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1 | # dagop.py - graph ancestry and topology algorithm for revset |
|
1 | # dagop.py - graph ancestry and topology algorithm for revset | |
2 | # |
|
2 | # | |
3 | # Copyright 2010 Matt Mackall <mpm@selenic.com> |
|
3 | # Copyright 2010 Matt Mackall <mpm@selenic.com> | |
4 | # |
|
4 | # | |
5 | # This software may be used and distributed according to the terms of the |
|
5 | # This software may be used and distributed according to the terms of the | |
6 | # GNU General Public License version 2 or any later version. |
|
6 | # GNU General Public License version 2 or any later version. | |
7 |
|
7 | |||
8 | from __future__ import absolute_import |
|
8 | from __future__ import absolute_import | |
9 |
|
9 | |||
10 | import heapq |
|
10 | import heapq | |
11 |
|
11 | |||
12 | from . import ( |
|
12 | from . import ( | |
13 | error, |
|
13 | error, | |
14 | mdiff, |
|
14 | mdiff, | |
15 | node, |
|
15 | node, | |
16 | patch, |
|
16 | patch, | |
17 | smartset, |
|
17 | smartset, | |
18 | ) |
|
18 | ) | |
19 |
|
19 | |||
20 | baseset = smartset.baseset |
|
20 | baseset = smartset.baseset | |
21 | generatorset = smartset.generatorset |
|
21 | generatorset = smartset.generatorset | |
22 |
|
22 | |||
23 | def _genrevancestors(repo, revs, followfirst): |
|
23 | def _genrevancestors(repo, revs, followfirst): | |
24 | if followfirst: |
|
24 | if followfirst: | |
25 | cut = 1 |
|
25 | cut = 1 | |
26 | else: |
|
26 | else: | |
27 | cut = None |
|
27 | cut = None | |
28 | cl = repo.changelog |
|
28 | cl = repo.changelog | |
29 |
|
29 | |||
30 | # load input revs lazily to heap so earlier revisions can be yielded |
|
30 | # load input revs lazily to heap so earlier revisions can be yielded | |
31 | # without fully computing the input revs |
|
31 | # without fully computing the input revs | |
32 | revs.sort(reverse=True) |
|
32 | revs.sort(reverse=True) | |
33 | irevs = iter(revs) |
|
33 | irevs = iter(revs) | |
34 | pendingheap = [] |
|
34 | pendingheap = [] | |
35 |
|
35 | |||
36 | inputrev = next(irevs, None) |
|
36 | inputrev = next(irevs, None) | |
37 | if inputrev is not None: |
|
37 | if inputrev is not None: | |
38 | heapq.heappush(pendingheap, -inputrev) |
|
38 | heapq.heappush(pendingheap, -inputrev) | |
39 |
|
39 | |||
40 | seen = set() |
|
40 | lastrev = None | |
41 | while pendingheap: |
|
41 | while pendingheap: | |
42 | currev = -heapq.heappop(pendingheap) |
|
42 | currev = -heapq.heappop(pendingheap) | |
43 | if currev == inputrev: |
|
43 | if currev == inputrev: | |
44 | inputrev = next(irevs, None) |
|
44 | inputrev = next(irevs, None) | |
45 | if inputrev is not None: |
|
45 | if inputrev is not None: | |
46 | heapq.heappush(pendingheap, -inputrev) |
|
46 | heapq.heappush(pendingheap, -inputrev) | |
47 |
if currev |
|
47 | if currev != lastrev: | |
48 |
|
|
48 | lastrev = currev | |
49 | yield currev |
|
49 | yield currev | |
50 | try: |
|
50 | try: | |
51 | for prev in cl.parentrevs(currev)[:cut]: |
|
51 | for prev in cl.parentrevs(currev)[:cut]: | |
52 | if prev != node.nullrev: |
|
52 | if prev != node.nullrev: | |
53 | heapq.heappush(pendingheap, -prev) |
|
53 | heapq.heappush(pendingheap, -prev) | |
54 | except error.WdirUnsupported: |
|
54 | except error.WdirUnsupported: | |
55 | for pctx in repo[currev].parents()[:cut]: |
|
55 | for pctx in repo[currev].parents()[:cut]: | |
56 | if pctx.rev() != node.nullrev: |
|
56 | if pctx.rev() != node.nullrev: | |
57 | heapq.heappush(pendingheap, -pctx.rev()) |
|
57 | heapq.heappush(pendingheap, -pctx.rev()) | |
58 |
|
58 | |||
59 | def revancestors(repo, revs, followfirst): |
|
59 | def revancestors(repo, revs, followfirst): | |
60 | """Like revlog.ancestors(), but supports followfirst.""" |
|
60 | """Like revlog.ancestors(), but supports followfirst.""" | |
61 | gen = _genrevancestors(repo, revs, followfirst) |
|
61 | gen = _genrevancestors(repo, revs, followfirst) | |
62 | return generatorset(gen, iterasc=False) |
|
62 | return generatorset(gen, iterasc=False) | |
63 |
|
63 | |||
64 | def revdescendants(repo, revs, followfirst): |
|
64 | def revdescendants(repo, revs, followfirst): | |
65 | """Like revlog.descendants() but supports followfirst.""" |
|
