node's symbol.
				- List of lines to display as the node's text.
				- Edges; a list of (col, next_col) indicating the edges between
				the current node and its parents.
				- Number of columns (ongoing edges) in the current revision.
				- The difference between the number of columns (ongoing edges)
				in the next revision and the number of columns (ongoing edges)
				in the current revision. That is: -1 means one column removed;
				0 means no columns added or removed; 1 means one column added.
				"""
				idx, edges, ncols, coldiff = coldata
				assert -2 < coldiff < 2

				edgemap, seen = state['edges'], state['seen']
				# Be tolerant of history issues; make sure we have at least ncols + coldiff
				# elements to work with. See test-glog.t for broken history test cases.
				echars = [c for p in seen for c in (edgemap.get(p, '\|'), ' ')]
				echars.extend(('\|', ' ') * max(ncols + coldiff - len(seen), 0))

				if coldiff == -1:
				# Transform
				#
				# \| \| \| \| \| \|
				# o \| \| into o---+
				# \|X / \|/ /
				# \| \| \| \|
				_fixlongrightedges(edges)

				# add_padding_line says whether to rewrite
				#
				# \| \| \| \| \| \| \| \|
				# \| o---+ into \| o---+
				# \| / / \| \| \| # <--- padding line
				# o \| \| \| / /
				# o \| \|
				add_padding_line = (len(text) > 2 and coldiff == -1 and
				[x for (x, y) in edges if x + 1 < y])

				# fix_nodeline_tail says whether to rewrite
				#
				# \| \| o \| \| \| \| o \| \|
				# \| \| \|/ / \| \| \|/ /
				# \| o \| \| into \| o / / # <--- fixed nodeline tail
				# \| \|/ / \| \|/ /
				# o \| \| o \| \|
				fix_nodeline_tail = len(text) <= 2 and not add_padding_line

				# nodeline is the line containing the node character (typically o)
				nodeline = echars[:idx * 2]
				nodeline.extend([char, " "])

				nodeline.extend(
				_getnodelineedgestail(
				echars, idx, state['lastindex'], ncols, coldiff,
				state['lastcoldiff'], fix_nodeline_tail))

				# shift_interline is the line containing the non-vertical
				# edges between this entry and the next
				shift_interline = echars[:idx * 2]
				for i in pycompat.xrange(2 + coldiff):
				shift_interline.append(' ')
				count = ncols - idx - 1
				if coldiff == -1:
				for i in pycompat.xrange(count):
				shift_interline.extend(['/', ' '])
				elif coldiff == 0:
				shift_interline.extend(echars[(idx + 1) * 2:ncols * 2])
				else:
				for i in pycompat.xrange(count):
				shift_interline.extend(['\\', ' '])

				# draw edges from the current node to its parents
				_drawedges(echars, edges, nodeline, shift_interline)

				# lines is the list of all graph lines to print
				lines = [nodeline]
				if add_padding_line:
				lines.append(_getpaddingline(echars, idx, ncols, edges))

				# If 'graphshorten' config, only draw shift_interline
				# when there is any non vertical flow in graph.
				if state['graphshorten']:
				if any(c in '\/' for c in shift_interline if c):
				lines.append(shift_interline)
				# Else, no 'graphshorten' config so draw shift_interline.
				else:
				lines.append(shift_interline)

				# make sure that there are as many graph lines as there are
				# log strings
				extra_interline = echars[:(ncols + coldiff) * 2]
				if len(lines) < len(text):
				while len(lines) < len(text):
				lines.append(extra_interline[:])

				_drawendinglines(lines, extra_interline, edgemap, seen)

				while len(text) < len(lines):
				text.append("")

				if any(len(char) > 1 for char in edgemap.values()):
				# limit drawing an edge to the first or last N lines of the current
				# section the rest of the edge is drawn like a parent line.
				parent = state['styles'][PARENT][-1:]
				def _drawgp(char, i):
				# should a grandparent character be drawn for this line?
				if len(char) < 2:
				return True
				num = int(char[:-1])
				# either skip first num lines or take last num lines, based on sign
				return -num <= i if num < 0 else (len(lines) - i) <= num
				for i, line in enumerate(lines):
				line[:] = [c[-1:] if _drawgp(c, i) else parent for c in line]
				edgemap.update(
				(e, (c if len(c) < 2 else parent)) for e, c in edgemap.items())

				# print lines
				indentation_level = max(ncols, ncols + coldiff)
				lines = ["%-s " % (2 indentation_level, "".join(line)) for line in lines]
				outputgraph(ui, zip(lines, text))

				# ... and start over
				state['lastcoldiff'] = coldiff
				state['lastindex'] = idx