gitMergeCommon.py - git - Git at Google

 #
 # Copyright (C) 2005 Fredrik Kuivinen
 #

 import sys, re, os, traceback
 from sets import Set

 def die(*args):
     printList(args, sys.stderr)
     sys.exit(2)

 def printList(list, file=sys.stdout):
     for x in list:
         file.write(str(x))
         file.write(' ')
     file.write('\n')

 import subprocess

 # Debugging machinery
 # -------------------

 DEBUG = 0
 functionsToDebug = Set()

 def addDebug(func):
     if type(func) == str:
         functionsToDebug.add(func)
     else:
         functionsToDebug.add(func.func_name)

 def debug(*args):
     if DEBUG:
         funcName = traceback.extract_stack()[-2][2]
         if funcName in functionsToDebug:
             printList(args)

 # Program execution
 # -----------------

 class ProgramError(Exception):
     def __init__(self, progStr, error):
         self.progStr = progStr
         self.error = error

     def __str__(self):
         return self.progStr + ': ' + self.error

 addDebug('runProgram')
 def runProgram(prog, input=None, returnCode=False, env=None, pipeOutput=True):
     debug('runProgram prog:', str(prog), 'input:', str(input))
     if type(prog) is str:
         progStr = prog
     else:
         progStr = ' '.join(prog)

     try:
         if pipeOutput:
             stderr = subprocess.STDOUT
             stdout = subprocess.PIPE
         else:
             stderr = None
             stdout = None
         pop = subprocess.Popen(prog,
                                shell = type(prog) is str,
                                stderr=stderr,
                                stdout=stdout,
                                stdin=subprocess.PIPE,
                                env=env)
     except OSError, e:
         debug('strerror:', e.strerror)
         raise ProgramError(progStr, e.strerror)

     if input != None:
         pop.stdin.write(input)
     pop.stdin.close()

     if pipeOutput:
         out = pop.stdout.read()
     else:
         out = ''

     code = pop.wait()
     if returnCode:
         ret = [out, code]
     else:
         ret = out
     if code != 0 and not returnCode:
         debug('error output:', out)
         debug('prog:', prog)
         raise ProgramError(progStr, out)
 #    debug('output:', out.replace('\0', '\n'))
     return ret

 # Code for computing common ancestors
 # -----------------------------------

 currentId = 0
 def getUniqueId():
     global currentId
     currentId += 1
     return currentId

 # The 'virtual' commit objects have SHAs which are integers
 shaRE = re.compile('^[0-9a-f]{40}$')
 def isSha(obj):
     return (type(obj) is str and bool(shaRE.match(obj))) or \
            (type(obj) is int and obj >= 1)

 class Commit(object):
     __slots__ = ['parents', 'firstLineMsg', 'children', '_tree', 'sha',
                  'virtual']

     def __init__(self, sha, parents, tree=None):
         self.parents = parents
         self.firstLineMsg = None
         self.children = []

         if tree:
             tree = tree.rstrip()
             assert(isSha(tree))
         self._tree = tree

         if not sha:
             self.sha = getUniqueId()
             self.virtual = True
             self.firstLineMsg = 'virtual commit'
             assert(isSha(tree))
         else:
             self.virtual = False
             self.sha = sha.rstrip()
         assert(isSha(self.sha))

     def tree(self):
         self.getInfo()
         assert(self._tree != None)
         return self._tree

     def shortInfo(self):
         self.getInfo()
         return str(self.sha) + ' ' + self.firstLineMsg

     def __str__(self):
         return self.shortInfo()

     def getInfo(self):
         if self.virtual or self.firstLineMsg != None:
             return
         else:
             info = runProgram(['git-cat-file', 'commit', self.sha])
             info = info.split('\n')
             msg = False
             for l in info:
                 if msg:
                     self.firstLineMsg = l
                     break
                 else:
                     if l.startswith('tree'):
                         self._tree = l[5:].rstrip()
                     elif l == '':
                         msg = True

 class Graph:
     def __init__(self):
         self.commits = []
         self.shaMap = {}

     def addNode(self, node):
         assert(isinstance(node, Commit))
         self.shaMap[node.sha] = node
         self.commits.append(node)
         for p in node.parents:
             p.children.append(node)
         return node

     def reachableNodes(self, n1, n2):
         res = {}
         def traverse(n):
             res[n] = True
             for p in n.parents:
                 traverse(p)

         traverse(n1)
         traverse(n2)
         return res

     def fixParents(self, node):
         for x in range(0, len(node.parents)):
             node.parents[x] = self.shaMap[node.parents[x]]

