# Copyright (C) 2005-2011 Canonical Ltd # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA """Code to show logs of changes. Various flavors of log can be produced: * for one file, or the whole tree, and (not done yet) for files in a given directory * in "verbose" mode with a description of what changed from one version to the next * with file-ids and revision-ids shown Logs are actually written out through an abstract LogFormatter interface, which allows for different preferred formats. Plugins can register formats too. Logs can be produced in either forward (oldest->newest) or reverse (newest->oldest) order. Logs can be filtered to show only revisions matching a particular search string, or within a particular range of revisions. The range can be given as date/times, which are reduced to revisions before calling in here. In verbose mode we show a summary of what changed in each particular revision. Note that this is the delta for changes in that revision relative to its left-most parent, not the delta relative to the last logged revision. So for example if you ask for a verbose log of changes touching hello.c you will get a list of those revisions also listing other things that were changed in the same revision, but not all the changes since the previous revision that touched hello.c. """ from __future__ import absolute_import import codecs from cStringIO import StringIO from itertools import ( chain, izip, ) import re import sys from warnings import ( warn, ) from bzrlib.lazy_import import lazy_import lazy_import(globals(), """ from bzrlib import ( config, controldir, diff, errors, foreign, repository as _mod_repository, revision as _mod_revision, revisionspec, tsort, ) from bzrlib.i18n import gettext, ngettext """) from bzrlib import ( lazy_regex, registry, ) from bzrlib.osutils import ( format_date, format_date_with_offset_in_original_timezone, get_diff_header_encoding, get_terminal_encoding, terminal_width, ) def find_touching_revisions(branch, file_id): """Yield a description of revisions which affect the file_id. Each returned element is (revno, revision_id, description) This is the list of revisions where the file is either added, modified, renamed or deleted. TODO: Perhaps some way to limit this to only particular revisions, or to traverse a non-mainline set of revisions? """ last_ie = None last_path = None revno = 1 graph = branch.repository.get_graph() history = list(graph.iter_lefthand_ancestry(branch.last_revision(), [_mod_revision.NULL_REVISION])) for revision_id in reversed(history): this_inv = branch.repository.get_inventory(revision_id) if this_inv.has_id(file_id): this_ie = this_inv[file_id] this_path = this_inv.id2path(file_id) else: this_ie = this_path = None # now we know how it was last time, and how it is in this revision. # are those two states effectively the same or not? if not this_ie and not last_ie: # not present in either pass elif this_ie and not last_ie: yield revno, revision_id, "added " + this_path elif not this_ie and last_ie: # deleted here yield revno, revision_id, "deleted " + last_path elif this_path != last_path: yield revno, revision_id, ("renamed %s => %s" % (last_path, this_path)) elif (this_ie.text_size != last_ie.text_size or this_ie.text_sha1 != last_ie.text_sha1): yield revno, revision_id, "modified " + this_path last_ie = this_ie last_path = this_path revno += 1 def show_log(branch, lf, specific_fileid=None, verbose=False, direction='reverse', start_revision=None, end_revision=None, search=None, limit=None, show_diff=False, match=None): """Write out human-readable log of commits to this branch. This function is being retained for backwards compatibility but should not be extended with new parameters. Use the new Logger class instead, eg. Logger(branch, rqst).show(lf), adding parameters to the make_log_request_dict function. :param lf: The LogFormatter object showing the output. :param specific_fileid: If not None, list only the commits affecting the specified file, rather than all commits. :param verbose: If True show added/changed/deleted/renamed files. :param direction: 'reverse' (default) is latest to earliest; 'forward' is earliest to latest. :param start_revision: If not None, only show revisions >= start_revision :param end_revision: If not None, only show revisions <= end_revision :param search: If not None, only show revisions with matching commit messages :param limit: If set, shows only 'limit' revisions, all revisions are shown if None or 0. :param show_diff: If True, output a diff after each