65 | """Like revlog.descendants() but supports followfirst.""" | |
66 | if followfirst: |
|
66 | if followfirst: | |
67 | cut = 1 |
|
67 | cut = 1 | |
68 | else: |
|
68 | else: | |
69 | cut = None |
|
69 | cut = None | |
70 |
|
70 | |||
71 | def iterate(): |
|
71 | def iterate(): | |
72 | cl = repo.changelog |
|
72 | cl = repo.changelog | |
73 | # XXX this should be 'parentset.min()' assuming 'parentset' is a |
|
73 | # XXX this should be 'parentset.min()' assuming 'parentset' is a | |
74 | # smartset (and if it is not, it should.) |
|
74 | # smartset (and if it is not, it should.) | |
75 | first = min(revs) |
|
75 | first = min(revs) | |
76 | nullrev = node.nullrev |
|
76 | nullrev = node.nullrev | |
77 | if first == nullrev: |
|
77 | if first == nullrev: | |
78 | # Are there nodes with a null first parent and a non-null |
|
78 | # Are there nodes with a null first parent and a non-null | |
79 | # second one? Maybe. Do we care? Probably not. |
|
79 | # second one? Maybe. Do we care? Probably not. | |
80 | for i in cl: |
|
80 | for i in cl: | |
81 | yield i |
|
81 | yield i | |
82 | else: |
|
82 | else: | |
83 | seen = set(revs) |
|
83 | seen = set(revs) | |
84 | for i in cl.revs(first + 1): |
|
84 | for i in cl.revs(first + 1): | |
85 | for x in cl.parentrevs(i)[:cut]: |
|
85 | for x in cl.parentrevs(i)[:cut]: | |
86 | if x != nullrev and x in seen: |
|
86 | if x != nullrev and x in seen: | |
87 | seen.add(i) |
|
87 | seen.add(i) | |
88 | yield i |
|
88 | yield i | |
89 | break |
|
89 | break | |
90 |
|
90 | |||
91 | return generatorset(iterate(), iterasc=True) |
|
91 | return generatorset(iterate(), iterasc=True) | |
92 |
|
92 | |||
93 | def _reachablerootspure(repo, minroot, roots, heads, includepath): |
|
93 | def _reachablerootspure(repo, minroot, roots, heads, includepath): | |
94 | """return (heads(::<roots> and ::<heads>)) |
|
94 | """return (heads(::<roots> and ::<heads>)) | |
95 |
|
95 | |||
96 | If includepath is True, return (<roots>::<heads>).""" |
|
96 | If includepath is True, return (<roots>::<heads>).""" | |
97 | if not roots: |
|
97 | if not roots: | |
98 | return [] |
|
98 | return [] | |
99 | parentrevs = repo.changelog.parentrevs |
|
99 | parentrevs = repo.changelog.parentrevs | |
100 | roots = set(roots) |
|
100 | roots = set(roots) | |
101 | visit = list(heads) |
|
101 | visit = list(heads) | |
102 | reachable = set() |
|
102 | reachable = set() | |
103 | seen = {} |
|
103 | seen = {} | |
104 | # prefetch all the things! (because python is slow) |
|
104 | # prefetch all the things! (because python is slow) | |
105 | reached = reachable.add |
|
105 | reached = reachable.add | |
106 | dovisit = visit.append |
|
106 | dovisit = visit.append | |
107 | nextvisit = visit.pop |
|
107 | nextvisit = visit.pop | |
108 | # open-code the post-order traversal due to the tiny size of |
|
108 | # open-code the post-order traversal due to the tiny size of | |
109 | # sys.getrecursionlimit() |
|
109 | # sys.getrecursionlimit() | |
110 | while visit: |
|
110 | while visit: | |
111 | rev = nextvisit() |
|
111 | rev = nextvisit() | |
112 | if rev in roots: |
|
112 | if rev in roots: | |
113 | reached(rev) |
|
113 | reached(rev) | |
114 | if not includepath: |
|
114 | if not includepath: | |
115 | continue |
|
115 | continue | |
116 | parents = parentrevs(rev) |
|
116 | parents = parentrevs(rev) | |
117 | seen[rev] = parents |
|
117 | seen[rev] = parents | |
118 | for parent in parents: |
|
118 | for parent in parents: | |
119 | if parent >= minroot and parent not in seen: |
|
119 | if parent >= minroot and parent not in seen: | |
120 | dovisit(parent) |
|
120 | dovisit(parent) | |
121 | if not reachable: |
|
121 | if not reachable: | |
122 | return baseset() |
|
122 | return baseset() | |
123 | if not includepath: |
|
123 | if not includepath: | |
124 | return reachable |
|
124 | return reachable | |
125 | for rev in sorted(seen): |
|
125 | for rev in sorted(seen): | |
126 | for parent in seen[rev]: |
|
126 | for parent in seen[rev]: | |
127 | if parent in reachable: |
|
127 | if parent in reachable: | |
128 | reached(rev) |
|
128 | reached(rev) | |
129 | return reachable |
|
129 | return reachable | |
130 |
|
130 | |||
131 | def reachableroots(repo, roots, heads, includepath=False): |
|
