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- Committer: Jelmer Vernooij
- Date: 2007-05-19 09:58:19 UTC
- Revision ID: jelmer@samba.org-20070519095819-d1khttifjfcoqa2f
Fix some warnings when displaying ghost revisions. Reported by John.
- files added:
- tortoise-bzr.py
- files removed:
- about.py
- branchview
- preferences
- files renamed:
- icons/bzr-icon-64.png => bzr-icon-64.png
- revisionview.py => logview.py
- icons/oliveicon2.png => oliveicon2.png
- preferences/__init__.py => preferences.py
- branchview/linegraph.py => viz/graph.py
- branchview/graphcell.py => viz/graphcell.py
- files modified:
- .bzrignore
added
removed
viz/graph.py
1
# -*- coding: UTF-8 -*-
2
"""Directed graph production.
3
4
This module contains the code to produce an ordered directed graph of a
5
bzr branch, such as we display in the tree view at the top of the bzrk
6
window.
7
"""
8
9
__copyright__ = "Copyright © 2005 Canonical Ltd."
10
__author__ = "Scott James Remnant <scott@ubuntu.com>"
11
12
from bzrlib.revision import NULL_REVISION
13
from bzrlib.tsort import merge_sort
14
15
def linegraph(repository, start_revs, maxnum, broken_line_length = None,
16
graph_data = True, mainline_only = False):
17
"""Produce a directed graph of a bzr repository.
18
19
Returns a tuple of (line_graph, revid_index, columns_len) where
20
* line_graph is a list of tuples of (revid,
21
node,
22
lines,
23
parents,
24
children,
25
revno_sequence),
26
* revid_index is a dict of each revision with the key being the revid, and
27
the value the row index, and
28
* columns_len is the number of columns need to draw the line graph.
29
30
31
Node is a tuple of (column, colour) with column being a zero-indexed
32
column number of the graph that this revision represents and colour
33
being a zero-indexed colour (which doesn't specify any actual colour
34
in particular) to draw the node in.
35
36
Lines is a list of tuples which represent lines you should draw away
37
from the revision, if you also need to draw lines into the revision
38
you should use the lines list from the previous iteration. Each
39
typle in the list is in the form (start, end, colour) with start and
40
end being zero-indexed column numbers and colour as in node.
41
42
It's up to you how to actually draw the nodes and lines (straight,
43
curved, kinked, etc.) and to pick the actual colours for each index.
44
"""
45
46
graph = repository.get_graph()
47
graph_parents = {}
48
ghosts = set()
49
graph_children = {}
50
for (revid, parent_revids) in graph.iter_ancestry(start_revs):
51
if parent_revids is None:
52
ghosts.add(revid)
53
continue
54
if parent_revids == (NULL_REVISION,):
55
graph_parents[revid] = ()
56
else:
57
graph_parents[revid] = parent_revids
58
for parent in parent_revids:
59
graph_children.setdefault(parent, []).append(revid)
60
graph_children.setdefault(revid, [])
61
for ghost in ghosts:
62
for ghost_child in graph_children[ghost]:
63
graph_parents[ghost_child] = [p for p in graph_parents[ghost_child]
64
if p not in ghosts]
65
graph_parents["top:"] = start_revs
66
67
if len(graph_parents)>0:
68
merge_sorted_revisions = merge_sort(
69
graph_parents,
70
"top:",
71
generate_revno=True)
72
else:
73
merge_sorted_revisions = ()
74
75
if mainline_only:
76
merge_sorted_revisions = [elem for elem in merge_sorted_revisions \
77
if len(elem[3])==1 ]
78
79
assert merge_sorted_revisions[0][1] == "top:"
80
merge_sorted_revisions = merge_sorted_revisions[1:]
