#!/usr/bin/python
#
# Copyright (C) 2005 Fredrik Kuivinen
#
import sys
sys.path.append('''@@GIT_PYTHON_PATH@@''')
import math, random, os, re, signal, tempfile, stat, errno, traceback
from heapq import heappush, heappop
from sets import Set
from gitMergeCommon import *
outputIndent = 0
def output(*args):
sys.stdout.write(' '*outputIndent)
printList(args)
originalIndexFile = os.environ.get('GIT_INDEX_FILE',
os.environ.get('GIT_DIR', '.git') + '/index')
temporaryIndexFile = os.environ.get('GIT_DIR', '.git') + \
'/merge-recursive-tmp-index'
def setupIndex(temporary):
try:
os.unlink(temporaryIndexFile)
except OSError:
pass
if temporary:
newIndex = temporaryIndexFile
else:
newIndex = originalIndexFile
os.environ['GIT_INDEX_FILE'] = newIndex
# This is a global variable which is used in a number of places but
# only written to in the 'merge' function.
# cacheOnly == True => Don't leave any non-stage 0 entries in the cache and
# don't update the working directory.
# False => Leave unmerged entries in the cache and update
# the working directory.
cacheOnly = False
# The entry point to the merge code
# ---------------------------------
def merge(h1, h2, branch1Name, branch2Name, graph, callDepth=0, ancestor=None):
'''Merge the commits h1 and h2, return the resulting virtual
commit object and a flag indicating the cleanness of the merge.'''
assert(isinstance(h1, Commit) and isinstance(h2, Commit))
global outputIndent
output('Merging:')
output(h1)
output(h2)
sys.stdout.flush()
if ancestor:
ca = [ancestor]
else:
assert(isinstance(graph, Graph))
ca = getCommonAncestors(graph, h1, h2)
output('found', len(ca), 'common ancestor(s):')
for x in ca:
output(x)
sys.stdout.flush()
mergedCA = ca[0]
for h in ca[1:]:
outputIndent = callDepth+1
[mergedCA, dummy] = merge(mergedCA, h,
'Temporary merge branch 1',
'Temporary merge branch 2',
graph, callDepth+1)
outputIndent = callDepth
assert(isinstance(mergedCA, Commit))
global cacheOnly
if callDepth == 0:
setupIndex(False)
cacheOnly = False
else:
setupIndex(True)
runProgram(['git-read-tree', h1.tree()])
cacheOnly = True
[shaRes, clean] = mergeTrees(h1.tree(), h2.tree(), mergedCA.tree(),
branch1Name, branch2Name)
if graph and (clean or cacheOnly):
res = Commit(None, [h1, h2], tree=shaRes)
graph.addNode(res)
else:
res = None
return [res, clean]
getFilesRE = re.compile(r'^([0-7]+) (\S+) ([0-9a-f]{40})\t(.*)$', re.S)
def getFilesAndDirs(tree):
files = Set()
dirs = Set()
out = runProgram(['git-ls-tree', '-r', '-z', '-t', tree])
for l in out.split('\0'):
m = getFilesRE.match(l)
if m:
if m.group(2) == 'tree':
dirs.add(m.group(4))
elif m.group(2) == 'blob':
files.add(m.group(4))
return [files, dirs]
# Those two global variables are used in a number of places but only
# written to in 'mergeTrees' and 'uniquePath'. They keep track of
# every file and directory in the two branches that are about to be
# merged.
currentFileSet = None
currentDirectorySet = None
def mergeTrees(head, merge, common, branch1Name, branch2Name):
'''Merge the trees 'head' and 'merge' with the common ancestor
'common'. The name of the head branch is 'branch1Name' and the name of
the merge branch is 'branch2Name'. Return a tuple (tree, cleanMerge)
where tree is the resulting tree and cleanMerge is True iff the
merge was clean.'''
assert(isSha(head) and isSha(merge) and isSha(common))
if common == merge:
output('Already uptodate!')
