Mercurial > hg
view hgext/fastannotate/context.py @ 44937:f4361aed565d
tests: consistently use pyflakes as a Python module
We check availability of pyflakes as a module, and also running it for real as
a module. Only fair to test filterpyflakes.py working correctly when using
pyflakes as a module too.
Differential Revision: https://phab.mercurial-scm.org/D8617
author | Anton Shestakov <av6@dwimlabs.net> |
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date | Sat, 06 Jun 2020 19:12:49 +0800 |
parents | 2d49482d0dd4 |
children | 59fa3890d40a |
line wrap: on
line source
# Copyright 2016-present Facebook. All Rights Reserved. # # context: context needed to annotate a file # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import collections import contextlib import os from mercurial.i18n import _ from mercurial.pycompat import ( getattr, open, setattr, ) from mercurial import ( error, linelog as linelogmod, lock as lockmod, mdiff, node, pycompat, scmutil, util, ) from mercurial.utils import ( hashutil, stringutil, ) from . import ( error as faerror, revmap as revmapmod, ) # given path, get filelog, cached @util.lrucachefunc def _getflog(repo, path): return repo.file(path) # extracted from mercurial.context.basefilectx.annotate def _parents(f, follow=True): # Cut _descendantrev here to mitigate the penalty of lazy linkrev # adjustment. Otherwise, p._adjustlinkrev() would walk changelog # from the topmost introrev (= srcrev) down to p.linkrev() if it # isn't an ancestor of the srcrev. f._changeid pl = f.parents() # Don't return renamed parents if we aren't following. if not follow: pl = [p for p in pl if p.path() == f.path()] # renamed filectx won't have a filelog yet, so set it # from the cache to save time for p in pl: if not '_filelog' in p.__dict__: p._filelog = _getflog(f._repo, p.path()) return pl # extracted from mercurial.context.basefilectx.annotate. slightly modified # so it takes a fctx instead of a pair of text and fctx. def _decorate(fctx): text = fctx.data() linecount = text.count(b'\n') if text and not text.endswith(b'\n'): linecount += 1 return ([(fctx, i) for i in pycompat.xrange(linecount)], text) # extracted from mercurial.context.basefilectx.annotate. slightly modified # so it takes an extra "blocks" parameter calculated elsewhere, instead of # calculating diff here. def _pair(parent, child, blocks): for (a1, a2, b1, b2), t in blocks: # Changed blocks ('!') or blocks made only of blank lines ('~') # belong to the child. if t == b'=': child[0][b1:b2] = parent[0][a1:a2] return child # like scmutil.revsingle, but with lru cache, so their states (like manifests) # could be reused _revsingle = util.lrucachefunc(scmutil.revsingle) def resolvefctx(repo, rev, path, resolverev=False, adjustctx=None): """(repo, str, str) -> fctx get the filectx object from repo, rev, path, in an efficient way. if resolverev is True, "rev" is a revision specified by the revset language, otherwise "rev" is a nodeid, or a revision number that can be consumed by repo.__getitem__. if adjustctx is not None, the returned fctx will point to a changeset that introduces the change (last modified the file). if adjustctx is 'linkrev', trust the linkrev and do not adjust it. this is noticeably faster for big repos but is incorrect for some cases. """ if resolverev and not isinstance(rev, int) and rev is not None: ctx = _revsingle(repo, rev) else: ctx = repo[rev] # If we don't need to adjust the linkrev, create the filectx using the # changectx instead of using ctx[path]. This means it already has the # changectx information, so blame -u will be able to look directly at the # commitctx object instead of having to resolve it by going through the # manifest. In a lazy-manifest world this can prevent us from downloading a # lot of data. if adjustctx is None: # ctx.rev() is None means it's the working copy, which is a special # case. if ctx.rev() is None: fctx = ctx[path] else: fctx = repo.filectx(path, changeid=ctx.rev()) else: fctx = ctx[path] if adjustctx == b'linkrev': introrev = fctx.linkrev() else: introrev = fctx.introrev() if introrev != ctx.rev(): fctx._changeid = introrev fctx._changectx = repo[introrev] return fctx # like mercurial.store.encodedir, but use linelog suffixes: .m, .l, .lock def encodedir(path): return ( path.replace(b'.hg/', b'.hg.hg/') .replace(b'.l/', b'.l.hg/') .replace(b'.m/', b'.m.hg/') .replace(b'.lock/', b'.lock.hg/') ) def hashdiffopts(diffopts): diffoptstr = stringutil.pprint( sorted((k, getattr(diffopts, k)) for k in mdiff.diffopts.defaults) ) return node.hex(hashutil.sha1(diffoptstr).digest())[:6] _defaultdiffopthash = hashdiffopts(mdiff.defaultopts) class annotateopts(object): """like mercurial.mdiff.diffopts, but is for annotate followrename: follow renames, like "hg annotate -f" followmerge: follow p2 of a merge changeset, otherwise p2 is ignored """ defaults = { b'diffopts': None, b'followrename': True, b'followmerge': True, } def __init__(self, **opts): opts = pycompat.byteskwargs(opts) for k, v in pycompat.iteritems(self.defaults): setattr(self, k, opts.get(k, v)) @util.propertycache def shortstr(self): """represent opts in a short string, suitable for a directory name""" result = b'' if not self.followrename: result += b'r0' if not self.followmerge: result += b'm0' if self.diffopts is not None: assert isinstance(self.diffopts, mdiff.diffopts) diffopthash = hashdiffopts(self.diffopts) if diffopthash != _defaultdiffopthash: result += b'i' + diffopthash return result or b'default' defaultopts = annotateopts() class _annotatecontext(object): """do not use this class directly as it does not use lock to protect writes. use "with annotatecontext(...)" instead. """ def __init__(self, repo, path, linelogpath, revmappath, opts): self.repo = repo self.ui = repo.ui self.path = path self.opts = opts self.linelogpath = linelogpath self.revmappath = revmappath self._linelog = None self._revmap = None self._node2path = {} # {str: str} @property def linelog(self): if self._linelog is None: if os.path.exists(self.linelogpath): with open(self.linelogpath, b'rb') as f: try: self._linelog = linelogmod.linelog.fromdata(f.read()) except linelogmod.LineLogError: self._linelog = linelogmod.linelog() else: self._linelog = linelogmod.linelog() return self._linelog @property def revmap(self): if self._revmap is None: self._revmap = revmapmod.revmap(self.revmappath) return self._revmap def close(self): if self._revmap is not None: self._revmap.flush() self._revmap = None if self._linelog is not None: with open(self.linelogpath, b'wb') as f: f.write(self._linelog.encode()) self._linelog = None __del__ = close def rebuild(self): """delete linelog and revmap, useful for rebuilding""" self.close() self._node2path.clear() _unlinkpaths([self.revmappath, self.linelogpath]) @property def lastnode(self): """return last node in revmap, or None if revmap is empty""" if self._revmap is None: # fast path, read revmap without loading its full content return revmapmod.getlastnode(self.revmappath) else: return self._revmap.rev2hsh(self._revmap.maxrev) def isuptodate(self, master, strict=True): """return True if the revmap / linelog is up-to-date, or the file does not exist in the master revision. False otherwise. it tries to be fast and could return false negatives, because of the use of linkrev instead of introrev. useful for both server and client to decide whether to update fastannotate cache or not. if strict is True, even if fctx exists in the revmap, but is not the last node, isuptodate will return False. it's good for performance - no expensive check was done. if strict is False, if fctx exists in the revmap, this function may return True. this is useful for the client to skip downloading the cache if the client's master is behind the server's. """ lastnode = self.lastnode try: f = self._resolvefctx(master, resolverev=True) # choose linkrev instead of introrev as the check is meant to be # *fast*. linknode = self.repo.changelog.node(f.linkrev()) if not strict and lastnode and linknode != lastnode: # check if f.node() is in the revmap. note: this loads the # revmap and can be slow. return