81
82
revid_index = {}
83
revno_index = {}
84
85
# This will hold an item for each "branch". For a revisions, the revsion
86
# number less the least significant digit is the branch_id, and used as the
87
# key for the dict. Hence revision with the same revsion number less the
88
# least significant digit are considered to be in the same branch line.
89
# e.g.: for revisions 290.12.1 and 290.12.2, the branch_id would be 290.12,
90
# and these two revisions will be in the same branch line. Each value is
91
# a list of rev_indexes in the branch.
92
branch_lines = {}
93
94
linegraph = []
95
96
for (rev_index, (sequence_number,
97
revid,
98
merge_depth,
99
revno_sequence,
100
end_of_merge)) in enumerate(merge_sorted_revisions):
101
if maxnum and rev_index >= maxnum:
102
break
103
revid_index[revid] = rev_index
104
105
parents = graph_parents[revid]
106
linegraph.append([revid,
107
None,
108
[],
109
parents,
110
None,
111
revno_sequence])
112
113
if graph_data:
114
revno_index[revno_sequence] = rev_index
115
116
branch_id = revno_sequence[0:-1]
117
118
branch_line = None
119
if branch_id not in branch_lines:
120
branch_line = []
121
branch_lines[branch_id] = branch_line
122
else:
123
branch_line = branch_lines[branch_id]
124
125
branch_line.append(rev_index)
126
127
if graph_data:
128
branch_ids = branch_lines.keys()
129
130
def branch_id_cmp(x, y):
131
"""Compaire branch_id's first by the number of digits, then reversed
132
by their value"""
133
len_x = len(x)
134
len_y = len(y)
135
if len_x == len_y:
136
return -cmp(x, y)
137
return cmp(len_x, len_y)
138
139
branch_ids.sort(branch_id_cmp)
140
# This will hold a tuple of (child_index, parent_index, col_index) for each
141
# line that needs to be drawn. If col_index is not none, then the line is
142
# drawn along that column, else the the line can be drawn directly between
143
# the child and parent because either the child and parent are in the same
144
# branch line, or the child and parent are 1 row apart.
145
lines = []
146
empty_column = [False for i in range(len(graph_parents))]
147
# This will hold a bit map for each cell. If the cell is true, then the
148
# cell allready contains a node or line. This use when deciding what column
149
# to place a branch line or line in, without it overlaping something else.
150
columns = [list(empty_column)]
151
152
153
for branch_id in branch_ids:
154
branch_line = branch_lines[branch_id]
155
156
# Find the col_index for the direct parent branch. This will be the
157
# starting point when looking for a free column.
158
parent_col_index = 0
159
parent_index = None
160
if len(branch_id) > 1:
161
parent_revno = branch_id[0:-1]
162
if parent_revno in revno_index:
163
parent_index = revno_index[parent_revno]
164
parent_node = linegraph[parent_index][1]
165
if parent_node:
166
parent_col_index = parent_node[0]
167
168
169
col_search_order = _branch_line_col_search_order(columns,
170
parent_col_index)
171
color = reduce(lambda x, y: x+y, branch_id, 0)
172
cur_cont_line = []
173
174
line_range = []
175
last_rev_index = None
176
for rev_index in branch_line:
177
if last_rev_index:
178
if broken_line_length and \
179
rev_index - last_rev_index > broken_line_length:
180
line_range.append(last_rev_index+1)
181
line_range.append(rev_index-1)
182
else:
183
line_range.extend(range(last_rev_index+1, rev_index))
184
185
line_range.append(rev_index)
186
last_rev_index = rev_index
187
188
if parent_index:
189
if broken_line_length and \
190
parent_index - last_rev_index > broken_line_length:
191
line_range.append(last_rev_index+1)
192
else:
193
line_range.extend(range(last_rev_index+1, parent_index))
194
195
col_index = _find_free_column(columns,
196
empty_column,
197
col_search_order,
198
line_range)
199
node = (col_index, color)
200
for rev_index in branch_line:
201
linegraph[rev_index][1] = node
202
columns[col_index][rev_index] = True
203
204
for rev_index in branch_line:
205
(sequence_number,
206
revid,
207
merge_depth,
208
revno_sequence,
209
end_of_merge) = merge_sorted_revisions[rev_index]
210
211
linegraph[rev_index][4] = graph_children[revid]
212
col_index = linegraph[rev_index][1][0]
213
214
for parent_revid in graph_parents[revid]:
215
if parent_revid in revid_index:
216
217
parent_index = revid_index[parent_revid]
218
parent_node = linegraph[parent_index][1]
219
if parent_node:
220
parent_col_index = parent_node[0]
221
else:
222
parent_col_index = None
223
col_search_order = \
224
_line_col_search_order(columns,
225
parent_col_index,
226
col_index)