return [head, True]
if cacheOnly:
updateArg = '-i'
else:
updateArg = '-u'
[out, code] = runProgram(['git-read-tree', updateArg, '-m',
common, head, merge], returnCode = True)
if code != 0:
die('git-read-tree:', out)
[tree, code] = runProgram('git-write-tree', returnCode=True)
tree = tree.rstrip()
if code != 0:
global currentFileSet, currentDirectorySet
[currentFileSet, currentDirectorySet] = getFilesAndDirs(head)
[filesM, dirsM] = getFilesAndDirs(merge)
currentFileSet.union_update(filesM)
currentDirectorySet.union_update(dirsM)
entries = unmergedCacheEntries()
renamesHead = getRenames(head, common, head, merge, entries)
renamesMerge = getRenames(merge, common, head, merge, entries)
cleanMerge = processRenames(renamesHead, renamesMerge,
branch1Name, branch2Name)
for entry in entries:
if entry.processed:
continue
if not processEntry(entry, branch1Name, branch2Name):
cleanMerge = False
if cleanMerge or cacheOnly:
tree = runProgram('git-write-tree').rstrip()
else:
tree = None
else:
cleanMerge = True
return [tree, cleanMerge]
# Low level file merging, update and removal
# ------------------------------------------
def mergeFile(oPath, oSha, oMode, aPath, aSha, aMode, bPath, bSha, bMode,
branch1Name, branch2Name):
merge = False
clean = True
if stat.S_IFMT(aMode) != stat.S_IFMT(bMode):
clean = False
if stat.S_ISREG(aMode):
mode = aMode
sha = aSha
else:
mode = bMode
sha = bSha
else:
if aSha != oSha and bSha != oSha:
merge = True
if aMode == oMode:
mode = bMode
else:
mode = aMode
if aSha == oSha:
sha = bSha
elif bSha == oSha:
sha = aSha
elif stat.S_ISREG(aMode):
assert(stat.S_ISREG(bMode))
orig = runProgram(['git-unpack-file', oSha]).rstrip()
src1 = runProgram(['git-unpack-file', aSha]).rstrip()
src2 = runProgram(['git-unpack-file', bSha]).rstrip()
try:
[out, code] = runProgram(['merge',
'-L', branch1Name + '/' + aPath,
'-L', 'orig/' + oPath,
'-L', branch2Name + '/' + bPath,
src1, orig, src2], returnCode=True)
except ProgramError, e:
print >>sys.stderr, e
die("Failed to execute 'merge'. merge(1) is used as the "
"file-level merge tool. Is 'merge' in your path?")
sha = runProgram(['git-hash-object', '-t', 'blob', '-w',
src1]).rstrip()
os.unlink(orig)
os.unlink(src1)
os.unlink(src2)
clean = (code == 0)
else:
assert(stat.S_ISLNK(aMode) and stat.S_ISLNK(bMode))
sha = aSha
if aSha != bSha:
clean = False
return [sha, mode, clean, merge]
def updateFile(clean, sha, mode, path):
updateCache = cacheOnly or clean
updateWd = not cacheOnly
return updateFileExt(sha, mode, path, updateCache, updateWd)
def updateFileExt(sha, mode, path, updateCache, updateWd):
if cacheOnly:
updateWd = False
if updateWd:
pathComponents = path.split('/')
for x in xrange(1, len(pathComponents)):
p = '/'.join(pathComponents[0:x])
try:
createDir = not stat.S_ISDIR(os.lstat(p).st_mode)
except OSError:
createDir = True
if createDir:
try:
os.mkdir(p)
except OSError, e:
die("Couldn't create directory", p, e.strerror)
prog = ['git-cat-file', 'blob', sha]
if stat.S_ISREG(mode):
try:
os.unlink(path)
except OSError:
pass
if mode & 0100:
mode = 0777
else:
mode = 0666
fd = os.open(path, os.O_WRONLY | os.O_TRUNC | os.O_CREAT, mode)
proc = subprocess.Popen(prog, stdout=fd)
proc.wait()
os.close(fd)