131 | def reachableroots(repo, roots, heads, includepath=False): | |
132 | """return (heads(::<roots> and ::<heads>)) |
|
132 | """return (heads(::<roots> and ::<heads>)) | |
133 |
|
133 | |||
134 | If includepath is True, return (<roots>::<heads>).""" |
|
134 | If includepath is True, return (<roots>::<heads>).""" | |
135 | if not roots: |
|
135 | if not roots: | |
136 | return baseset() |
|
136 | return baseset() | |
137 | minroot = roots.min() |
|
137 | minroot = roots.min() | |
138 | roots = list(roots) |
|
138 | roots = list(roots) | |
139 | heads = list(heads) |
|
139 | heads = list(heads) | |
140 | try: |
|
140 | try: | |
141 | revs = repo.changelog.reachableroots(minroot, heads, roots, includepath) |
|
141 | revs = repo.changelog.reachableroots(minroot, heads, roots, includepath) | |
142 | except AttributeError: |
|
142 | except AttributeError: | |
143 | revs = _reachablerootspure(repo, minroot, roots, heads, includepath) |
|
143 | revs = _reachablerootspure(repo, minroot, roots, heads, includepath) | |
144 | revs = baseset(revs) |
|
144 | revs = baseset(revs) | |
145 | revs.sort() |
|
145 | revs.sort() | |
146 | return revs |
|
146 | return revs | |
147 |
|
147 | |||
148 | def _changesrange(fctx1, fctx2, linerange2, diffopts): |
|
148 | def _changesrange(fctx1, fctx2, linerange2, diffopts): | |
149 | """Return `(diffinrange, linerange1)` where `diffinrange` is True |
|
149 | """Return `(diffinrange, linerange1)` where `diffinrange` is True | |
150 | if diff from fctx2 to fctx1 has changes in linerange2 and |
|
150 | if diff from fctx2 to fctx1 has changes in linerange2 and | |
151 | `linerange1` is the new line range for fctx1. |
|
151 | `linerange1` is the new line range for fctx1. | |
152 | """ |
|
152 | """ | |
153 | blocks = mdiff.allblocks(fctx1.data(), fctx2.data(), diffopts) |
|
153 | blocks = mdiff.allblocks(fctx1.data(), fctx2.data(), diffopts) | |
154 | filteredblocks, linerange1 = mdiff.blocksinrange(blocks, linerange2) |
|
154 | filteredblocks, linerange1 = mdiff.blocksinrange(blocks, linerange2) | |
155 | diffinrange = any(stype == '!' for _, stype in filteredblocks) |
|
155 | diffinrange = any(stype == '!' for _, stype in filteredblocks) | |
156 | return diffinrange, linerange1 |
|
156 | return diffinrange, linerange1 | |
157 |
|
157 | |||
158 | def blockancestors(fctx, fromline, toline, followfirst=False): |
|
158 | def blockancestors(fctx, fromline, toline, followfirst=False): | |
159 | """Yield ancestors of `fctx` with respect to the block of lines within |
|
159 | """Yield ancestors of `fctx` with respect to the block of lines within | |
160 | `fromline`-`toline` range. |
|
160 | `fromline`-`toline` range. | |
161 | """ |
|
161 | """ | |
162 | diffopts = patch.diffopts(fctx._repo.ui) |
|
162 | diffopts = patch.diffopts(fctx._repo.ui) | |
163 | introrev = fctx.introrev() |
|
163 | introrev = fctx.introrev() | |
164 | if fctx.rev() != introrev: |
|
164 | if fctx.rev() != introrev: | |
165 | fctx = fctx.filectx(fctx.filenode(), changeid=introrev) |
|
165 | fctx = fctx.filectx(fctx.filenode(), changeid=introrev) | |
166 | visit = {(fctx.linkrev(), fctx.filenode()): (fctx, (fromline, toline))} |
|
166 | visit = {(fctx.linkrev(), fctx.filenode()): (fctx, (fromline, toline))} | |
167 | while visit: |
|
167 | while visit: | |
168 | c, linerange2 = visit.pop(max(visit)) |
|
168 | c, linerange2 = visit.pop(max(visit)) | |
169 | pl = c.parents() |
|
169 | pl = c.parents() | |
170 | if followfirst: |
|
170 | if followfirst: | |
171 | pl = pl[:1] |
|
171 | pl = pl[:1] | |
172 | if not pl: |
|
172 | if not pl: | |
173 | # The block originates from the initial revision. |
|
173 | # The block originates from the initial revision. | |
174 | yield c, linerange2 |
|
174 | yield c, linerange2 | |
175 | continue |
|
175 | continue | |
176 | inrange = False |
|
176 | inrange = False | |
177 | for p in pl: |
|
177 | for p in pl: | |
178 | inrangep, linerange1 = _changesrange(p, c, linerange2, diffopts) |
|
178 | inrangep, linerange1 = _changesrange(p, c, linerange2, diffopts) | |
179 | inrange = inrange or inrangep |
|
179 | inrange = inrange or inrangep | |
180 | if linerange1[0] == linerange1[1]: |
|
180 | if linerange1[0] == linerange1[1]: | |