227
228
# If this line is really long, break it.
229
if len(branch_id) > 0 and \
230
broken_line_length and \
231
parent_index - rev_index > broken_line_length:
232
child_line_col_index = \
233
_find_free_column(columns,
234
empty_column,
235
col_search_order,
236
(rev_index + 1,))
237
_mark_column_as_used(columns,
238
child_line_col_index,
239
(rev_index + 1,))
240
241
# Recall _line_col_search_order to reset it back to
242
# the beging.
243
col_search_order = \
244
_line_col_search_order(columns,
245
parent_col_index,
246
col_index)
247
parent_col_line_index = \
248
_find_free_column(columns,
249
empty_column,
250
col_search_order,
251
(parent_index - 1,))
252
_mark_column_as_used(columns,
253
parent_col_line_index,
254
(parent_index - 1,))
255
lines.append((rev_index,
256
parent_index,
257
(child_line_col_index,
258
parent_col_line_index)))
259
else :
260
line_col_index = col_index
261
if parent_index - rev_index >1:
262
line_range = range(rev_index + 1, parent_index)
263
line_col_index = \
264
_find_free_column(columns,
265
empty_column,
266
col_search_order,
267
line_range)
268
_mark_column_as_used(columns,
269
line_col_index,
270
line_range)
271
lines.append((rev_index,
272
parent_index,
273
(line_col_index,)))
274
275
for (child_index, parent_index, line_col_indexes) in lines:
276
(child_col_index, child_color) = linegraph[child_index][1]
277
(parent_col_index, parent_color) = linegraph[parent_index][1]
278
279
if len(line_col_indexes) == 1:
280
if parent_index - child_index == 1:
281
linegraph[child_index][2].append(
282
(child_col_index,
283
parent_col_index,
284
parent_color))
285
else:
286
# line from the child's column to the lines column
287
linegraph[child_index][2].append(
288
(child_col_index,
289
line_col_indexes[0],
290
parent_color))
291
# lines down the line's column
292
for line_part_index in range(child_index+1, parent_index-1):
293
linegraph[line_part_index][2].append(
294
(line_col_indexes[0],
295
line_col_indexes[0],
296
parent_color))
297
# line from the line's column to the parent's column
298
linegraph[parent_index-1][2].append(
299
(line_col_indexes[0],
300
parent_col_index,
301
parent_color))
302
else:
303
# Broken line
304
# line from the child's column to the lines column
305
linegraph[child_index][2].append(
306
(child_col_index,
307
line_col_indexes[0],
308
parent_color))
309
# Broken line end
310
linegraph[child_index+1][2].append(
311
(line_col_indexes[0],
312
None,
313
parent_color))
314
315
# Broken line end
316
linegraph[parent_index-2][2].append(
317
(None,
318
line_col_indexes[1],
319
parent_color))
320
# line from the line's column to the parent's column
321
linegraph[parent_index-1][2].append(
322
(line_col_indexes[1],
323
parent_col_index,
324
parent_color))
325
return (linegraph, revid_index, len(columns))
326
else:
327
return (linegraph, revid_index, 0)
328
329
330
def _branch_line_col_search_order(columns, parent_col_index):
331
for col_index in range(parent_col_index, len(columns)):
332
yield col_index
333
for col_index in range(parent_col_index-1, -1, -1):
334
yield col_index
335
336
def _line_col_search_order(columns, parent_col_index, child_col_index):
337
if parent_col_index is not None:
338
max_index = max(parent_col_index, child_col_index)
339
min_index = min(parent_col_index, child_col_index)
340
for col_index in range(max_index, min_index -1, -1):
341
yield col_index
342
else:
343
max_index = child_col_index
344
min_index = child_col_index
345
yield child_col_index
346
i = 1
347
while max_index + i < len(columns) or \
348
min_index - i > -1:
349
if max_index + i < len(columns):
350
yield max_index + i
351
if min_index - i > -1:
352
yield min_index - i
353
i += 1
354
355
def _find_free_column(columns, empty_column, col_search_order, line_range):
356
for col_index in col_search_order:
357
column = columns[col_index]
358
has_overlaping_line = False
359
for row_index in line_range:
360
if column[row_index]:
361
has_overlaping_line = True
362
break
363
if not has_overlaping_line:
364
break
365
else:
366
col_index = len(columns)
367
column = list(empty_column)
368
columns.append(column)
369
return col_index
370
371
def _mark_column_as_used(columns, col_index, line_range):
372
column = columns[col_index]
373
for row_index in line_range:
374
column[row_index] = True
375
376
def same_branch(a, b):
377
"""Return whether we think revisions a and b are on the same branch."""
