Mercurial > hg
view mercurial/filelog.py @ 1679:675ca845c2f8
Merge with upstream
author | Benoit Boissinot <benoit.boissinot@ens-lyon.org> |
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date | Thu, 15 Dec 2005 18:04:39 +0100 |
parents | b345cc4c22c0 |
children | c21b54f7f7b8 |
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# filelog.py - file history class for mercurial # # Copyright 2005 Matt Mackall <mpm@selenic.com> # # This software may be used and distributed according to the terms # of the GNU General Public License, incorporated herein by reference. import os from revlog import * from demandload import * demandload(globals(), "bdiff") class filelog(revlog): def __init__(self, opener, path): revlog.__init__(self, opener, os.path.join("data", self.encodedir(path + ".i")), os.path.join("data", self.encodedir(path + ".d"))) # This avoids a collision between a file named foo and a dir named # foo.i or foo.d def encodedir(self, path): return (path .replace(".hg/", ".hg.hg/") .replace(".i/", ".i.hg/") .replace(".d/", ".d.hg/")) def decodedir(self, path): return (path .replace(".d.hg/", ".d/") .replace(".i.hg/", ".i/") .replace(".hg.hg/", ".hg/")) def read(self, node): t = self.revision(node) if not t.startswith('\1\n'): return t s = t.find('\1\n', 2) return t[s+2:] def readmeta(self, node): t = self.revision(node) if not t.startswith('\1\n'): return {} s = t.find('\1\n', 2) mt = t[2:s] m = {} for l in mt.splitlines(): k, v = l.split(": ", 1) m[k] = v return m def add(self, text, meta, transaction, link, p1=None, p2=None): if meta or text.startswith('\1\n'): mt = "" if meta: mt = [ "%s: %s\n" % (k, v) for k,v in meta.items() ] text = "\1\n%s\1\n%s" % ("".join(mt), text) return self.addrevision(text, transaction, link, p1, p2) def renamed(self, node): if 0 and self.parents(node)[0] != nullid: # XXX return False m = self.readmeta(node) if m and m.has_key("copy"): return (m["copy"], bin(m["copyrev"])) return False def annotate(self, node): def decorate(text, rev): return ([rev] * len(text.splitlines()), text) def pair(parent, child): for a1, a2, b1, b2 in bdiff.blocks(parent[1], child[1]): child[0][b1:b2] = parent[0][a1:a2] return child # find all ancestors needed = {node:1} visit = [node] while visit: n = visit.pop(0) for p in self.parents(n): if p not in needed: needed[p] = 1 visit.append(p) else: # count how many times we'll use this needed[p] += 1 # sort by revision which is a topological order visit = [ (self.rev(n), n) for n in needed.keys() ] visit.sort() hist = {} for r,n in visit: curr = decorate(self.read(n), self.linkrev(n)) for p in self.parents(n): if p != nullid: curr = pair(hist[p], curr) # trim the history of unneeded revs needed[p] -= 1 if not needed[p]: del hist[p] hist[n] = curr return zip(hist[n][0], hist[n][1].splitlines(1))