directory = common.DirectoryHasRepositoryLib()
-def reset_stack(stack, iw, state, only_patches, hard):
- only_patches = set(only_patches)
- def mask(s):
- if only_patches:
- return s & only_patches
- else:
- return s
- patches_to_reset = mask(set(state.applied + state.unapplied + state.hidden))
- existing_patches = set(stack.patchorder.all)
- to_delete = mask(existing_patches - patches_to_reset)
- trans = transaction.StackTransaction(stack, 'reset', discard_changes = hard)
-
- # If we have to change the stack base, we need to pop all patches
- # first.
- if not only_patches and trans.base != state.base:
- trans.pop_patches(lambda pn: True)
- out.info('Setting stack base to %s' % state.base.sha1)
- trans.base = state.base
-
- # In one go, do all the popping we have to in order to pop the
- # patches we're going to delete or modify.
- def mod(pn):
- if only_patches and not pn in only_patches:
- return False
- if pn in to_delete:
- return True
- if stack.patches.get(pn).commit != state.patches.get(pn, None):
- return True
- return False
- trans.pop_patches(mod)
-
- # Delete and modify/create patches. We've previously popped all
- # patches that we touch in this step.
- trans.delete_patches(lambda pn: pn in to_delete)
- for pn in patches_to_reset:
- if pn in existing_patches:
- if trans.patches[pn] == state.patches[pn]:
- continue
- else:
- out.info('Resetting %s' % pn)
- else:
- if pn in state.hidden:
- trans.hidden.append(pn)
- else:
- trans.unapplied.append(pn)
- out.info('Resurrecting %s' % pn)
- trans.patches[pn] = state.patches[pn]
-
- # Push/pop patches as necessary.
- try:
- if only_patches:
- # Push all the patches that we've popped, if they still
- # exist.
- pushable = set(trans.unapplied)
- for pn in stack.patchorder.applied:
- if pn in pushable:
- trans.push_patch(pn, iw)
- else:
- # Recreate the exact order specified by the goal state.
- trans.reorder_patches(state.applied, state.unapplied,
- state.hidden, iw)
- except transaction.TransactionHalted:
- pass
- return trans.run(iw)
-
def func(parser, options, args):
stack = directory.repository.current_stack
if len(args) >= 1:
stack.repository.rev_parse(ref))
else:
raise common.CmdException('Wrong number of arguments')
- return reset_stack(stack, stack.repository.default_iw, state, patches,
- options.hard)
+ trans = transaction.StackTransaction(stack, 'reset',
+ discard_changes = options.hard)
+ try:
+ log.reset_stack(trans, stack.repository.default_iw, state, patches)
+ except transaction.TransactionHalted:
+ pass
+ return trans.run(stack.repository.default_iw)
def default_repo():
return libstack.Repository.default()
+
+def reset_stack(trans, iw, state, only_patches):
+ """Reset the stack to a given previous state. If C{only_patches} is
+ not empty, touch only patches whose names appear in it.
+
+ @param only_patches: Reset only these patches
+ @type only_patches: iterable"""
+ only_patches = set(only_patches)
+ def mask(s):
+ if only_patches:
+ return s & only_patches
+ else:
+ return s
+ patches_to_reset = mask(set(state.applied + state.unapplied + state.hidden))
+ existing_patches = set(trans.all_patches)
+ original_applied_order = list(trans.applied)
+ to_delete = mask(existing_patches - patches_to_reset)
+
+ # If we have to change the stack base, we need to pop all patches
+ # first.
+ if not only_patches and trans.base != state.base:
+ trans.pop_patches(lambda pn: True)
+ out.info('Setting stack base to %s' % state.base.sha1)
+ trans.base = state.base
+
+ # In one go, do all the popping we have to in order to pop the
+ # patches we're going to delete or modify.
+ def mod(pn):
+ if only_patches and not pn in only_patches:
+ return False
+ if pn in to_delete:
+ return True
+ if trans.patches[pn] != state.patches.get(pn, None):
+ return True
+ return False
+ trans.pop_patches(mod)
+
+ # Delete and modify/create patches. We've previously popped all
+ # patches that we touch in this step.
+ trans.delete_patches(lambda pn: pn in to_delete)
+ for pn in patches_to_reset:
+ if pn in existing_patches:
+ if trans.patches[pn] == state.patches[pn]:
+ continue
+ else:
+ out.info('Resetting %s' % pn)
+ else:
+ if pn in state.hidden:
+ trans.hidden.append(pn)
+ else:
+ trans.unapplied.append(pn)
+ out.info('Resurrecting %s' % pn)
+ trans.patches[pn] = state.patches[pn]
+
+ # Push/pop patches as necessary.
+ if only_patches:
+ # Push all the patches that we've popped, if they still
+ # exist.
+ pushable = set(trans.unapplied)
+ for pn in original_applied_order:
+ if pn in pushable:
+ trans.push_patch(pn, iw)
+ else:
+ # Recreate the exact order specified by the goal state.
+ trans.reorder_patches(state.applied, state.unapplied, state.hidden, iw)
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)
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)