revision. :param match: Dictionary of search lists to use when matching revision properties. """ # Convert old-style parameters to new-style parameters if specific_fileid is not None: file_ids = [specific_fileid] else: file_ids = None if verbose: if file_ids: delta_type = 'partial' else: delta_type = 'full' else: delta_type = None if show_diff: if file_ids: diff_type = 'partial' else: diff_type = 'full' else: diff_type = None # Build the request and execute it rqst = make_log_request_dict(direction=direction, specific_fileids=file_ids, start_revision=start_revision, end_revision=end_revision, limit=limit, message_search=search, delta_type=delta_type, diff_type=diff_type) Logger(branch, rqst).show(lf) # Note: This needs to be kept in sync with the defaults in # make_log_request_dict() below _DEFAULT_REQUEST_PARAMS = { 'direction': 'reverse', 'levels': None, 'generate_tags': True, 'exclude_common_ancestry': False, '_match_using_deltas': True, } def make_log_request_dict(direction='reverse', specific_fileids=None, start_revision=None, end_revision=None, limit=None, message_search=None, levels=None, generate_tags=True, delta_type=None, diff_type=None, _match_using_deltas=True, exclude_common_ancestry=False, match=None, signature=False, omit_merges=False, ): """Convenience function for making a logging request dictionary. Using this function may make code slightly safer by ensuring parameters have the correct names. It also provides a reference point for documenting the supported parameters. :param direction: 'reverse' (default) is latest to earliest; 'forward' is earliest to latest. :param specific_fileids: If not None, only include revisions affecting the specified files, rather than all revisions. :param start_revision: If not None, only generate revisions >= start_revision :param end_revision: If not None, only generate revisions <= end_revision :param limit: If set, generate only 'limit' revisions, all revisions are shown if None or 0. :param message_search: If not None, only include revisions with matching commit messages :param levels: the number of levels of revisions to generate; 1 for just the mainline; 0 for all levels, or None for a sensible default. :param generate_tags: If True, include tags for matched revisions. ` :param delta_type: Either 'full', 'partial' or None. 'full' means generate the complete delta - adds/deletes/modifies/etc; 'partial' means filter the delta using specific_fileids; None means do not generate any delta. :param diff_type: Either 'full', 'partial' or None. 'full' means generate the complete diff - adds/deletes/modifies/etc; 'partial' means filter the diff using specific_fileids; None means do not generate any diff. :param _match_using_deltas: a private parameter controlling the algorithm used for matching specific_fileids. This parameter may be removed in the future so bzrlib client code should NOT use it. :param exclude_common_ancestry: Whether -rX..Y should be interpreted as a range operator or as a graph difference. :param signature: show digital signature information :param match: Dictionary of list of search strings to use when filtering revisions. Keys can be 'message', 'author', 'committer', 'bugs' or the empty string to match any of the preceding properties. :param omit_merges: If True, commits with more than one parent are omitted. """ # Take care of old style message_search parameter if message_search: if match: if 'message' in match: match['message'].append(message_search) else: match['message'] = [message_search] else: match={ 'message': [message_search] } return { 'direction': direction, 'specific_fileids': specific_fileids, 'start_revision': start_revision, 'end_revision': end_revision, 'limit': limit, 'levels': levels, 'generate_tags': generate_tags, 'delta_type': delta_type, 'diff_type': diff_type, 'exclude_common_ancestry': exclude_common_ancestry, 'signature': signature, 'match': match, 'omit_merges': omit_merges, # Add 'private' attributes for features that may be deprecated '_match_using_deltas': _match_using_deltas, } def _apply_log_request_defaults(rqst): """Apply default values to a request dictionary.""" result = _DEFAULT_REQUEST_PARAMS.copy() if rqst: result.update(rqst) return result def format_signature_validity(rev_id, repo): """get the signature validity :param rev_id: revision id to validate :param repo: repository of revision :return: human readable string to print to log """ from bzrlib import gpg gpg_strategy = gpg.GPGStrategy(None) result = repo.verify_revision_signature(rev_id, gpg_strategy) if