378
if len(a.parent_ids) == 1:
379
# Defacto same branch if only parent
380
return True
381
elif a.committer == b.committer:
382
# Same committer so may as well be
383
return True
384
else:
385
return False
1
# -*- coding: UTF-8 -*-
2
"""Directed graph production.
3
4
This module contains the code to produce an ordered directed graph of a
5
bzr branch, such as we display in the tree view at the top of the bzrk
6
window.
7
"""
8
9
__copyright__ = "Copyright © 2005 Canonical Ltd."
10
__author__ = "Scott James Remnant <scott@ubuntu.com>"
11
12
13
from bzrlib.tsort import merge_sort
14
15
16
class DummyRevision(object):
17
"""Dummy bzr revision.
18
19
Sometimes, especially in older bzr branches, a revision is referenced
20
as the parent of another but not actually present in the branch's store.
21
When this happens we use an instance of this class instead of the real
22
Revision object (which we can't get).
23
"""
24
25
def __init__(self, revid):
26
self.revision_id = revid
27
self.parent_ids = []
28
self.committer = None
29
self.timestamp = None
30
self.timezone = None
31
self.message = self.revision_id
32
self.properties = {}
33
34
35
class RevisionProxy(object):
36
"""A revision proxy object.
37
38
This will demand load the revision it represents when the committer or
39
message attributes are accessed in order to populate them. It is
40
constructed with the revision id and parent_ids list and a repository
41
object to request the revision from when needed.
42
"""
43
44
def __init__(self, revid, parent_ids, repository):
45
self.revision_id = revid
46
self.parent_ids = parent_ids
47
self._repository = repository
48
self._revision = None
49
50
def _get_attribute_getter(attr):
51
def get_attribute(self):
52
if self._revision is None:
53
self._load()
54
return getattr(self._revision, attr)
55
return get_attribute
56
committer = property(_get_attribute_getter('committer'))
57
message = property(_get_attribute_getter('message'))
58
properties = property(_get_attribute_getter('properties'))
59
timestamp = property(_get_attribute_getter('timestamp'))
60
timezone = property(_get_attribute_getter('timezone'))
61
62
def _load(self):
63
"""Load the revision object."""
64
self._revision = self._repository.get_revision(self.revision_id)
65
66
67
class DistanceMethod(object):
68
69
def __init__(self, branch, start):
70
self.branch = branch
71
self.start = start
72
self.revisions = {}
73
self.children = {}
74
self.children_of_id = {start: set()}
75
self.parent_ids_of = {}
76
self.colours = { start: 0 }
77
self.last_colour = 0
78
self.direct_parent_of = {}
79
self.graph = {}
80
81
def fill_caches(self):
82
graph = self.branch.repository.get_revision_graph_with_ghosts([self.start])
83
for revid in graph.ghosts:
84
self.cache_revision(DummyRevision(revid))
85
for revid, parents in graph.get_ancestors().items():
86
self.cache_revision(RevisionProxy(revid, parents, self.branch.repository))
87
88
def cache_revision(self, revision):
89
"Set the caches for a newly retrieved revision."""
