method. This will either succeed in writing the updated state to
your refs and index+worktree, or fail without having done
anything."""
- def __init__(self, stack, msg, allow_conflicts = False):
+ def __init__(self, stack, msg, discard_changes = False,
+ allow_conflicts = False, allow_bad_head = False):
+ """Create a new L{StackTransaction}.
+
+ @param discard_changes: Discard any changes in index+worktree
+ @type discard_changes: bool
+ @param allow_conflicts: Whether to allow pre-existing conflicts
+ @type allow_conflicts: bool or function of L{StackTransaction}"""
self.__stack = stack
self.__msg = msg
self.__patches = _TransPatchMap(stack)
self.__applied = list(self.__stack.patchorder.applied)
self.__unapplied = list(self.__stack.patchorder.unapplied)
self.__hidden = list(self.__stack.patchorder.hidden)
+ self.__conflicting_push = None
self.__error = None
self.__current_tree = self.__stack.head.data.tree
self.__base = self.__stack.base
+ self.__discard_changes = discard_changes
+ self.__bad_head = None
+ self.__conflicts = None
if isinstance(allow_conflicts, bool):
self.__allow_conflicts = lambda trans: allow_conflicts
else:
self.__allow_conflicts = allow_conflicts
self.__temp_index = self.temp_index_tree = None
+ if not allow_bad_head:
+ self.__assert_head_top_equal()
stack = property(lambda self: self.__stack)
patches = property(lambda self: self.__patches)
def __set_applied(self, val):
def __set_hidden(self, val):
self.__hidden = list(val)
hidden = property(lambda self: self.__hidden, __set_hidden)
+ all_patches = property(lambda self: (self.__applied + self.__unapplied
+ + self.__hidden))
def __set_base(self, val):
assert (not self.__applied
or self.patches[self.applied[0]].data.parent == val)
self.__temp_index = self.__stack.repository.temp_index()
atexit.register(self.__temp_index.delete)
return self.__temp_index
- def __checkout(self, tree, iw):
+ @property
+ def top(self):
+ if self.__applied:
+ return self.__patches[self.__applied[-1]]
+ else:
+ return self.__base
+ def __get_head(self):
+ if self.__bad_head:
+ return self.__bad_head
+ else:
+ return self.top
+ def __set_head(self, val):
+ self.__bad_head = val
+ head = property(__get_head, __set_head)
+ def __assert_head_top_equal(self):
if not self.__stack.head_top_equal():
out.error(
'HEAD and top are not the same.',
'This can happen if you modify a branch with git.',
'"stg repair --help" explains more about what to do next.')
self.__abort()
- if self.__current_tree == tree:
+ def __checkout(self, tree, iw, allow_bad_head):
+ if not allow_bad_head:
+ self.__assert_head_top_equal()
+ if self.__current_tree == tree and not self.__discard_changes:
# No tree change, but we still want to make sure that
# there are no unresolved conflicts. Conflicts
# conceptually "belong" to the topmost patch, and just
out.error('Need to resolve conflicts first')
self.__abort()
assert iw != None
- iw.checkout(self.__current_tree, tree)
+ if self.__discard_changes:
+ iw.checkout_hard(tree)
+ else:
+ iw.checkout(self.__current_tree, tree)
self.__current_tree = tree
@staticmethod
def __abort():
raise TransactionException(
'Command aborted (all changes rolled back)')
def __check_consistency(self):
- remaining = set(self.__applied + self.__unapplied + self.__hidden)
+ remaining = set(self.all_patches)
for pn, commit in self.__patches.iteritems():
if commit == None:
assert self.__stack.patches.exists(pn)
else:
assert pn in remaining
- @property
- def __head(self):
- if self.__applied:
- return self.__patches[self.__applied[-1]]
- else:
- return self.__base
def abort(self, iw = None):
# The only state we need to restore is index+worktree.
if iw:
- self.__checkout(self.__stack.head.data.tree, iw)
- def run(self, iw = None, set_head = True):
+ self.__checkout(self.__stack.head.data.tree, iw,
+ allow_bad_head = True)
+ def run(self, iw = None, set_head = True, allow_bad_head = False,
+ print_current_patch = True):
"""Execute the transaction. Will either succeed, or fail (with an
exception) and do nothing."""