self.revmap.hsh2rev(linknode) is not None # avoid resolving old manifest, or slow adjustlinkrev to be fast, # false negatives are acceptable in this case. return linknode == lastnode except LookupError: # master does not have the file, or the revmap is ahead return True def annotate(self, rev, master=None, showpath=False, showlines=False): """incrementally update the cache so it includes revisions in the main branch till 'master'. and run annotate on 'rev', which may or may not be included in the main branch. if master is None, do not update linelog. the first value returned is the annotate result, it is [(node, linenum)] by default. [(node, linenum, path)] if showpath is True. if showlines is True, a second value will be returned, it is a list of corresponding line contents. """ # the fast path test requires commit hash, convert rev number to hash, # so it may hit the fast path. note: in the "fctx" mode, the "annotate" # command could give us a revision number even if the user passes a # commit hash. if isinstance(rev, int): rev = node.hex(self.repo.changelog.node(rev)) # fast path: if rev is in the main branch already directly, revfctx = self.canannotatedirectly(rev) if directly: if self.ui.debugflag: self.ui.debug( b'fastannotate: %s: using fast path ' b'(resolved fctx: %s)\n' % ( self.path, stringutil.pprint(util.safehasattr(revfctx, b'node')), ) ) return self.annotatedirectly(revfctx, showpath, showlines) # resolve master masterfctx = None if master: try: masterfctx = self._resolvefctx( master, resolverev=True, adjustctx=True ) except LookupError: # master does not have the file pass else: if masterfctx in self.revmap: # no need to update linelog masterfctx = None # ... - @ <- rev (can be an arbitrary changeset, # / not necessarily a descendant # master -> o of master) # | # a merge -> o 'o': new changesets in the main branch # |\ '#': revisions in the main branch that # o * exist in linelog / revmap # | . '*': changesets in side branches, or # last master -> # . descendants of master # | . # # * joint: '#', and is a parent of a '*' # |/ # a joint -> # ^^^^ --- side branches # | # ^ --- main branch (in linelog) # these DFSes are similar to the traditional annotate algorithm. # we cannot really reuse the code for perf reason. # 1st DFS calculates merges, joint points, and needed. # "needed" is a simple reference counting dict to free items in # "hist", reducing its memory usage otherwise could be huge. initvisit = [revfctx] if masterfctx: if masterfctx.rev() is None: raise error.Abort( _(b'cannot update linelog to wdir()'), hint=_(b'set fastannotate.mainbranch'), ) initvisit.append(masterfctx) visit = initvisit[:] pcache = {} needed = {revfctx: 1} hist = {} # {fctx: ([(llrev or fctx, linenum)], text)} while visit: f = visit.pop() if f in pcache or f in hist: continue if f in self.revmap: # in the old main branch, it's a joint llrev = self.revmap.hsh2rev(f.node()) self.linelog.annotate(llrev) result = self.linelog.annotateresult hist[f] = (result, f.data()) continue pl = self._parentfunc(f) pcache[f] = pl for p in pl: needed[p] = needed.get(p, 0) + 1 if p not in pcache: visit.append(p) # 2nd (simple) DFS calculates new changesets in the main branch # ('o' nodes in # the above graph), so we know when to update linelog. newmainbranch = set() f = masterfctx while f and f not in self.revmap: newmainbranch.add(f) pl = pcache[f] if pl: f = pl[0] else: f = None break # f, if present, is the position where the last build stopped at, and # should be the "master" last time. check to see if we can continue # building the linelog incrementally. (we cannot if diverged) if masterfctx is not None: self._checklastmasterhead(f) if self.ui.debugflag: if newmainbranch: self.ui.debug( b'fastannotate: %s: %d new changesets in the main' b' branch\n' % (self.path, len(newmainbranch)) ) elif not hist: # no joints, no updates self.ui.debug( b'fastannotate: %s: linelog cannot help in ' b'annotating this revision\n' % self.path ) # prepare annotateresult so we can update linelog incrementally self.linelog.annotate(self.linelog.maxrev) # 