90
revid = revision.revision_id
91
# Build a revision cache
92
self.revisions[revid] = revision
93
# Build a children dictionary
94
for parent_id in revision.parent_ids:
95
self.children_of_id.setdefault(parent_id, set()).add(revision)
96
# Build a parents dictionnary, where redundant parents will be removed,
97
# and that will be passed along tothe rest of program.
98
if len(revision.parent_ids) != len(set(revision.parent_ids)):
99
# fix the parent_ids list.
100
parent_ids = []
101
parent_ids_set = set()
102
for parent_id in revision.parent_ids:
103
if parent_id in parent_ids_set:
104
continue
105
parent_ids.append(parent_id)
106
parent_ids_set.add(parent_id)
107
revision.parent_ids = parent_ids
108
self.parent_ids_of[revision] = list(revision.parent_ids)
109
self.graph[revid] = revision.parent_ids
110
111
def make_children_map(self):
112
revisions = self.revisions
113
return dict((revisions[revid], c)
114
for (revid, c) in self.children_of_id.iteritems())
115
116
def sort_revisions(self, sorted_revids, maxnum):
117
revisions = self.revisions
118
parent_ids_of = self.parent_ids_of
119
children_of_id = self.children_of_id
120
# Try to compact sequences of revisions on the same branch.
121
distances = {}
122
skipped_revids = []
123
expected_id = sorted_revids[0]
124
pending_ids = []
125
while True:
126
revid = sorted_revids.pop(0)
127
if revid != expected_id:
128
skipped_revids.append(revid)
129
continue
130
revision = revisions[revid]
131
for child in children_of_id[revid]:
132
# postpone if any child is missing
133
if child.revision_id not in distances:
134
if expected_id not in pending_ids:
135
pending_ids.append(expected_id)
136
expected_id = pending_ids.pop(0)
137
skipped_revids.append(revid)
138
sorted_revids[:0] = skipped_revids
139
del skipped_revids[:]
140
break
141
else:
142
# all children are here, push!
143
distances[revid] = len(distances)
144
if maxnum is not None and len(distances) > maxnum:
145
# bail out early if a limit was specified
146
sorted_revids[:0] = skipped_revids
147
for revid in sorted_revids:
148
distances[revid] = len(distances)
149
break
150
# all parents will need to be pushed as soon as possible
151
for parent in parent_ids_of[revision]:
152
if parent not in pending_ids:
153
pending_ids.insert(0, parent)
154
if not pending_ids:
155
break
156
expected_id = pending_ids.pop(0)
157
# if the next expected revid has already been skipped, requeue
158
# the skipped ids, except those that would go right back to the
159
# skipped list.
160
if expected_id in skipped_revids:
161
pos = skipped_revids.index(expected_id)
162
sorted_revids[:0] = skipped_revids[pos:]
163
del skipped_revids[pos:]
164
self.distances = distances
165
return sorted(distances, key=distances.get)
166
167
def choose_colour(self, revid):
168
revision = self.revisions[revid]
169
children_of_id = self.children_of_id
170
parent_ids_of = self.parent_ids_of
171
colours = self.colours
172
# choose colour
173
the_children = children_of_id[revid]
174
if len(the_children) == 1:
175
[child] = the_children
176
if len(parent_ids_of[child]) == 1:
177
# one-one relationship between parent and child, same
178
# colour
179
colours[revid] = colours[child.revision_id]
180
else:
181
self.choose_colour_one_child(revision, child)
182
else:
183
self.choose_colour_many_children(revision, the_children)
184
185
def choose_colour_one_child(self, revision, child):
186
revid = revision.revision_id
187
direct_parent_of = self.direct_parent_of
188
revisions = self.revisions
189
# one child with multiple parents, the first parent with
190
# the same committer gets the colour
191
direct_parent = direct_parent_of.get(child)
192
if direct_parent is None:
193
# if it has not been found yet, find it now and remember
194
for parent_id in self.parent_ids_of[child]:
195
parent_revision = revisions[parent_id]
196
if parent_revision.committer == child.committer:
197
# found the first parent with the same committer
198
direct_parent = parent_revision
199
direct_parent_of[child] = direct_parent
200
break
201
if direct_parent == revision:
202
self.colours[revid] = self.colours[child.revision_id]
203
else:
204
self.colours[revid] = self.last_colour = self.last_colour + 1
205
206
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]
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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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Traverses the branch revision tree starting at start and produces an
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ordered list of revisions such that a revision always comes after
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any revision it is the parent of.