self.__check_consistency()
- new_head = self.__head
+ log.log_external_mods(self.__stack)
+ new_head = self.head
# Set branch head.
if set_head:
if iw:
try:
- self.__checkout(new_head.data.tree, iw)
+ self.__checkout(new_head.data.tree, iw, allow_bad_head)
except git.CheckoutException:
# We have to abort the transaction.
self.abort(iw)
self.__stack.set_head(new_head, self.__msg)
if self.__error:
- out.error(self.__error)
+ if self.__conflicts:
+ out.error(*([self.__error] + self.__conflicts))
+ else:
+ out.error(self.__error)
# Write patches.
- for pn, commit in self.__patches.iteritems():
- if self.__stack.patches.exists(pn):
- p = self.__stack.patches.get(pn)
- if commit == None:
- p.delete()
+ def write(msg):
+ for pn, commit in self.__patches.iteritems():
+ if self.__stack.patches.exists(pn):
+ p = self.__stack.patches.get(pn)
+ if commit == None:
+ p.delete()
+ else:
+ p.set_commit(commit, msg)
else:
- p.set_commit(commit, self.__msg)
- else:
- self.__stack.patches.new(pn, commit, self.__msg)
- _print_current_patch(self.__stack.patchorder.applied, self.__applied)
- self.__stack.patchorder.applied = self.__applied
- self.__stack.patchorder.unapplied = self.__unapplied
- self.__stack.patchorder.hidden = self.__hidden
- log.log_entry(self.__stack, self.__msg)
+ self.__stack.patches.new(pn, commit, msg)
+ self.__stack.patchorder.applied = self.__applied
+ self.__stack.patchorder.unapplied = self.__unapplied
+ self.__stack.patchorder.hidden = self.__hidden
+ log.log_entry(self.__stack, msg)
+ old_applied = self.__stack.patchorder.applied
+ write(self.__msg)
+ if self.__conflicting_push != None:
+ self.__patches = _TransPatchMap(self.__stack)
+ self.__conflicting_push()
+ write(self.__msg + ' (CONFLICT)')
+ if print_current_patch:
+ _print_current_patch(old_applied, self.__applied)
if self.__error:
return utils.STGIT_CONFLICT
self.__print_popped(popped)
return popped1
- def delete_patches(self, p):
+ def delete_patches(self, p, quiet = False):
"""Delete all patches pn for which p(pn) is true. Return the list of
other patches that had to be popped to accomplish this. Always
succeeds."""
if p(pn):
s = ['', ' (empty)'][self.patches[pn].data.is_nochange()]
self.patches[pn] = None
- out.info('Deleted %s%s' % (pn, s))
+ if not quiet:
+ out.info('Deleted %s%s' % (pn, s))
return popped
def push_patch(self, pn, iw = None):
conflicts to them."""
orig_cd = self.patches[pn].data
cd = orig_cd.set_committer(None)
- s = ['', ' (empty)'][cd.is_nochange()]
oldparent = cd.parent
- cd = cd.set_parent(self.__head)
+ cd = cd.set_parent(self.top)
base = oldparent.data.tree
ours = cd.parent.data.tree
theirs = cd.tree
tree, self.temp_index_tree = self.temp_index.merge(
base, ours, theirs, self.temp_index_tree)
+ s = ''
merge_conflict = False
if not tree:
if iw == None:
self.__halt('%s does not apply cleanly' % pn)
try:
- self.__checkout(ours, iw)
+ self.__checkout(ours, iw, allow_bad_head = False)
except git.CheckoutException:
self.__halt('Index/worktree dirty')
try:
tree = iw.index.write_tree()
self.__current_tree = tree
s = ' (modified)'
- except git.MergeConflictException:
+ except git.MergeConflictException, e:
tree = ours
merge_conflict = True
+ self.__conflicts = e.conflicts
s = ' (conflict)'
except git.MergeException, e:
self.__halt(str(e))
cd = cd.set_tree(tree)
if any(getattr(cd, a) != getattr(orig_cd, a) for a in
['parent', 'tree', 'author', 'message']):
- self.patches[pn] = self.__stack.repository.commit(cd)
+ comm = self.__stack.repository.commit(cd)
+ self.head = comm
else:
+ comm = None
s = ' (unmodified)'
- if pn in self.hidden:
- x = self.hidden
- else:
- x = self.unapplied
- del x[x.index(pn)]
- self.applied.append(pn)
+ if not merge_conflict and cd.is_nochange():
+ s = ' (empty)'
out.info('Pushed %s%s' % (pn, s))
+ def update():
+ if comm:
+ self.patches[pn] = comm
+ if pn in self.hidden:
+ x = self.hidden
+ else:
+ x = self.unapplied
+ del x[x.index(pn)]
+ self.applied.append(pn)
if merge_conflict:
# We've just caused conflicts, so we must allow them in
# the final checkout.
self.__allow_conflicts = lambda trans: True
- self.__halt('Merge conflict')
+ # Save this update so that we can run it a little later.
+ self.__conflicting_push = update
+ self.__halt("%d merge conflict(s)" % len(self.__conflicts))
+ else:
+ # Update immediately.
+ update()
def reorder_patches(self, applied, unapplied, hidden, iw = None):
"""Push and pop patches to attain the given ordering."""