3rd DFS does the actual annotate visit = initvisit[:] progress = self.ui.makeprogress( b'building cache', total=len(newmainbranch) ) while visit: f = visit[-1] if f in hist: visit.pop() continue ready = True pl = pcache[f] for p in pl: if p not in hist: ready = False visit.append(p) if not ready: continue visit.pop() blocks = None # mdiff blocks, used for appending linelog ismainbranch = f in newmainbranch # curr is the same as the traditional annotate algorithm, # if we only care about linear history (do not follow merge), # then curr is not actually used. assert f not in hist curr = _decorate(f) for i, p in enumerate(pl): bs = list(self._diffblocks(hist[p][1], curr[1])) if i == 0 and ismainbranch: blocks = bs curr = _pair(hist[p], curr, bs) if needed[p] == 1: del hist[p] del needed[p] else: needed[p] -= 1 hist[f] = curr del pcache[f] if ismainbranch: # need to write to linelog progress.increment() bannotated = None if len(pl) == 2 and self.opts.followmerge: # merge bannotated = curr[0] if blocks is None: # no parents, add an empty one blocks = list(self._diffblocks(b'', curr[1])) self._appendrev(f, blocks, bannotated) elif showpath: # not append linelog, but we need to record path self._node2path[f.node()] = f.path() progress.complete() result = [ ((self.revmap.rev2hsh(fr) if isinstance(fr, int) else fr.node()), l) for fr, l in hist[revfctx][0] ] # [(node, linenumber)] return self._refineannotateresult(result, revfctx, showpath, showlines) def canannotatedirectly(self, rev): """(str) -> bool, fctx or node. return (True, f) if we can annotate without updating the linelog, pass f to annotatedirectly. return (False, f) if we need extra calculation. f is the fctx resolved from rev. """ result = True f = None if not isinstance(rev, int) and rev is not None: hsh = {20: bytes, 40: node.bin}.get(len(rev), lambda x: None)(rev) if hsh is not None and (hsh, self.path) in self.revmap: f = hsh if f is None: adjustctx = b'linkrev' if self._perfhack else True f = self._resolvefctx(rev, adjustctx=adjustctx, resolverev=True) result = f in self.revmap if not result and self._perfhack: # redo the resolution without perfhack - as we are going to # do write operations, we need a correct fctx. f = self._resolvefctx(rev, adjustctx=True, resolverev=True) return result, f def annotatealllines(self, rev, showpath=False, showlines=False): """(rev : str) -> [(node : str, linenum : int, path : str)] the result has the same format with annotate, but include all (including deleted) lines up to rev. call this after calling annotate(rev, ...) for better performance and accuracy. """ revfctx = self._resolvefctx(rev, resolverev=True, adjustctx=True) # find a chain from rev to anything in the mainbranch if revfctx not in self.revmap: chain = [revfctx] a = b'' while True: f = chain[-1] pl = self._parentfunc(f) if not pl: break if pl[0] in self.revmap: a = pl[0].data() break chain.append(pl[0]) # both self.linelog and self.revmap is backed by filesystem. now # we want to modify them but do not want to write changes back to # files. so we create in-memory objects and copy them. it's like # a "fork". linelog = linelogmod.linelog() linelog.copyfrom(self.linelog) linelog.annotate(linelog.maxrev) revmap = revmapmod.revmap() revmap.copyfrom(self.revmap) for f in reversed(chain): b = f.data() blocks = list(self._diffblocks(a, b)) self._doappendrev(linelog, revmap, f, blocks) a = b else: # fastpath: use existing linelog, revmap as we don't write to them linelog = self.linelog revmap = self.revmap lines = linelog.getalllines() hsh = revfctx.node() llrev = revmap.hsh2rev(hsh) result = [(revmap.rev2hsh(r), l) for r, l in lines if r <= llrev] # cannot use _refineannotateresult since we need custom logic for # resolving line contents if showpath: result = self._addpathtoresult(result, revmap) if showlines: linecontents = self._resolvelines(result, revmap, linelog) result = (result, linecontents) return result def _resolvelines(self, annotateresult, revmap, linelog): """(annotateresult) -> [line]. designed for annotatealllines. this is