elif stat.S_ISLNK(mode):
linkTarget = runProgram(prog)
os.symlink(linkTarget, path)
else:
assert(False)
if updateWd and updateCache:
runProgram(['git-update-index', '--add', '--', path])
elif updateCache:
runProgram(['git-update-index', '--add', '--cacheinfo',
'0%o' % mode, sha, path])
def setIndexStages(path,
oSHA1, oMode,
aSHA1, aMode,
bSHA1, bMode,
clear=True):
istring = []
if clear:
istring.append("0 " + ("0" * 40) + "\t" + path + "\0")
if oMode:
istring.append("%o %s %d\t%s\0" % (oMode, oSHA1, 1, path))
if aMode:
istring.append("%o %s %d\t%s\0" % (aMode, aSHA1, 2, path))
if bMode:
istring.append("%o %s %d\t%s\0" % (bMode, bSHA1, 3, path))
runProgram(['git-update-index', '-z', '--index-info'],
input="".join(istring))
def removeFile(clean, path):
updateCache = cacheOnly or clean
updateWd = not cacheOnly
if updateCache:
runProgram(['git-update-index', '--force-remove', '--', path])
if updateWd:
try:
os.unlink(path)
except OSError, e:
if e.errno != errno.ENOENT and e.errno != errno.EISDIR:
raise
try:
os.removedirs(os.path.dirname(path))
except OSError:
pass
def uniquePath(path, branch):
def fileExists(path):
try:
os.lstat(path)
return True
except OSError, e:
if e.errno == errno.ENOENT:
return False
else:
raise
branch = branch.replace('/', '_')
newPath = path + '~' + branch
suffix = 0
while newPath in currentFileSet or \
newPath in currentDirectorySet or \
fileExists(newPath):
suffix += 1
newPath = path + '~' + branch + '_' + str(suffix)
currentFileSet.add(newPath)
return newPath
# Cache entry management
# ----------------------
class CacheEntry:
def __init__(self, path):
class Stage:
def __init__(self):
self.sha1 = None
self.mode = None
# Used for debugging only
def __str__(self):
if self.mode != None:
m = '0%o' % self.mode
else:
m = 'None'
if self.sha1:
sha1 = self.sha1
else:
sha1 = 'None'
return 'sha1: ' + sha1 + ' mode: ' + m
self.stages = [Stage(), Stage(), Stage(), Stage()]
self.path = path
self.processed = False
def __str__(self):
return 'path: ' + self.path + ' stages: ' + repr([str(x) for x in self.stages])
class CacheEntryContainer:
def __init__(self):
self.entries = {}
def add(self, entry):
self.entries[entry.path] = entry
def get(self, path):
return self.entries.get(path)
def __iter__(self):
return self.entries.itervalues()
unmergedRE = re.compile(r'^([0-7]+) ([0-9a-f]{40}) ([1-3])\t(.*)$', re.S)
def unmergedCacheEntries():
'''Create a dictionary mapping file names to CacheEntry
objects. The dictionary contains one entry for every path with a
non-zero stage entry.'''
lines = runProgram(['git-ls-files', '-z', '--unmerged']).split('\0')
lines.pop()
res = CacheEntryContainer()
for l in lines:
m = unmergedRE.match(l)
if m:
mode = int(m.group(1), 8)
sha1 = m.group(2)
stage = int(m.group(3))
path = m.group(4)
e = res.get(path)
if not e:
e = CacheEntry(path)
res.add(e)
e.stages[stage].mode = mode
e.stages[stage].sha1 = sha1
else:
die('Error: Merge program failed: Unexpected output from',
'git-ls-files:', l)
return res
lsTreeRE = re.compile(r'^([0-7]+) (\S+) ([0-9a-f]{40})\t(.*)\n$', re.S)
def getCacheEntry(path, origTree, aTree, bTree):
'''Returns a CacheEntry object which doesn't have to correspond to
a real cache entry in Git's index.'''
