/b-gtk/fix-viz : revision 49

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Committer: Jelmer Vernooij
Date: 2006-05-19 16:56:46 UTC
mfrom: (0.1.25 gannotate)
Revision ID: jelmer@samba.org-20060519165646-0d867938fdbc9097

Merge in Dan Loda's gannotate plugin and put it in annotate/

files added:
__init__.py

annotate

annotate/__init__.py

annotate/colormap.py

annotate/config.py

annotate/gannotate.py

annotate/logview.py

annotate/spanselector.py

setup.py

files removed:
setup.py

files renamed:
__init__.py => viz/__init__.py

branchwin.py => viz/branchwin.py

bzrkapp.py => viz/bzrkapp.py

diffwin.py => viz/diffwin.py

graph.py => viz/graph.py

graphcell.py => viz/graphcell.py

files modified:
AUTHORS

README

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added added

removed removed

viz/graph.py

__author__ = "Scott James Remnant <scott@ubuntu.com>"

from bzrlib.errors import NoSuchRevision

from bzrlib.tsort import merge_sort

class DummyRevision(object):

self.message = self.revision_id

class RevisionProxy(object):

"""A revision proxy object.

This will demand load the revision it represents when the committer or

message attributes are accessed in order to populate them. It is

constructed with the revision id and parent_ids list and a repository

object to request the revision from when needed.

"""

def __init__(self, revid, parent_ids, repository):

self.revision_id = revid

self.parent_ids = parent_ids

self._repository = repository

self._revision = None

def _get_attribute_getter(attr):

def get_attribute(self):

if self._revision is None:

self._load()

return getattr(self._revision, attr)

return get_attribute

committer = property(_get_attribute_getter('committer'))

message = property(_get_attribute_getter('message'))

properties = property(_get_attribute_getter('properties'))

timestamp = property(_get_attribute_getter('timestamp'))

timezone = property(_get_attribute_getter('timezone'))

def _load(self):

"""Load the revision object."""

self._revision = self._repository.get_revision(self.revision_id)

class DistanceMethod(object):

def __init__(self, branch, start):

self.branch = branch

self.start = start

self.revisions = {}

self.children = {}

self.children_of_id = {start: set()}

self.parent_ids_of = {}

self.colours = { start: 0 }

self.last_colour = 0

self.direct_parent_of = {}

self.graph = {}

def fill_caches(self):

# FIXME: look at using repository.get_revision_graph_with_ghosts - RBC.

graph = self.branch.repository.get_revision_graph_with_ghosts([self.start])

for revid in graph.ghosts:

self.cache_revision(DummyRevision(revid))

for revid, parents in graph.get_ancestors().items():

self.cache_revision(RevisionProxy(revid, parents, self.branch.repository))

def cache_revision(self, revision):

"Set the caches for a newly retrieved revision."""

revid = revision.revision_id

# Build a revision cache

self.revisions[revid] = revision

# Build a children dictionary

for parent_id in revision.parent_ids:

self.children_of_id.setdefault(parent_id, set()).add(revision)

# Build a parents dictionnary, where redundant parents will be removed,

# and that will be passed along tothe rest of program.

if len(revision.parent_ids) != len(set(revision.parent_ids)):

# fix the parent_ids list.

parent_ids = []

100

parent_ids_set = set()

101

for parent_id in revision.parent_ids:

102

if parent_id in parent_ids_set:

103

continue

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parent_ids.append(parent_id)

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parent_ids_set.add(parent_id)

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revision.parent_ids = parent_ids

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self.parent_ids_of[revision] = list(revision.parent_ids)

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self.graph[revid] = revision.parent_ids

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def make_children_map(self):

111

revisions = self.revisions

112

return dict((revisions[revid], c)

113

for (revid, c) in self.children_of_id.iteritems())

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115

def sort_revisions(self, sorted_revids, maxnum):

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revisions = self.revisions

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parent_ids_of = self.parent_ids_of

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children_of_id = self.children_of_id

119

# Try to compact sequences of revisions on the same branch.

120

distances = {}

121

skipped_revids = []

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expected_id = sorted_revids[0]

123

pending_ids = []

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while True:

125

revid = sorted_revids.pop(0)

126

if revid != expected_id:

127

skipped_revids.append(revid)

128

continue

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revision = revisions[revid]

130

for child in children_of_id[revid]:

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# postpone if any child is missing

132

if child.revision_id not in distances:

133

if expected_id not in pending_ids:

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pending_ids.append(expected_id)

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expected_id = pending_ids.pop(0)

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skipped_revids.append(revid)

137

sorted_revids[:0] = skipped_revids

138

del skipped_revids[:]

139

break

140

else:

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# all children are here, push!