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Returns a tuple of (revids, revisions, colours, children)
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"""
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distance = DistanceMethod(branch, start)
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distance.fill_caches()
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distance.merge_sorted = merge_sort(distance.graph, distance.start)
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children = distance.make_children_map()
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for seq, revid, merge_depth, end_of_merge in distance.merge_sorted:
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distance.choose_colour(revid)
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revisions = distance.revisions
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colours = distance.colours
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parent_ids_of = distance.parent_ids_of
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return (revisions, colours, children, parent_ids_of, distance.merge_sorted)
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def graph(revisions, colours, merge_sorted):
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"""Produce a directed graph of a bzr branch.
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For each revision it then yields a tuple of (revision, node, lines).
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If the revision is only referenced in the branch and not present in the
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store, revision will be a DummyRevision object, otherwise it is the bzr
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Revision object with the meta-data for the revision.
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Node is a tuple of (column, colour) with column being a zero-indexed
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column number of the graph that this revision represents and colour
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being a zero-indexed colour (which doesn't specify any actual colour
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in particular) to draw the node in.
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Lines is a list of tuples which represent lines you should draw away
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from the revision, if you also need to draw lines into the revision
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you should use the lines list from the previous iteration. Each
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typle in the list is in the form (start, end, colour) with start and
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end being zero-indexed column numbers and colour as in node.
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It's up to you how to actually draw the nodes and lines (straight,
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curved, kinked, etc.) and to pick the actual colours for each index.
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"""
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if not len(merge_sorted):
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return
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# split merge_sorted into a map:
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revs = {}
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# FIXME: get a hint on this from the merge_sorted data rather than
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# calculating it ourselves
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# mapping from rev_id to the sequence number of the next lowest rev
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next_lower_rev = {}
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# mapping from rev_id to next-in-branch-revid - may be None for end
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# of branch
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next_branch_revid = {}
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# the stack we are in in the sorted data for determining which
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# next_lower_rev to set. It is a stack which has one list at each
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# depth - the ids at that depth that need the same id allocated.
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current_stack = [[]]
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for seq, revid, indent, end_merge in merge_sorted:
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revs[revid] = (seq, indent, end_merge)
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if indent == len(current_stack):
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# new merge group starts
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current_stack.append([revid])
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elif indent == len(current_stack) - 1:
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# part of the current merge group
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current_stack[-1].append(revid)
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else:
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# end of a merge group
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while current_stack[-1]:
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stack_rev_id = current_stack[-1].pop()
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# record the next lower rev for this rev:
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next_lower_rev[stack_rev_id] = seq
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# if this followed a non-end-merge rev in this group note that
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if len(current_stack[-1]):
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if not revs[current_stack[-1][-1]][2]:
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next_branch_revid[current_stack[-1][-1]] = stack_rev_id
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current_stack.pop()
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# append to the now-current merge group
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current_stack[-1].append(revid)
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# assign a value to all the depth 0 revisions
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while current_stack[-1]:
324
stack_rev_id = current_stack[-1].pop()
325
# record the next lower rev for this rev:
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next_lower_rev[stack_rev_id] = len(merge_sorted)
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# if this followed a non-end-merge rev in this group note that
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if len(current_stack[-1]):
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if not revs[current_stack[-1][-1]][2]:
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next_branch_revid[current_stack[-1][-1]] = stack_rev_id
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# a list of the current revisions we are drawing lines TO indicating
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# the sequence of their lines on the screen.
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# i.e. [A, B, C] means that the line to A, to B, and to C are in
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# (respectively), 0, 1, 2 on the screen.