def parse(out):
if out == '':
return [None, None]
else:
m = lsTreeRE.match(out)
if not m:
die('Unexpected output from git-ls-tree:', out)
elif m.group(2) == 'blob':
return [m.group(3), int(m.group(1), 8)]
else:
return [None, None]
res = CacheEntry(path)
[oSha, oMode] = parse(runProgram(['git-ls-tree', origTree, '--', path]))
[aSha, aMode] = parse(runProgram(['git-ls-tree', aTree, '--', path]))
[bSha, bMode] = parse(runProgram(['git-ls-tree', bTree, '--', path]))
res.stages[1].sha1 = oSha
res.stages[1].mode = oMode
res.stages[2].sha1 = aSha
res.stages[2].mode = aMode
res.stages[3].sha1 = bSha
res.stages[3].mode = bMode
return res
# Rename detection and handling
# -----------------------------
class RenameEntry:
def __init__(self,
src, srcSha, srcMode, srcCacheEntry,
dst, dstSha, dstMode, dstCacheEntry,
score):
self.srcName = src
self.srcSha = srcSha
self.srcMode = srcMode
self.srcCacheEntry = srcCacheEntry
self.dstName = dst
self.dstSha = dstSha
self.dstMode = dstMode
self.dstCacheEntry = dstCacheEntry
self.score = score
self.processed = False
class RenameEntryContainer:
def __init__(self):
self.entriesSrc = {}
self.entriesDst = {}
def add(self, entry):
self.entriesSrc[entry.srcName] = entry
self.entriesDst[entry.dstName] = entry
def getSrc(self, path):
return self.entriesSrc.get(path)
def getDst(self, path):
return self.entriesDst.get(path)
def __iter__(self):
return self.entriesSrc.itervalues()
parseDiffRenamesRE = re.compile('^:([0-7]+) ([0-7]+) ([0-9a-f]{40}) ([0-9a-f]{40}) R([0-9]*)$')
def getRenames(tree, oTree, aTree, bTree, cacheEntries):
'''Get information of all renames which occured between 'oTree' and
'tree'. We need the three trees in the merge ('oTree', 'aTree' and
'bTree') to be able to associate the correct cache entries with
the rename information. 'tree' is always equal to either aTree or bTree.'''
assert(tree == aTree or tree == bTree)
inp = runProgram(['git-diff-tree', '-M', '--diff-filter=R', '-r',
'-z', oTree, tree])
ret = RenameEntryContainer()
try:
recs = inp.split("\0")
recs.pop() # remove last entry (which is '')
it = recs.__iter__()
while True:
rec = it.next()
m = parseDiffRenamesRE.match(rec)
if not m:
die('Unexpected output from git-diff-tree:', rec)
srcMode = int(m.group(1), 8)
dstMode = int(m.group(2), 8)
srcSha = m.group(3)
dstSha = m.group(4)
score = m.group(5)
src = it.next()
dst = it.next()
srcCacheEntry = cacheEntries.get(src)
if not srcCacheEntry:
srcCacheEntry = getCacheEntry(src, oTree, aTree, bTree)
cacheEntries.add(srcCacheEntry)
dstCacheEntry = cacheEntries.get(dst)
if not dstCacheEntry:
dstCacheEntry = getCacheEntry(dst, oTree, aTree, bTree)
cacheEntries.add(dstCacheEntry)
ret.add(RenameEntry(src, srcSha, srcMode, srcCacheEntry,
dst, dstSha, dstMode, dstCacheEntry,
score))
except StopIteration:
pass
return ret
def fmtRename(src, dst):
srcPath = src.split('/')
dstPath = dst.split('/')
path = []
endIndex = min(len(srcPath), len(dstPath)) - 1
for x in range(0, endIndex):
if srcPath[x] == dstPath[x]:
path.append(srcPath[x])
else:
endIndex = x
break
if len(path) > 0:
return '/'.join(path) + \
'/{' + '/'.join(srcPath[endIndex:]) + ' => ' + \
'/'.join(dstPath[endIndex:]) + '}'
else:
return src + ' => ' + dst
def processRenames(renamesA, renamesB, branchNameA, branchNameB):
srcNames = Set()
for x in renamesA:
srcNames.add(x.srcName)
for x in renamesB:
srcNames.add(x.srcName)
cleanMerge = True
for path in srcNames:
if renamesA.getSrc(path):
renames1 = renamesA
renames2 = renamesB
branchName1 = branchNameA
branchName2 = branchNameB
else:
renames1 = renamesB
renames2 = renamesA
branchName1 = branchNameB
branchName2 = branchNameA
ren1 = renames1.getSrc(path)
ren2 = renames2.getSrc(path)
ren1.dstCacheEntry.processed = True
ren1.srcCacheEntry.processed = True
if ren1.processed:
continue
ren1.processed = True
if ren2:
# Renamed in 1 and renamed in 2
assert(ren1.srcName == ren2.srcName)
ren2.dstCacheEntry.processed = True
ren2.processed = True
if ren1.dstName != ren2.dstName:
output('CONFLICT (rename/rename): Rename',
fmtRename(path, ren1.dstName), 'in branch', branchName1,
'rename', fmtRename(path, ren2.dstName), 'in',
branchName2)
cleanMerge = False
if ren1.dstName in currentDirectorySet:
dstName1 = uniquePath(ren1.dstName, branchName1)
output(ren1.dstName, 'is a directory in', branchName2,
'adding as', dstName1, 'instead.')