181 | # Parent's linerange is empty, meaning that the block got |
|
181 | # Parent's linerange is empty, meaning that the block got | |
182 | # introduced in this revision; no need to go futher in this |
|
182 | # introduced in this revision; no need to go futher in this | |
183 | # branch. |
|
183 | # branch. | |
184 | continue |
|
184 | continue | |
185 | # Set _descendantrev with 'c' (a known descendant) so that, when |
|
185 | # Set _descendantrev with 'c' (a known descendant) so that, when | |
186 | # _adjustlinkrev is called for 'p', it receives this descendant |
|
186 | # _adjustlinkrev is called for 'p', it receives this descendant | |
187 | # (as srcrev) instead possibly topmost introrev. |
|
187 | # (as srcrev) instead possibly topmost introrev. | |
188 | p._descendantrev = c.rev() |
|
188 | p._descendantrev = c.rev() | |
189 | visit[p.linkrev(), p.filenode()] = p, linerange1 |
|
189 | visit[p.linkrev(), p.filenode()] = p, linerange1 | |
190 | if inrange: |
|
190 | if inrange: | |
191 | yield c, linerange2 |
|
191 | yield c, linerange2 | |
192 |
|
192 | |||
193 | def blockdescendants(fctx, fromline, toline): |
|
193 | def blockdescendants(fctx, fromline, toline): | |
194 | """Yield descendants of `fctx` with respect to the block of lines within |
|
194 | """Yield descendants of `fctx` with respect to the block of lines within | |
195 | `fromline`-`toline` range. |
|
195 | `fromline`-`toline` range. | |
196 | """ |
|
196 | """ | |
197 | # First possibly yield 'fctx' if it has changes in range with respect to |
|
197 | # First possibly yield 'fctx' if it has changes in range with respect to | |
198 | # its parents. |
|
198 | # its parents. | |
199 | try: |
|
199 | try: | |
200 | c, linerange1 = next(blockancestors(fctx, fromline, toline)) |
|
200 | c, linerange1 = next(blockancestors(fctx, fromline, toline)) | |
201 | except StopIteration: |
|
201 | except StopIteration: | |
202 | pass |
|
202 | pass | |
203 | else: |
|
203 | else: | |
204 | if c == fctx: |
|
204 | if c == fctx: | |
205 | yield c, linerange1 |
|
205 | yield c, linerange1 | |
206 |
|
206 | |||
207 | diffopts = patch.diffopts(fctx._repo.ui) |
|
207 | diffopts = patch.diffopts(fctx._repo.ui) | |
208 | fl = fctx.filelog() |
|
208 | fl = fctx.filelog() | |
209 | seen = {fctx.filerev(): (fctx, (fromline, toline))} |
|
209 | seen = {fctx.filerev(): (fctx, (fromline, toline))} | |
210 | for i in fl.descendants([fctx.filerev()]): |
|
210 | for i in fl.descendants([fctx.filerev()]): | |
211 | c = fctx.filectx(i) |
|
211 | c = fctx.filectx(i) | |
212 | inrange = False |
|
212 | inrange = False | |
213 | for x in fl.parentrevs(i): |
|
213 | for x in fl.parentrevs(i): | |
214 | try: |
|
214 | try: | |
215 | p, linerange2 = seen[x] |
|
215 | p, linerange2 = seen[x] | |
216 | except KeyError: |
|
216 | except KeyError: | |
217 | # nullrev or other branch |
|
217 | # nullrev or other branch | |
218 | continue |
|
218 | continue | |
219 | inrangep, linerange1 = _changesrange(c, p, linerange2, diffopts) |
|
219 | inrangep, linerange1 = _changesrange(c, p, linerange2, diffopts) | |
220 | inrange = inrange or inrangep |
|
220 | inrange = inrange or inrangep | |
221 | # If revision 'i' has been seen (it's a merge), we assume that its |
|
221 | # If revision 'i' has been seen (it's a merge), we assume that its | |
222 | # line range is the same independently of which parents was used |
|
222 | # line range is the same independently of which parents was used | |
223 | # to compute it. |
|
223 | # to compute it. | |
224 | assert i not in seen or seen[i][1] == linerange1, ( |
|
224 | assert i not in seen or seen[i][1] == linerange1, ( | |
225 | 'computed line range for %s is not consistent between ' |
|
225 | 'computed line range for %s is not consistent between ' | |
226 | 'ancestor branches' % c) |
|
226 | 'ancestor branches' % c) | |
227 | seen[i] = c, linerange1 |
|
227 | seen[i] = c, linerange1 | |
228 | if inrange: |
|
228 | if inrange: | |
229 | yield c, linerange1 |
|
229 | yield c, linerange1 | |
230 |
|
230 | |||
231 | def toposort(revs, parentsfunc, firstbranch=()): |
|
231 | def toposort(revs, parentsfunc, firstbranch=()): | |
232 | """Yield revisions from heads to roots one (topo) branch at a time. |
|