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distances[revid] = len(distances)

143

if maxnum is not None and len(distances) > maxnum:

144

# bail out early if a limit was specified

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sorted_revids[:0] = skipped_revids

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for revid in sorted_revids:

147

distances[revid] = len(distances)

148

break

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# all parents will need to be pushed as soon as possible

150

for parent in parent_ids_of[revision]:

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if parent not in pending_ids:

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pending_ids.insert(0, parent)

153

if not pending_ids:

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break

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expected_id = pending_ids.pop(0)

156

# if the next expected revid has already been skipped, requeue

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# the skipped ids, except those that would go right back to the

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# skipped list.

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if expected_id in skipped_revids:

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pos = skipped_revids.index(expected_id)

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sorted_revids[:0] = skipped_revids[pos:]

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del skipped_revids[pos:]

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self.distances = distances

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return sorted(distances, key=distances.get)

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166

def choose_colour(self, revid):

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revision = self.revisions[revid]

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children_of_id = self.children_of_id

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parent_ids_of = self.parent_ids_of

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colours = self.colours

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# choose colour

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the_children = children_of_id[revid]

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if len(the_children) == 1:

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[child] = the_children

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if len(parent_ids_of[child]) == 1:

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# one-one relationship between parent and child, same

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# colour

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colours[revid] = colours[child.revision_id]

179

else:

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self.choose_colour_one_child(revision, child)

181

else:

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self.choose_colour_many_children(revision, the_children)

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def choose_colour_one_child(self, revision, child):

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revid = revision.revision_id

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direct_parent_of = self.direct_parent_of

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revisions = self.revisions

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# one child with multiple parents, the first parent with

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# the same committer gets the colour

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direct_parent = direct_parent_of.get(child)

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if direct_parent is None:

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# if it has not been found yet, find it now and remember

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for parent_id in self.parent_ids_of[child]:

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parent_revision = revisions[parent_id]

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if parent_revision.committer == child.committer:

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# found the first parent with the same committer

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direct_parent = parent_revision

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direct_parent_of[child] = direct_parent

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break

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if direct_parent == revision:

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self.colours[revid] = self.colours[child.revision_id]

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else:

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self.colours[revid] = self.last_colour = self.last_colour + 1

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def choose_colour_many_children(self, revision, the_children):

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"""Colour revision revision."""

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revid = revision.revision_id

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direct_parent_of = self.direct_parent_of

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# multiple children, get the colour of the last displayed child

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# with the same committer which does not already have its colour

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# taken

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available = {}

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for child in the_children:

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if child.committer != revision.committer:

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continue

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direct_parent = direct_parent_of.get(child)

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if direct_parent == revision:

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self.colours[revid] = self.colours[child.revision_id]

219

break

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# FIXME: Colouring based on whats been displayed MUST be done with

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# knowledge of the revisions being output.

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# until the refactoring to fold graph() into this more compactly is

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# done, I've disabled this reuse. RBC 20060403

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# if direct_parent is None:

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# available[child] = distances[child.revision_id]

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# .. it will be something like available[child] = \

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# revs[child.revision_id][0] - which is the sequence number

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else:

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if available:

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sorted_children = sorted(available, key=available.get)

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child = sorted_children[-1]

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direct_parent_of[child] = revision

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self.colours[revid] = self.colours[child.revision_id]

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else:

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# no candidate children is available, pick the next

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# colour

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self.colours[revid] = self.last_colour = self.last_colour + 1

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def distances(branch, start):

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"""Sort the revisions.

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Returns a tuple of (revids, revisions, colours, children)

248

"""

revisions = { start: branch.get_revision(start) }

children = { revisions[start]: set() }

distances = { start: 0 }

colours = { start: 0 }

last_colour = 0

# Sort the revisions; the fastest way to do this is to visit each node

# as few times as possible (by keeping the todo list in a set) and record

# the largest distance to it before queuing up the children if we

# increased the distance. This produces the sort order we desire

todo = set([ start ])

while todo:

revid = todo.pop()

revision = revisions[revid]

distance = distances[revid] + 1

colour = colours[revid]

found_same = False

for parent_id in revision.parent_ids:

# Check whether there's any point re-processing this

if parent_id in distances and distances[parent_id] >= distance:

continue

# Get the parent from the cache, or put it in the cache

try:

parent = revisions[parent_id]

children[parent].add(revision)

except KeyError:

try:

parent = revisions[parent_id] \

= branch.get_revision(parent_id)

except NoSuchRevision:

parent = revisions[parent_id] = DummyRevision(parent_id)

children[parent] = set([ revision ])