removeFile(False, ren1.dstName)
else:
dstName1 = ren1.dstName
if ren2.dstName in currentDirectorySet:
dstName2 = uniquePath(ren2.dstName, branchName2)
output(ren2.dstName, 'is a directory in', branchName1,
'adding as', dstName2, 'instead.')
removeFile(False, ren2.dstName)
else:
dstName2 = ren2.dstName
setIndexStages(dstName1,
None, None,
ren1.dstSha, ren1.dstMode,
None, None)
setIndexStages(dstName2,
None, None,
None, None,
ren2.dstSha, ren2.dstMode)
else:
removeFile(True, ren1.srcName)
[resSha, resMode, clean, merge] = \
mergeFile(ren1.srcName, ren1.srcSha, ren1.srcMode,
ren1.dstName, ren1.dstSha, ren1.dstMode,
ren2.dstName, ren2.dstSha, ren2.dstMode,
branchName1, branchName2)
if merge or not clean:
output('Renaming', fmtRename(path, ren1.dstName))
if merge:
output('Auto-merging', ren1.dstName)
if not clean:
output('CONFLICT (content): merge conflict in',
ren1.dstName)
cleanMerge = False
if not cacheOnly:
setIndexStages(ren1.dstName,
ren1.srcSha, ren1.srcMode,
ren1.dstSha, ren1.dstMode,
ren2.dstSha, ren2.dstMode)
updateFile(clean, resSha, resMode, ren1.dstName)
else:
removeFile(True, ren1.srcName)
# Renamed in 1, maybe changed in 2
if renamesA == renames1:
stage = 3
else:
stage = 2
srcShaOtherBranch = ren1.srcCacheEntry.stages[stage].sha1
srcModeOtherBranch = ren1.srcCacheEntry.stages[stage].mode
dstShaOtherBranch = ren1.dstCacheEntry.stages[stage].sha1
dstModeOtherBranch = ren1.dstCacheEntry.stages[stage].mode
tryMerge = False
if ren1.dstName in currentDirectorySet:
newPath = uniquePath(ren1.dstName, branchName1)
output('CONFLICT (rename/directory): Rename',
fmtRename(ren1.srcName, ren1.dstName), 'in', branchName1,
'directory', ren1.dstName, 'added in', branchName2)
output('Renaming', ren1.srcName, 'to', newPath, 'instead')
cleanMerge = False
removeFile(False, ren1.dstName)
updateFile(False, ren1.dstSha, ren1.dstMode, newPath)
elif srcShaOtherBranch == None:
output('CONFLICT (rename/delete): Rename',
fmtRename(ren1.srcName, ren1.dstName), 'in',
branchName1, 'and deleted in', branchName2)
cleanMerge = False
updateFile(False, ren1.dstSha, ren1.dstMode, ren1.dstName)
elif dstShaOtherBranch:
newPath = uniquePath(ren1.dstName, branchName2)
output('CONFLICT (rename/add): Rename',
fmtRename(ren1.srcName, ren1.dstName), 'in',
branchName1 + '.', ren1.dstName, 'added in', branchName2)
output('Adding as', newPath, 'instead')
updateFile(False, dstShaOtherBranch, dstModeOtherBranch, newPath)
cleanMerge = False
tryMerge = True
elif renames2.getDst(ren1.dstName):
dst2 = renames2.getDst(ren1.dstName)
newPath1 = uniquePath(ren1.dstName, branchName1)
newPath2 = uniquePath(dst2.dstName, branchName2)
output('CONFLICT (rename/rename): Rename',