232 | """Yield revisions from heads to roots one (topo) branch at a time. | |
233 |
|
233 | |||
234 | This function aims to be used by a graph generator that wishes to minimize |
|
234 | This function aims to be used by a graph generator that wishes to minimize | |
235 | the number of parallel branches and their interleaving. |
|
235 | the number of parallel branches and their interleaving. | |
236 |
|
236 | |||
237 | Example iteration order (numbers show the "true" order in a changelog): |
|
237 | Example iteration order (numbers show the "true" order in a changelog): | |
238 |
|
238 | |||
239 | o 4 |
|
239 | o 4 | |
240 | | |
|
240 | | | |
241 | o 1 |
|
241 | o 1 | |
242 | | |
|
242 | | | |
243 | | o 3 |
|
243 | | o 3 | |
244 | | | |
|
244 | | | | |
245 | | o 2 |
|
245 | | o 2 | |
246 | |/ |
|
246 | |/ | |
247 | o 0 |
|
247 | o 0 | |
248 |
|
248 | |||
249 | Note that the ancestors of merges are understood by the current |
|
249 | Note that the ancestors of merges are understood by the current | |
250 | algorithm to be on the same branch. This means no reordering will |
|
250 | algorithm to be on the same branch. This means no reordering will | |
251 | occur behind a merge. |
|
251 | occur behind a merge. | |
252 | """ |
|
252 | """ | |
253 |
|
253 | |||
254 | ### Quick summary of the algorithm |
|
254 | ### Quick summary of the algorithm | |
255 | # |
|
255 | # | |
256 | # This function is based around a "retention" principle. We keep revisions |
|
256 | # This function is based around a "retention" principle. We keep revisions | |
257 | # in memory until we are ready to emit a whole branch that immediately |
|
257 | # in memory until we are ready to emit a whole branch that immediately | |
258 | # "merges" into an existing one. This reduces the number of parallel |
|
258 | # "merges" into an existing one. This reduces the number of parallel | |
259 | # branches with interleaved revisions. |
|
259 | # branches with interleaved revisions. | |
260 | # |
|
260 | # | |
261 | # During iteration revs are split into two groups: |
|
261 | # During iteration revs are split into two groups: | |
262 | # A) revision already emitted |
|
262 | # A) revision already emitted | |
263 | # B) revision in "retention". They are stored as different subgroups. |
|
263 | # B) revision in "retention". They are stored as different subgroups. | |
264 | # |
|
264 | # | |
265 | # for each REV, we do the following logic: |
|
265 | # for each REV, we do the following logic: | |
266 | # |
|
266 | # | |
267 | # 1) if REV is a parent of (A), we will emit it. If there is a |
|
267 | # 1) if REV is a parent of (A), we will emit it. If there is a | |
268 | # retention group ((B) above) that is blocked on REV being |
|
268 | # retention group ((B) above) that is blocked on REV being | |
269 | # available, we emit all the revisions out of that retention |
|
269 | # available, we emit all the revisions out of that retention | |
270 | # group first. |
|
270 | # group first. | |
271 | # |
|
271 | # | |
272 | # 2) else, we'll search for a subgroup in (B) awaiting for REV to be |
|
272 | # 2) else, we'll search for a subgroup in (B) awaiting for REV to be | |
273 | # available, if such subgroup exist, we add REV to it and the subgroup is |
|
273 | # available, if such subgroup exist, we add REV to it and the subgroup is | |
274 | # now awaiting for REV.parents() to be available. |
|
274 | # now awaiting for REV.parents() to be available. | |
275 | # |
|
275 | # | |
276 | # 3) finally if no such group existed in (B), we create a new subgroup. |
|
276 | # 3) finally if no such group existed in (B), we create a new subgroup. | |
277 | # |
|
277 | # | |
278 | # |
|
278 | # | |
279 | # To bootstrap the algorithm, we emit the tipmost revision (which |
|
279 | # To bootstrap the algorithm, we emit the tipmost revision (which | |
280 | # puts it in group (A) from above). |
|
280 | # puts it in group (A) from above). | |
281 |
|
281 | |||
282 | revs.sort(reverse=True) |
|
282 | revs.sort(reverse=True) | |
283 |
|
283 | |||
284 | # Set of parents of revision that have been emitted. They can be considered |
|
284 | # Set of parents of revision that have been emitted. They can be considered | |
285 | # unblocked as the graph generator is already aware of them so there is no |