probably the most inefficient code in the whole fastannotate directory. but we have made a decision that the linelog does not store line contents. so getting them requires random accesses to the revlog data, since they can be many, it can be very slow. """ # [llrev] revs = [revmap.hsh2rev(l[0]) for l in annotateresult] result = [None] * len(annotateresult) # {(rev, linenum): [lineindex]} key2idxs = collections.defaultdict(list) for i in pycompat.xrange(len(result)): key2idxs[(revs[i], annotateresult[i][1])].append(i) while key2idxs: # find an unresolved line and its linelog rev to annotate hsh = None try: for (rev, _linenum), idxs in pycompat.iteritems(key2idxs): if revmap.rev2flag(rev) & revmapmod.sidebranchflag: continue hsh = annotateresult[idxs[0]][0] break except StopIteration: # no more unresolved lines return result if hsh is None: # the remaining key2idxs are not in main branch, resolving them # using the hard way... revlines = {} for (rev, linenum), idxs in pycompat.iteritems(key2idxs): if rev not in revlines: hsh = annotateresult[idxs[0]][0] if self.ui.debugflag: self.ui.debug( b'fastannotate: reading %s line #%d ' b'to resolve lines %r\n' % (node.short(hsh), linenum, idxs) ) fctx = self._resolvefctx(hsh, revmap.rev2path(rev)) lines = mdiff.splitnewlines(fctx.data()) revlines[rev] = lines for idx in idxs: result[idx] = revlines[rev][linenum] assert all(x is not None for x in result) return result # run the annotate and the lines should match to the file content self.ui.debug( b'fastannotate: annotate %s to resolve lines\n' % node.short(hsh) ) linelog.annotate(rev) fctx = self._resolvefctx(hsh, revmap.rev2path(rev)) annotated = linelog.annotateresult lines = mdiff.splitnewlines(fctx.data()) if len(lines) != len(annotated): raise faerror.CorruptedFileError(b'unexpected annotated lines') # resolve lines from the annotate result for i, line in enumerate(lines): k = annotated[i] if k in key2idxs: for idx in key2idxs[k]: result[idx] = line del key2idxs[k] return result def annotatedirectly(self, f, showpath, showlines): """like annotate, but when we know that f is in linelog. f can be either a 20-char str (node) or a fctx. this is for perf - in the best case, the user provides a node and we don't need to read the filelog or construct any filecontext. """ if isinstance(f, bytes): hsh = f else: hsh = f.node() llrev = self.revmap.hsh2rev(hsh) if not llrev: raise faerror.CorruptedFileError( b'%s is not in revmap' % node.hex(hsh) ) if (self.revmap.rev2flag(llrev) & revmapmod.sidebranchflag) != 0: raise faerror.CorruptedFileError( b'%s is not in revmap mainbranch' % node.hex(hsh) ) self.linelog.annotate(llrev) result = [ (self.revmap.rev2hsh(r), l) for r, l in self.linelog.annotateresult ] return self._refineannotateresult(result, f, showpath, showlines) def _refineannotateresult(self, result, f, showpath, showlines): """add the missing path or line contents, they can be expensive. f could be either node or fctx. """ if showpath: result = self._addpathtoresult(result) if showlines: if isinstance(f, bytes): # f: node or fctx llrev = self.revmap.hsh2rev(f) fctx = self._resolvefctx(f, self.revmap.rev2path(llrev)) else: fctx = f lines = mdiff.splitnewlines(fctx.data()) if len(lines) != len(result): # linelog is probably corrupted raise faerror.CorruptedFileError() result = (result, lines) return result def _appendrev(self, fctx, blocks, bannotated=None): self._doappendrev(self.linelog, self.revmap, fctx, blocks, bannotated) def _diffblocks(self, a, b): return mdiff.allblocks(a, b, self.opts.diffopts) @staticmethod def _doappendrev(linelog, revmap, fctx, blocks, bannotated=None): """append a revision to linelog and revmap""" def getllrev(f): """(fctx) -> int""" # f should not be a linelog revision if isinstance(f, int): raise error.ProgrammingError(b'f should not be an int') # f is a fctx, allocate linelog rev on demand hsh = f.node() rev = revmap.hsh2rev(hsh) if rev is None: rev = revmap.append(hsh, sidebranch=True, path=f.path()) return rev # append sidebranch revisions to revmap siderevs = [] siderevmap = {} # node: int if bannotated is not None: for (a1, a2, b1, b2), op in blocks: if op != b'=': # f could be either linelong rev, or fctx. siderevs += [ f for f, l in bannotated[b1:b2] if not isinstance(f, int) ] siderevs = set(siderevs) if fctx in siderevs: # mainnode must be appended seperately siderevs.remove(fctx) for f in siderevs: siderevmap[f] = getllrev(f) # the changeset in the main branch, could be a merge llrev = revmap.append(fctx.node(), path=fctx.path()) siderevmap[fctx] = llrev for (a1, a2, b1, b2), op in reversed(blocks): if op == b'=': continue if bannotated is None: linelog.replacelines(llrev, a1, a2, b1, b2) else: blines = [ ((r if isinstance(r, int) else siderevmap[r]), l) for r, l in bannotated[b1:b2] ] linelog.replacelines_vec(llrev, a1, a2, blines) def _addpathtoresult(self, annotateresult, revmap=None): """(revmap, [(node, linenum)]) -> [(node, linenum, path)]""" if revmap is None: revmap = self.revmap def _getpath(nodeid): path = self._node2path.get(nodeid) if path is None: path = revmap.rev2path(revmap.hsh2rev(nodeid)) self._node2path[nodeid] = path return path return [(n, l, _getpath(n)) for n, l in annotateresult] def _checklastmasterhead(self, fctx): """check if fctx is the master's head last time, raise if not""" if fctx is None: llrev = 0 else: llrev = self.revmap.hsh2rev(fctx.node()) if not llrev: raise faerror.CannotReuseError() if self.linelog.maxrev != llrev: raise faerror.CannotReuseError() @util.propertycache def _parentfunc(self): """-> (fctx) -> [fctx]""" followrename = self.opts.followrename followmerge = self.opts.followmerge def parents(f): pl = _parents(f, follow=followrename) if not followmerge: pl = pl[:1] return pl return parents @util.propertycache def _perfhack(self): return self.ui.configbool(b'fastannotate', b'perfhack') def _resolvefctx(self, rev, path=None, **kwds): return resolvefctx(self.repo, rev, (path or self.path), **kwds) def _unlinkpaths(paths): """silent, best-effort unlink""" for path in paths: try: util.unlink(path) except OSError: pass class pathhelper(object): """helper for getting paths for lockfile, linelog and revmap""" def __init__(self, repo, path, opts=defaultopts): # different options use different directories self._vfspath = os.path.join( b'fastannotate', opts.shortstr, encodedir(path) ) self._repo = repo @property def dirname(self): return os.path.dirname(self._repo.vfs.join(self._vfspath)) @property def linelogpath(self): return self._repo.vfs.join(self._vfspath + b'.l') def lock(self): return lockmod.lock(self._repo.vfs, self._vfspath + b'.lock') @property def revmappath(self): return self._repo.vfs.join(self._vfspath + b'.m') @contextlib.contextmanager def annotatecontext(repo, path, opts=defaultopts, rebuild=False): """context needed to perform (fast) annotate on a file an annotatecontext of a single file consists of two structures: the linelog and the revmap. this function takes care of locking. only 1 process is allowed to write that file's linelog and revmap at a time. when something goes wrong, this function will assume the linelog and the revmap are in a bad state, and remove them from disk. use this function in the following way: with annotatecontext(...) as actx: actx. .... """ helper = pathhelper(repo, path, opts) util.makedirs(helper.dirname) revmappath = helper.revmappath linelogpath = helper.linelogpath actx = None try: with helper.lock(): actx = _annotatecontext(repo, path, linelogpath, revmappath, opts) if rebuild: actx.rebuild() yield actx except Exception: if actx is not None: actx.rebuild() repo.ui.debug(b'fastannotate: %s: cache broken and deleted\n' % path) raise finally: if actx is not None: actx.close() def fctxannotatecontext(fctx, follow=True, diffopts=None, rebuild=False): """like annotatecontext but get the context from a fctx. convenient when used in fctx.annotate """ repo = fctx._repo path = fctx._path if repo.ui.configbool(b'fastannotate', b'forcefollow', True): follow = True aopts = annotateopts(diffopts=diffopts, followrename=follow) return annotatecontext(repo, path, aopts, rebuild)