fmtRename(ren1.srcName, ren1.dstName), 'in',
branchName1+'. Rename',
fmtRename(dst2.srcName, dst2.dstName), 'in', branchName2)
output('Renaming', ren1.srcName, 'to', newPath1, 'and',
dst2.srcName, 'to', newPath2, 'instead')
removeFile(False, ren1.dstName)
updateFile(False, ren1.dstSha, ren1.dstMode, newPath1)
updateFile(False, dst2.dstSha, dst2.dstMode, newPath2)
dst2.processed = True
cleanMerge = False
else:
tryMerge = True
if tryMerge:
oName, oSHA1, oMode = ren1.srcName, ren1.srcSha, ren1.srcMode
aName, bName = ren1.dstName, ren1.srcName
aSHA1, bSHA1 = ren1.dstSha, srcShaOtherBranch
aMode, bMode = ren1.dstMode, srcModeOtherBranch
aBranch, bBranch = branchName1, branchName2
if renamesA != renames1:
aName, bName = bName, aName
aSHA1, bSHA1 = bSHA1, aSHA1
aMode, bMode = bMode, aMode
aBranch, bBranch = bBranch, aBranch
[resSha, resMode, clean, merge] = \
mergeFile(oName, oSHA1, oMode,
aName, aSHA1, aMode,
bName, bSHA1, bMode,
aBranch, bBranch);
if merge or not clean:
output('Renaming', fmtRename(ren1.srcName, ren1.dstName))
if merge:
output('Auto-merging', ren1.dstName)
if not clean:
output('CONFLICT (rename/modify): Merge conflict in',
ren1.dstName)
cleanMerge = False
if not cacheOnly:
setIndexStages(ren1.dstName,
oSHA1, oMode,
aSHA1, aMode,
bSHA1, bMode)
updateFile(clean, resSha, resMode, ren1.dstName)
return cleanMerge
# Per entry merge function
# ------------------------
def processEntry(entry, branch1Name, branch2Name):
'''Merge one cache entry.'''
debug('processing', entry.path, 'clean cache:', cacheOnly)
cleanMerge = True
path = entry.path
oSha = entry.stages[1].sha1
oMode = entry.stages[1].mode
aSha = entry.stages[2].sha1
aMode = entry.stages[2].mode
bSha = entry.stages[3].sha1
bMode = entry.stages[3].mode
assert(oSha == None or isSha(oSha))
assert(aSha == None or isSha(aSha))
assert(bSha == None or isSha(bSha))
assert(oMode == None or type(oMode) is int)
assert(aMode == None or type(aMode) is int)
assert(bMode == None or type(bMode) is int)
if (oSha and (not aSha or not bSha)):
#
# Case A: Deleted in one
#
if (not aSha and not bSha) or \
(aSha == oSha and not bSha) or \
(not aSha and bSha == oSha):
# Deleted in both or deleted in one and unchanged in the other
if aSha:
output('Removing', path)
removeFile(True, path)
else:
# Deleted in one and changed in the other
cleanMerge = False
if not aSha:
output('CONFLICT (delete/modify):', path, 'deleted in',
branch1Name, 'and modified in', branch2Name + '.',
'Version', branch2Name, 'of', path, 'left in tree.')
mode = bMode
sha = bSha
else:
output('CONFLICT (modify/delete):', path, 'deleted in',
branch2Name, 'and modified in', branch1Name + '.',
'Version', branch1Name, 'of', path, 'left in tree.')