|
285 | # unblocked as the graph generator is already aware of them so there is no | |
286 | # need to delay the revisions that reference them. |
|
286 | # need to delay the revisions that reference them. | |
287 | # |
|
287 | # | |
288 | # If someone wants to prioritize a branch over the others, pre-filling this |
|
288 | # If someone wants to prioritize a branch over the others, pre-filling this | |
289 | # set will force all other branches to wait until this branch is ready to be |
|
289 | # set will force all other branches to wait until this branch is ready to be | |
290 | # emitted. |
|
290 | # emitted. | |
291 | unblocked = set(firstbranch) |
|
291 | unblocked = set(firstbranch) | |
292 |
|
292 | |||
293 | # list of groups waiting to be displayed, each group is defined by: |
|
293 | # list of groups waiting to be displayed, each group is defined by: | |
294 | # |
|
294 | # | |
295 | # (revs: lists of revs waiting to be displayed, |
|
295 | # (revs: lists of revs waiting to be displayed, | |
296 | # blocked: set of that cannot be displayed before those in 'revs') |
|
296 | # blocked: set of that cannot be displayed before those in 'revs') | |
297 | # |
|
297 | # | |
298 | # The second value ('blocked') correspond to parents of any revision in the |
|
298 | # The second value ('blocked') correspond to parents of any revision in the | |
299 | # group ('revs') that is not itself contained in the group. The main idea |
|
299 | # group ('revs') that is not itself contained in the group. The main idea | |
300 | # of this algorithm is to delay as much as possible the emission of any |
|
300 | # of this algorithm is to delay as much as possible the emission of any | |
301 | # revision. This means waiting for the moment we are about to display |
|
301 | # revision. This means waiting for the moment we are about to display | |
302 | # these parents to display the revs in a group. |
|
302 | # these parents to display the revs in a group. | |
303 | # |
|
303 | # | |
304 | # This first implementation is smart until it encounters a merge: it will |
|
304 | # This first implementation is smart until it encounters a merge: it will | |
305 | # emit revs as soon as any parent is about to be emitted and can grow an |
|
305 | # emit revs as soon as any parent is about to be emitted and can grow an | |
306 | # arbitrary number of revs in 'blocked'. In practice this mean we properly |
|
306 | # arbitrary number of revs in 'blocked'. In practice this mean we properly | |
307 | # retains new branches but gives up on any special ordering for ancestors |
|
307 | # retains new branches but gives up on any special ordering for ancestors | |
308 | # of merges. The implementation can be improved to handle this better. |
|
308 | # of merges. The implementation can be improved to handle this better. | |
309 | # |
|
309 | # | |
310 | # The first subgroup is special. It corresponds to all the revision that |
|
310 | # The first subgroup is special. It corresponds to all the revision that | |
311 | # were already emitted. The 'revs' lists is expected to be empty and the |
|
311 | # were already emitted. The 'revs' lists is expected to be empty and the | |
312 | # 'blocked' set contains the parents revisions of already emitted revision. |
|
312 | # 'blocked' set contains the parents revisions of already emitted revision. | |
313 | # |
|
313 | # | |
314 | # You could pre-seed the <parents> set of groups[0] to a specific |
|
314 | # You could pre-seed the <parents> set of groups[0] to a specific | |
315 | # changesets to select what the first emitted branch should be. |
|
315 | # changesets to select what the first emitted branch should be. | |
316 | groups = [([], unblocked)] |
|
316 | groups = [([], unblocked)] | |
317 | pendingheap = [] |
|
317 | pendingheap = [] | |
318 | pendingset = set() |
|
318 | pendingset = set() | |
319 |
|
319 | |||
320 | heapq.heapify(pendingheap) |
|
320 | heapq.heapify(pendingheap) | |
321 | heappop = heapq.heappop |
|
321 | heappop = heapq.heappop | |
322 | heappush = heapq.heappush |
|
322 | heappush = heapq.heappush | |
323 | for currentrev in revs: |
|
323 | for currentrev in revs: | |
324 | # Heap works with smallest element, we want highest so we invert |