# Penalise revisions a little at a fork if we think they're on

# the same branch -- this makes the few few (at least) revisions

# of a branch appear straight after the fork

if not found_same and same_branch(revision, parent):

found_same = True

colours[parent_id] = colour

if len(revision.parent_ids) > 1:

distances[parent_id] = distance + 10

else:

distances[parent_id] = distance

else:

colours[parent_id] = last_colour = last_colour + 1

distances[parent_id] = distance

todo.add(parent_id)

return ( sorted(distances, key=distances.get), revisions, colours,

children )

def graph(revids, revisions, colours):

249

distance = DistanceMethod(branch, start)

250

distance.fill_caches()

251

distance.merge_sorted = merge_sort(distance.graph, distance.start)

252

children = distance.make_children_map()

253

254

for seq, revid, merge_depth, end_of_merge in distance.merge_sorted:

255

distance.choose_colour(revid)

256

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revisions = distance.revisions

258

colours = distance.colours

259

parent_ids_of = distance.parent_ids_of

260

return (revisions, colours, children, parent_ids_of, distance.merge_sorted)

261

262

263

def graph(revisions, colours, merge_sorted):

264

"""Produce a directed graph of a bzr branch.

265

100

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For each revision it then yields a tuple of (revision, node, lines).

116

282

It's up to you how to actually draw the nodes and lines (straight,

117

283

curved, kinked, etc.) and to pick the actual colours for each index.

118

284

"""

119

hanging = revids[:1]

120

for revid in revids:

285

if not len(merge_sorted):

286

return

287

# split merge_sorted into a map:

288

revs = {}

289

# FIXME: get a hint on this from the merge_sorted data rather than

290

# calculating it ourselves

291

# mapping from rev_id to the sequence number of the next lowest rev

292

next_lower_rev = {}

293

# mapping from rev_id to next-in-branch-revid - may be None for end

294

# of branch

295

next_branch_revid = {}

296

# the stack we are in in the sorted data for determining which

297

# next_lower_rev to set. It is a stack which has one list at each

298

# depth - the ids at that depth that need the same id allocated.

299

current_stack = [[]]

300

for seq, revid, indent, end_merge in merge_sorted:

301

revs[revid] = (seq, indent, end_merge)

302

if indent == len(current_stack):

303

# new merge group starts

304

current_stack.append([revid])

305

elif indent == len(current_stack) - 1:

306

# part of the current merge group

307

current_stack[-1].append(revid)

308

else:

309

# end of a merge group

310

while current_stack[-1]:

311

stack_rev_id = current_stack[-1].pop()

312

# record the next lower rev for this rev:

313

next_lower_rev[stack_rev_id] = seq

314

# if this followed a non-end-merge rev in this group note that

315

if len(current_stack[-1]):

316

if not revs[current_stack[-1][-1]][2]:

317

next_branch_revid[current_stack[-1][-1]] = stack_rev_id

318

current_stack.pop()

319

# append to the now-current merge group

320

current_stack[-1].append(revid)

321

# assign a value to all the depth 0 revisions

322

while current_stack[-1]:

323

stack_rev_id = current_stack[-1].pop()

324

# record the next lower rev for this rev:

325

next_lower_rev[stack_rev_id] = len(merge_sorted)

326

# if this followed a non-end-merge rev in this group note that

327

if len(current_stack[-1]):

328

if not revs[current_stack[-1][-1]][2]:

329

next_branch_revid[current_stack[-1][-1]] = stack_rev_id

330

331

# a list of the current revisions we are drawing lines TO indicating

332

# the sequence of their lines on the screen.

333

# i.e. [A, B, C] means that the line to A, to B, and to C are in

334

# (respectively), 0, 1, 2 on the screen.

335

hanging = [merge_sorted[0][1]]

336

for seq, revid, indent, end_merge in merge_sorted:

337

# a list of the lines to draw: their position in the

338

# previous row, their position in this row, and the colour

339

# (which is the colour they are routing to).

121

340

lines = []

122

node = None

123

341

124

342

new_hanging = []

343

125

344

for h_idx, hang in enumerate(hanging):

345

# one of these will be the current lines node:

346

# we are drawing a line. h_idx

126

347

if hang == revid:

127

# We've matched a hanging revision, so need to output a node

128

# at this point

348

# we have found the current lines node

129

349

node = (h_idx, colours[revid])