mode = aMode
sha = aSha
updateFile(False, sha, mode, path)
elif (not oSha and aSha and not bSha) or \
(not oSha and not aSha and bSha):
#
# Case B: Added in one.
#
if aSha:
addBranch = branch1Name
otherBranch = branch2Name
mode = aMode
sha = aSha
conf = 'file/directory'
else:
addBranch = branch2Name
otherBranch = branch1Name
mode = bMode
sha = bSha
conf = 'directory/file'
if path in currentDirectorySet:
cleanMerge = False
newPath = uniquePath(path, addBranch)
output('CONFLICT (' + conf + '):',
'There is a directory with name', path, 'in',
otherBranch + '. Adding', path, 'as', newPath)
removeFile(False, path)
updateFile(False, sha, mode, newPath)
else:
output('Adding', path)
updateFile(True, sha, mode, path)
elif not oSha and aSha and bSha:
#
# Case C: Added in both (check for same permissions).
#
if aSha == bSha:
if aMode != bMode:
cleanMerge = False
output('CONFLICT: File', path,
'added identically in both branches, but permissions',
'conflict', '0%o' % aMode, '->', '0%o' % bMode)
output('CONFLICT: adding with permission:', '0%o' % aMode)
updateFile(False, aSha, aMode, path)
else:
# This case is handled by git-read-tree
assert(False)
else:
cleanMerge = False
newPath1 = uniquePath(path, branch1Name)
newPath2 = uniquePath(path, branch2Name)
output('CONFLICT (add/add): File', path,
'added non-identically in both branches. Adding as',
newPath1, 'and', newPath2, 'instead.')
removeFile(False, path)
updateFile(False, aSha, aMode, newPath1)
updateFile(False, bSha, bMode, newPath2)
elif oSha and aSha and bSha:
#
# case D: Modified in both, but differently.
#
output('Auto-merging', path)
[sha, mode, clean, dummy] = \
mergeFile(path, oSha, oMode,
path, aSha, aMode,
path, bSha, bMode,
branch1Name, branch2Name)
if clean:
updateFile(True, sha, mode, path)
else:
cleanMerge = False
output('CONFLICT (content): Merge conflict in', path)
if cacheOnly:
updateFile(False, sha, mode, path)
else:
updateFileExt(sha, mode, path, updateCache=False, updateWd=True)
else:
die("ERROR: Fatal merge failure, shouldn't happen.")
return cleanMerge
def usage():
die('Usage:', sys.argv[0], ' ... -- ..')
# main entry point as merge strategy module
# The first parameters up to -- are merge bases, and the rest are heads.
if len(sys.argv) < 4:
usage()
bases = []
for nextArg in xrange(1, len(sys.argv)):
if sys.argv[nextArg] == '--':
if len(sys.argv) != nextArg + 3:
die('Not handling anything other than two heads merge.')
try:
h1 = firstBranch = sys.argv[nextArg + 1]
h2 = secondBranch = sys.argv[nextArg + 2]
except IndexError:
usage()
break
else:
bases.append(sys.argv[nextArg])
print 'Merging', h1, 'with', h2
try:
h1 = runProgram(['git-rev-parse', '--verify', h1 + '^0']).rstrip()
h2 = runProgram(['git-rev-parse', '--verify', h2 + '^0']).rstrip()
if len(bases) == 1:
base = runProgram(['git-rev-parse', '--verify',
bases[0] + '^0']).rstrip()
ancestor = Commit(base, None)
[dummy, clean] = merge(Commit(h1, None), Commit(h2, None),
firstBranch, secondBranch, None, 0,
ancestor)
else:
graph = buildGraph([h1, h2])
[dummy, clean] = merge(graph.shaMap[h1], graph.shaMap[h2],
firstBranch, secondBranch, graph)
print ''
except:
if isinstance(sys.exc_info()[1], SystemExit):
raise
else:
traceback.print_exc(None, sys.stderr)
sys.exit(2)
if clean:
sys.exit(0)
else:
sys.exit(1)