 # addDebug('buildGraph')
 def buildGraph(heads):
     debug('buildGraph heads:', heads)
     for h in heads:
         assert(isSha(h))

     g = Graph()

     out = runProgram(['git-rev-list', '--parents'] + heads)
     for l in out.split('\n'):
         if l == '':
             continue
         shas = l.split(' ')

         # This is a hack, we temporarily use the 'parents' attribute
         # to contain a list of SHA1:s. They are later replaced by proper
         # Commit objects.
         c = Commit(shas[0], shas[1:])

         g.commits.append(c)
         g.shaMap[c.sha] = c

     for c in g.commits:
         g.fixParents(c)

     for c in g.commits:
         for p in c.parents:
             p.children.append(c)
     return g

 # Write the empty tree to the object database and return its SHA1
 def writeEmptyTree():
     tmpIndex = os.environ.get('GIT_DIR', '.git') + '/merge-tmp-index'
     def delTmpIndex():
         try:
             os.unlink(tmpIndex)
         except OSError:
             pass
     delTmpIndex()
     newEnv = os.environ.copy()
     newEnv['GIT_INDEX_FILE'] = tmpIndex
     res = runProgram(['git-write-tree'], env=newEnv).rstrip()
     delTmpIndex()
     return res

 def addCommonRoot(graph):
     roots = []
     for c in graph.commits:
         if len(c.parents) == 0:
             roots.append(c)

     superRoot = Commit(sha=None, parents=[], tree=writeEmptyTree())
     graph.addNode(superRoot)
     for r in roots:
         r.parents = [superRoot]
     superRoot.children = roots
     return superRoot

 def getCommonAncestors(graph, commit1, commit2):
     '''Find the common ancestors for commit1 and commit2'''
     assert(isinstance(commit1, Commit) and isinstance(commit2, Commit))

     def traverse(start, set):
         stack = [start]
         while len(stack) > 0:
             el = stack.pop()
             set.add(el)
             for p in el.parents:
                 if p not in set:
                     stack.append(p)
     h1Set = Set()
     h2Set = Set()
     traverse(commit1, h1Set)
     traverse(commit2, h2Set)
     shared = h1Set.intersection(h2Set)

     if len(shared) == 0:
         shared = [addCommonRoot(graph)]

     res = Set()

     for s in shared:
         if len([c for c in s.children if c in shared]) == 0:
             res.add(s)
     return list(res)
	#
	# Copyright (C) 2005 Fredrik Kuivinen
	#

	import sys, re, os, traceback
	from sets import Set

	def die(*args):
	printList(args, sys.stderr)
	sys.exit(2)

	def printList(list, file=sys.stdout):
	for x in list:
	file.write(str(x))
	file.write(' ')
	file.write('\n')

	import subprocess

	# Debugging machinery
	# -------------------

	DEBUG = 0
	functionsToDebug = Set()

	def addDebug(func):
	if type(func) == str:
	functionsToDebug.add(func)
	else:
	functionsToDebug.add(func.func_name)

	def debug(*args):
	if DEBUG:
	funcName = traceback.extract_stack()[-2][2]
	if funcName in functionsToDebug:
	printList(args)

	# Program execution
	# -----------------

	class ProgramError(Exception):
	def __init__(self, progStr, error):
	self.progStr = progStr
	self.error = error

	def __str__(self):
	return self.progStr + ': ' + self.error

	addDebug('runProgram')
	def runProgram(prog, input=None, returnCode=False, env=None, pipeOutput=True):
	debug('runProgram prog:', str(prog), 'input:', str(input))
	if type(prog) is str:
	progStr = prog
	else:
	progStr = ' '.join(prog)

	try:
	if pipeOutput:
	stderr = subprocess.STDOUT
	stdout = subprocess.PIPE
	else:
	stderr = None
	stdout = None
	pop = subprocess.Popen(prog,
	shell = type(prog) is str,
	stderr=stderr,
	stdout=stdout,
	stdin=subprocess.PIPE,
	env=env)
	except OSError, e:
	debug('strerror:', e.strerror)
	raise ProgramError(progStr, e.strerror)

	if input != None:
	pop.stdin.write(input)
	pop.stdin.close()

	if pipeOutput:
	out = pop.stdout.read()
	else:
	out = ''

	code = pop.wait()
	if returnCode:
	ret = [out, code]
	else:
	ret = out
	if code != 0 and not returnCode:
	debug('error output:', out)
	debug('prog:', prog)
	raise ProgramError(progStr, out)
	# debug('output:', out.replace('\0', '\n'))
	return ret

	# Code for computing common ancestors
	# -----------------------------------

	currentId = 0
	def getUniqueId():
	global currentId
	currentId += 1
	return currentId