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hanging = [merge_sorted[0][1]]
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for seq, revid, indent, end_merge in merge_sorted:
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# a list of the lines to draw: their position in the
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# previous row, their position in this row, and the colour
340
# (which is the colour they are routing to).
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lines = []
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new_hanging = []
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for h_idx, hang in enumerate(hanging):
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# one of these will be the current lines node:
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# we are drawing a line. h_idx
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if hang == revid:
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# we have found the current lines node
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node = (h_idx, colours[revid])
351
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# note that we might have done the main parent
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drawn_parents = set()
354
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def draw_line(from_idx, to_idx, revision_id):
356
try:
357
n_idx = new_hanging.index(revision_id)
358
except ValueError:
359
# force this to be vertical at the place this rev was
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# drawn.
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new_hanging.insert(to_idx, revision_id)
362
n_idx = to_idx
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lines.append((from_idx, n_idx, colours[revision_id]))
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365
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# we want to draw a line to the next commit on 'this' branch
367
if not end_merge:
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# drop this line first.
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parent_id = next_branch_revid[revid]
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draw_line(h_idx, h_idx, parent_id)
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# we have drawn this parent
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drawn_parents.add(parent_id)
373
else:
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# this is the last revision in a 'merge', show where it came from
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if len(revisions[revid].parent_ids) > 1:
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# having > 1
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# parents means this commit was a merge, and being
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# the end point of a merge group means that all
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# the parent revisions were merged into branches
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# to the left of this before this was committed
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# - so we want to show this as a new branch from
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# those revisions.
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# to do this, we show the parent with the lowest
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# sequence number, which is the one that this
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# branch 'spawned from', and no others.
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# If this sounds like a problem, remember that:
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# if the parent was not already in our mainline
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# it would show up as a merge into this making
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# this not the end of a merge-line.
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lowest = len(merge_sorted)
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for parent_id in revisions[revid].parent_ids:
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if revs[parent_id][0] < lowest:
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lowest = revs[parent_id][0]
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assert lowest != len(merge_sorted)
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draw_line(h_idx, len(new_hanging), merge_sorted[lowest][1])
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drawn_parents.add(merge_sorted[lowest][1])
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elif len(revisions[revid].parent_ids) == 1:
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# only one parent, must show this link to be useful.
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parent_id = revisions[revid].parent_ids[0]
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draw_line(h_idx, len(new_hanging), parent_id)
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drawn_parents.add(parent_id)
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# what do we want to draw lines to from here:
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# each parent IF its relevant.
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#
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# Now we need to hang its parents, we put them at the point
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# the old column was so anything to the right of this has
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# to move outwards to make room. We also try and collapse
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# hangs to keep the graph small.
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# RBC: we do not draw lines to parents that were already merged
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# unless its the last revision in a merge group.
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for parent_id in revisions[revid].parent_ids:
413
if parent_id in drawn_parents:
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continue
415
parent_seq = revs[parent_id][0]
416
parent_depth = revs[parent_id][1]
417
if parent_depth == indent + 1:
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# The parent was a merge into this branch determine if
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# it was already merged into the mainline via a
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# different merge: if all revisions between us and
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# parent_seq have a indent greater than there are no
422
# revisions with a lower indent than us.
423
# We do not use 'parent_depth < indent' because that
424
# would allow un-uniqueified merges to show up, and
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# merge_sorted should take care of that for us (but
426
# does not trim the values)
427
if parent_seq < next_lower_rev[revid]:
428
draw_line(h_idx, len(new_hanging), parent_id)
429
elif parent_depth == indent and parent_seq == seq + 1:
430
# part of this branch
431
draw_line(h_idx, len(new_hanging), parent_id)
432
else:
433
# draw a line from the previous position of this line to the
434
# new position.
435
# h_idx is the old position.
436
# new_indent is the new position.
437
draw_line(h_idx, len(new_hanging), hang)
438
# we've calculated the row, assign new_hanging to hanging to setup for
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# the next row
440
hanging = new_hanging
441
442
yield (revisions[revid], node, lines)
443
444
445
def same_branch(a, b):
446
"""Return whether we think revisions a and b are on the same branch."""
447
if len(a.parent_ids) == 1:
448
# Defacto same branch if only parent
449
return True
450
elif a.committer == b.committer:
451
# Same committer so may as well be
452
return True
453
else:
454
return False
Loggerhead is a web-based interface for Breezy
Version: 2.0.2.dev0