130

350

351

# note that we might have done the main parent

352

drawn_parents = set()

353

354

def draw_line(from_idx, to_idx, revision_id):

355

try:

356

n_idx = new_hanging.index(revision_id)

357

except ValueError:

358

# force this to be vertical at the place this rev was

359

# drawn.

360

new_hanging.insert(to_idx, revision_id)

361

n_idx = to_idx

362

lines.append((from_idx, n_idx, colours[revision_id]))

363

364

365

# we want to draw a line to the next commit on 'this' branch

366

if not end_merge:

367

# drop this line first.

368

parent_id = next_branch_revid[revid]

369

draw_line(h_idx, h_idx, parent_id)

370

# we have drawn this parent

371

drawn_parents.add(parent_id)

372

else:

373

# this is the last revision in a 'merge', show where it came from

374

if len(revisions[revid].parent_ids) > 1:

375

# having > 1

376

# parents means this commit was a merge, and being

377

# the end point of a merge group means that all

378

# the parent revisions were merged into branches

379

# to the left of this before this was committed

380

# - so we want to show this as a new branch from

381

# those revisions.

382

# to do this, we show the parent with the lowest

383

# sequence number, which is the one that this

384

# branch 'spawned from', and no others.

385

# If this sounds like a problem, remember that:

386

# if the parent was not already in our mainline

387

# it would show up as a merge into this making

388

# this not the end of a merge-line.

389

lowest = len(merge_sorted)

390

for parent_id in revisions[revid].parent_ids:

391

if revs[parent_id][0] < lowest:

392

lowest = revs[parent_id][0]

393

assert lowest != len(merge_sorted)

394

draw_line(h_idx, len(new_hanging), merge_sorted[lowest][1])

395

drawn_parents.add(merge_sorted[lowest][1])

396

elif len(revisions[revid].parent_ids) == 1:

397

# only one parent, must show this link to be useful.

398

parent_id = revisions[revid].parent_ids[0]

399

draw_line(h_idx, len(new_hanging), parent_id)

400

drawn_parents.add(parent_id)

401

402

# what do we want to draw lines to from here:

403

# each parent IF its relevant.

404

131

405

# Now we need to hang its parents, we put them at the point

132

406

# the old column was so anything to the right of this has

133

407

# to move outwards to make room. We also try and collapse

134

408

# hangs to keep the graph small.

409

# RBC: we do not draw lines to parents that were already merged

410

# unless its the last revision in a merge group.

135

411

for parent_id in revisions[revid].parent_ids:

136

try:

137

n_idx = new_hanging.index(parent_id)

138

except ValueError:

139

n_idx = len(new_hanging)

140

new_hanging.append(parent_id)

141

lines.append((h_idx, n_idx, colours[parent_id]))

412

if parent_id in drawn_parents:

413

continue

414

parent_seq = revs[parent_id][0]

415

parent_depth = revs[parent_id][1]

416

if parent_depth == indent + 1:

417

# The parent was a merge into this branch determine if

418

# it was already merged into the mainline via a

419

# different merge: if all revisions between us and

420

# parent_seq have a indent greater than there are no

421

# revisions with a lower indent than us.

422

# We do not use 'parent_depth < indent' because that

423

# would allow un-uniqueified merges to show up, and

424

# merge_sorted should take care of that for us (but

425

# does not trim the values)

426

if parent_seq < next_lower_rev[revid]:

427

draw_line(h_idx, len(new_hanging), parent_id)

428

elif parent_depth == indent and parent_seq == seq + 1:

429

# part of this branch

430

draw_line(h_idx, len(new_hanging), parent_id)

142

431

else:

143

# Revision keeps on hanging, adjust for any change in the

144

# graph shape and try to collapse hangs to keep the graph

145

# small.

146

try:

147

n_idx = new_hanging.index(hang)

148

except ValueError:

149

n_idx = len(new_hanging)

150

new_hanging.append(hang)

151

lines.append((h_idx, n_idx, colours[hang]))

432

# draw a line from the previous position of this line to the

433

# new position.

434

# h_idx is the old position.

435

# new_indent is the new position.

436

draw_line(h_idx, len(new_hanging), hang)

437

# we've calculated the row, assign new_hanging to hanging to setup for

438

# the next row

152

439

hanging = new_hanging

153

440

154

441

yield (revisions[revid], node, lines)

155

442

443

156

444

def same_branch(a, b):

157

445

"""Return whether we think revisions a and b are on the same branch."""

158

446

if len(a.parent_ids) == 1:

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