	# The 'virtual' commit objects have SHAs which are integers
	shaRE = re.compile('^[0-9a-f]{40}$')
	def isSha(obj):
	return (type(obj) is str and bool(shaRE.match(obj))) or \
	(type(obj) is int and obj >= 1)

	class Commit(object):
	__slots__ = ['parents', 'firstLineMsg', 'children', '_tree', 'sha',
	'virtual']

	def __init__(self, sha, parents, tree=None):
	self.parents = parents
	self.firstLineMsg = None
	self.children = []

	if tree:
	tree = tree.rstrip()
	assert(isSha(tree))
	self._tree = tree

	if not sha:
	self.sha = getUniqueId()
	self.virtual = True
	self.firstLineMsg = 'virtual commit'
	assert(isSha(tree))
	else:
	self.virtual = False
	self.sha = sha.rstrip()
	assert(isSha(self.sha))

	def tree(self):
	self.getInfo()
	assert(self._tree != None)
	return self._tree

	def shortInfo(self):
	self.getInfo()
	return str(self.sha) + ' ' + self.firstLineMsg

	def __str__(self):
	return self.shortInfo()

	def getInfo(self):
	if self.virtual or self.firstLineMsg != None:
	return
	else:
	info = runProgram(['git-cat-file', 'commit', self.sha])
	info = info.split('\n')
	msg = False
	for l in info:
	if msg:
	self.firstLineMsg = l
	break
	else:
	if l.startswith('tree'):
	self._tree = l[5:].rstrip()
	elif l == '':
	msg = True

	class Graph:
	def __init__(self):
	self.commits = []
	self.shaMap = {}

	def addNode(self, node):
	assert(isinstance(node, Commit))
	self.shaMap[node.sha] = node
	self.commits.append(node)
	for p in node.parents:
	p.children.append(node)
	return node

	def reachableNodes(self, n1, n2):
	res = {}
	def traverse(n):
	res[n] = True
	for p in n.parents:
	traverse(p)

	traverse(n1)
	traverse(n2)
	return res

	def fixParents(self, node):
	for x in range(0, len(node.parents)):
	node.parents[x] = self.shaMap[node.parents[x]]

	# addDebug('buildGraph')
	def buildGraph(heads):
	debug('buildGraph heads:', heads)
	for h in heads:
	assert(isSha(h))

	g = Graph()

	out = runProgram(['git-rev-list', '--parents'] + heads)
	for l in out.split('\n'):
	if l == '':
	continue
	shas = l.split(' ')

	# This is a hack, we temporarily use the 'parents' attribute
	# to contain a list of SHA1:s. They are later replaced by proper
	# Commit objects.
	c = Commit(shas[0], shas[1:])

	g.commits.append(c)
	g.shaMap[c.sha] = c

	for c in g.commits:
	g.fixParents(c)

	for c in g.commits:
	for p in c.parents:
	p.children.append(c)
	return g

	# Write the empty tree to the object database and return its SHA1
	def writeEmptyTree():
	tmpIndex = os.environ.get('GIT_DIR', '.git') + '/merge-tmp-index'
	def delTmpIndex():
	try:
	os.unlink(tmpIndex)
	except OSError:
	pass
	delTmpIndex()
	newEnv = os.environ.copy()
	newEnv['GIT_INDEX_FILE'] = tmpIndex
	res = runProgram(['git-write-tree'], env=newEnv).rstrip()
	delTmpIndex()
	return res

	def addCommonRoot(graph):
	roots = []
	for c in graph.commits:
	if len(c.parents) == 0:
	roots.append(c)

	superRoot = Commit(sha=None, parents=[], tree=writeEmptyTree())
	graph.addNode(superRoot)
	for r in roots:
	r.parents = [superRoot]
	superRoot.children = roots
	return superRoot

	def getCommonAncestors(graph, commit1, commit2):
	'''Find the common ancestors for commit1 and commit2'''
	assert(isinstance(commit1, Commit) and isinstance(commit2, Commit))

	def traverse(start, set):
	stack = [start]
	while len(stack) > 0:
	el = stack.pop()
	set.add(el)
	for p in el.parents:
	if p not in set:
	stack.append(p)
	h1Set = Set()
	h2Set = Set()
	traverse(commit1, h1Set)
	traverse(commit2, h2Set)
	shared = h1Set.intersection(h2Set)

	if len(shared) == 0:
	shared = [addCommonRoot(graph)]

	res = Set()

	for s in shared:
	if len([c for c in s.children if c in shared]) == 0:
	res.add(s)
	return list(res)