|
324 | # Heap works with smallest element, we want highest so we invert | |
325 | if currentrev not in pendingset: |
|
325 | if currentrev not in pendingset: | |
326 | heappush(pendingheap, -currentrev) |
|
326 | heappush(pendingheap, -currentrev) | |
327 | pendingset.add(currentrev) |
|
327 | pendingset.add(currentrev) | |
328 | # iterates on pending rev until after the current rev have been |
|
328 | # iterates on pending rev until after the current rev have been | |
329 | # processed. |
|
329 | # processed. | |
330 | rev = None |
|
330 | rev = None | |
331 | while rev != currentrev: |
|
331 | while rev != currentrev: | |
332 | rev = -heappop(pendingheap) |
|
332 | rev = -heappop(pendingheap) | |
333 | pendingset.remove(rev) |
|
333 | pendingset.remove(rev) | |
334 |
|
334 | |||
335 | # Seek for a subgroup blocked, waiting for the current revision. |
|
335 | # Seek for a subgroup blocked, waiting for the current revision. | |
336 | matching = [i for i, g in enumerate(groups) if rev in g[1]] |
|
336 | matching = [i for i, g in enumerate(groups) if rev in g[1]] | |
337 |
|
337 | |||
338 | if matching: |
|
338 | if matching: | |
339 | # The main idea is to gather together all sets that are blocked |
|
339 | # The main idea is to gather together all sets that are blocked | |
340 | # on the same revision. |
|
340 | # on the same revision. | |
341 | # |
|
341 | # | |
342 | # Groups are merged when a common blocking ancestor is |
|
342 | # Groups are merged when a common blocking ancestor is | |
343 | # observed. For example, given two groups: |
|
343 | # observed. For example, given two groups: | |
344 | # |
|
344 | # | |
345 | # revs [5, 4] waiting for 1 |
|
345 | # revs [5, 4] waiting for 1 | |
346 | # revs [3, 2] waiting for 1 |
|
346 | # revs [3, 2] waiting for 1 | |
347 | # |
|
347 | # | |
348 | # These two groups will be merged when we process |
|
348 | # These two groups will be merged when we process | |
349 | # 1. In theory, we could have merged the groups when |
|
349 | # 1. In theory, we could have merged the groups when | |
350 | # we added 2 to the group it is now in (we could have |
|
350 | # we added 2 to the group it is now in (we could have | |
351 | # noticed the groups were both blocked on 1 then), but |
|
351 | # noticed the groups were both blocked on 1 then), but | |
352 | # the way it works now makes the algorithm simpler. |
|
352 | # the way it works now makes the algorithm simpler. | |
353 | # |
|
353 | # | |
354 | # We also always keep the oldest subgroup first. We can |
|
354 | # We also always keep the oldest subgroup first. We can | |
355 | # probably improve the behavior by having the longest set |
|
355 | # probably improve the behavior by having the longest set | |
356 | # first. That way, graph algorithms could minimise the length |
|
356 | # first. That way, graph algorithms could minimise the length | |
357 | # of parallel lines their drawing. This is currently not done. |
|
357 | # of parallel lines their drawing. This is currently not done. | |
358 | targetidx = matching.pop(0) |
|
358 | targetidx = matching.pop(0) | |
359 | trevs, tparents = groups[targetidx] |
|
359 | trevs, tparents = groups[targetidx] | |
360 | for i in matching: |
|
360 | for i in matching: | |
361 | gr = groups[i] |
|
361 | gr = groups[i] | |
362 | trevs.extend(gr[0]) |
|
362 | trevs.extend(gr[0]) | |
363 | tparents |= gr[1] |
|
363 | tparents |= gr[1] | |
364 | # delete all merged subgroups (except the one we kept) |
|
364 | # delete all merged subgroups (except the one we kept) | |
365 | # (starting from the last subgroup for performance and |
|
365 | # (starting from the last subgroup for performance and | |
366 | # sanity reasons) |
|
366 | # sanity reasons) | |
367 | for i in reversed(matching): |
|
367 | for i in reversed(matching): | |
368 | del groups[i] |
|
368 | del groups[i] | |
369 | else: |
|
369 | else: | |
370 | # This is a new head. We create a new subgroup for it. |
|
370 | # This is a new head. We create a new subgroup for it. | |
371 | targetidx = len(groups) |
|
371 | targetidx = len(groups) | |
372 | groups.append(([], {rev})) |
|
372 | groups.append(([], {rev})) | |
373 |
|
373 | |||
374 | gr = groups[targetidx] |
|
