##// END OF EJS Templates
setup: use changes since latest tag instead of just distance...
setup: use changes since latest tag instead of just distance For a Mercurial built on the merge from stable into default right after 3.2.2 was released -- 19ebd2f88fc7 -- the version number produced was "3.2.2+4". This is potentially misleading, since in reality the built Mercurial includes many more changes compared to 3.2.2. Change the versioning scheme so that we take into consideration all the changes present in the current revision that aren't present in the latest tag. For 19ebd2f88fc7 the new versioning scheme results in a version number of "3.2.2+256". This gives users a much better idea of how many changes have actually happened since the latest release. Since changessincelatesttag is always greater than or equal to the latesttagdistance, this will produce version numbers that are always greater than or equal to the old scheme. Thus there's minimal compatibility risk.

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diffhelpers.py
60 lines | 1.5 KiB | text/x-python | PythonLexer
# diffhelpers.py - pure Python implementation of diffhelpers.c
#
# Copyright 2009 Matt Mackall <mpm@selenic.com> and others
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
def addlines(fp, hunk, lena, lenb, a, b):
while True:
todoa = lena - len(a)
todob = lenb - len(b)
num = max(todoa, todob)
if num == 0:
break
for i in xrange(num):
s = fp.readline()
c = s[0]
if s == "\\ No newline at end of file\n":
fix_newline(hunk, a, b)
continue
if c == "\n":
# Some patches may be missing the control char
# on empty lines. Supply a leading space.
s = " \n"
hunk.append(s)
if c == "+":
b.append(s[1:])
elif c == "-":
a.append(s)
else:
b.append(s[1:])
a.append(s)
return 0
def fix_newline(hunk, a, b):
l = hunk[-1]
# tolerate CRLF in last line
if l.endswith('\r\n'):
hline = l[:-2]
else:
hline = l[:-1]
c = hline[0]
if c in " +":
b[-1] = hline[1:]
if c in " -":
a[-1] = hline
hunk[-1] = hline
return 0
def testhunk(a, b, bstart):
alen = len(a)
blen = len(b)
if alen > blen - bstart:
return -1
for i in xrange(alen):
if a[i][1:] != b[i + bstart]:
return -1
return 0