374 | gr = groups[targetidx] | |
375 |
|
375 | |||
376 | # We now add the current nodes to this subgroups. This is done |
|
376 | # We now add the current nodes to this subgroups. This is done | |
377 | # after the subgroup merging because all elements from a subgroup |
|
377 | # after the subgroup merging because all elements from a subgroup | |
378 | # that relied on this rev must precede it. |
|
378 | # that relied on this rev must precede it. | |
379 | # |
|
379 | # | |
380 | # we also update the <parents> set to include the parents of the |
|
380 | # we also update the <parents> set to include the parents of the | |
381 | # new nodes. |
|
381 | # new nodes. | |
382 | if rev == currentrev: # only display stuff in rev |
|
382 | if rev == currentrev: # only display stuff in rev | |
383 | gr[0].append(rev) |
|
383 | gr[0].append(rev) | |
384 | gr[1].remove(rev) |
|
384 | gr[1].remove(rev) | |
385 | parents = [p for p in parentsfunc(rev) if p > node.nullrev] |
|
385 | parents = [p for p in parentsfunc(rev) if p > node.nullrev] | |
386 | gr[1].update(parents) |
|
386 | gr[1].update(parents) | |
387 | for p in parents: |
|
387 | for p in parents: | |
388 | if p not in pendingset: |
|
388 | if p not in pendingset: | |
389 | pendingset.add(p) |
|
389 | pendingset.add(p) | |
390 | heappush(pendingheap, -p) |
|
390 | heappush(pendingheap, -p) | |
391 |
|
391 | |||
392 | # Look for a subgroup to display |
|
392 | # Look for a subgroup to display | |
393 | # |
|
393 | # | |
394 | # When unblocked is empty (if clause), we were not waiting for any |
|
394 | # When unblocked is empty (if clause), we were not waiting for any | |
395 | # revisions during the first iteration (if no priority was given) or |
|
395 | # revisions during the first iteration (if no priority was given) or | |
396 | # if we emitted a whole disconnected set of the graph (reached a |
|
396 | # if we emitted a whole disconnected set of the graph (reached a | |
397 | # root). In that case we arbitrarily take the oldest known |
|
397 | # root). In that case we arbitrarily take the oldest known | |
398 | # subgroup. The heuristic could probably be better. |
|
398 | # subgroup. The heuristic could probably be better. | |
399 | # |
|
399 | # | |
400 | # Otherwise (elif clause) if the subgroup is blocked on |
|
400 | # Otherwise (elif clause) if the subgroup is blocked on | |
401 | # a revision we just emitted, we can safely emit it as |
|
401 | # a revision we just emitted, we can safely emit it as | |
402 | # well. |
|
402 | # well. | |
403 | if not unblocked: |
|
403 | if not unblocked: | |
404 | if len(groups) > 1: # display other subset |
|
404 | if len(groups) > 1: # display other subset | |
405 | targetidx = 1 |
|
405 | targetidx = 1 | |
406 | gr = groups[1] |
|
406 | gr = groups[1] | |
407 | elif not gr[1] & unblocked: |
|
407 | elif not gr[1] & unblocked: | |
408 | gr = None |
|
408 | gr = None | |
409 |
|
409 | |||
410 | if gr is not None: |
|
410 | if gr is not None: | |
411 | # update the set of awaited revisions with the one from the |
|
411 | # update the set of awaited revisions with the one from the | |
412 | # subgroup |
|
412 | # subgroup | |
413 | unblocked |= gr[1] |
|
413 | unblocked |= gr[1] | |
414 | # output all revisions in the subgroup |
|
414 | # output all revisions in the subgroup | |
415 | for r in gr[0]: |
|
415 | for r in gr[0]: | |
416 | yield r |
|
416 | yield r | |
417 | # delete the subgroup that you just output |
|
417 | # delete the subgroup that you just output | |
418 | # unless it is groups[0] in which case you just empty it. |
|
418 | # unless it is groups[0] in which case you just empty it. | |
419 | if targetidx: |
|
419 | if targetidx: | |
420 | del groups[targetidx] |
|
420 | del groups[targetidx] | |
421 | else: |
|
421 | else: | |
422 | gr[0][:] = [] |
|
422 | gr[0][:] = [] | |
423 | # Check if we have some subgroup waiting for revisions we are not going to |
|
423 | # Check if we have some subgroup waiting for revisions we are not going to | |
424 | # iterate over |
|
424 | # iterate over | |
425 | for g in groups: |
|
425 | for g in groups: | |
426 | for r in g[0]: |
|
426 | for r in g[0]: | |
427 | yield r |
|
427 | yield r |
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