result[0] == gpg.SIGNATURE_VALID: return "valid signature from {0}".format(result[1]) if result[0] == gpg.SIGNATURE_KEY_MISSING: return "unknown key {0}".format(result[1]) if result[0] == gpg.SIGNATURE_NOT_VALID: return "invalid signature!" if result[0] == gpg.SIGNATURE_NOT_SIGNED: return "no signature" class LogGenerator(object): """A generator of log revisions.""" def iter_log_revisions(self): """Iterate over LogRevision objects. :return: An iterator yielding LogRevision objects. """ raise NotImplementedError(self.iter_log_revisions) class Logger(object): """An object that generates, formats and displays a log.""" def __init__(self, branch, rqst): """Create a Logger. :param branch: the branch to log :param rqst: A dictionary specifying the query parameters. See make_log_request_dict() for supported values. """ self.branch = branch self.rqst = _apply_log_request_defaults(rqst) def show(self, lf): """Display the log. :param lf: The LogFormatter object to send the output to. """ if not isinstance(lf, LogFormatter): warn("not a LogFormatter instance: %r" % lf) self.branch.lock_read() try: if getattr(lf, 'begin_log', None): lf.begin_log() self._show_body(lf) if getattr(lf, 'end_log', None): lf.end_log() finally: self.branch.unlock() def _show_body(self, lf): """Show the main log output. Subclasses may wish to override this. """ # Tweak the LogRequest based on what the LogFormatter can handle. # (There's no point generating stuff if the formatter can't display it.) rqst = self.rqst if rqst['levels'] is None or lf.get_levels() > rqst['levels']: # user didn't specify levels, use whatever the LF can handle: rqst['levels'] = lf.get_levels() if not getattr(lf, 'supports_tags', False): rqst['generate_tags'] = False if not getattr(lf, 'supports_delta', False): rqst['delta_type'] = None if not getattr(lf, 'supports_diff', False): rqst['diff_type'] = None if not getattr(lf, 'supports_signatures', False): rqst['signature'] = False # Find and print the interesting revisions generator = self._generator_factory(self.branch, rqst) for lr in generator.iter_log_revisions(): lf.log_revision(lr) lf.show_advice() def _generator_factory(self, branch, rqst): """Make the LogGenerator object to use. Subclasses may wish to override this. """ return _DefaultLogGenerator(branch, rqst) class _StartNotLinearAncestor(Exception): """Raised when a start revision is not found walking left-hand history.""" class _DefaultLogGenerator(LogGenerator): """The default generator of log revisions.""" def __init__(self, branch, rqst): self.branch = branch self.rqst = rqst if rqst.get('generate_tags') and branch.supports_tags(): self.rev_tag_dict = branch.tags.get_reverse_tag_dict() else: self.rev_tag_dict = {} def iter_log_revisions(self): """Iterate over LogRevision objects. :return: An iterator yielding LogRevision objects. """ rqst = self.rqst levels = rqst.get('levels') limit = rqst.get('limit') diff_type = rqst.get('diff_type') show_signature = rqst.get('signature') omit_merges = rqst.get('omit_merges') log_count = 0 revision_iterator = self._create_log_revision_iterator() for revs in revision_iterator: for (rev_id, revno, merge_depth), rev, delta in revs: # 0 levels means show everything; merge_depth counts from 0 if levels != 0 and merge_depth >= levels: continue if omit_merges and len(rev.parent_ids) > 1: continue if diff_type is None: diff = None else: diff = self._format_diff(rev, rev_id, diff_type) if show_signature: signature = format_signature_validity(rev_id, self.branch.repository) else: signature = None yield LogRevision(rev, revno, merge_depth, delta, self.rev_tag_dict.get(rev_id), diff, signature) if limit: log_count += 1 if log_count >= limit: return def _format_diff(self, rev, rev_id, diff_type): repo = self.branch.repository if len(rev.parent_ids) == 0: ancestor_id = _mod_revision.NULL_REVISION else: ancestor_id = rev.parent_ids[0] tree_1 = repo.revision_tree(ancestor_id) tree_2 = repo.revision_tree(rev_id) file_ids = self.rqst.get('specific_fileids') if diff_type == 'partial' and file_ids is not None: specific_files = [tree_2.id2path(id) for id in file_ids] else: specific_files = None s = StringIO() path_encoding = get_diff_header_encoding() diff.show_diff_trees(tree_1, tree_2, s, specific_files, old_label='', new_label='', path_encoding=path_encoding) return s.getvalue() def _create_log_revision_iterator(self): """Create a revision iterator for log. :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ self.start_rev_id, self.end_rev_id = _get_revision_limits( self.branch, self.rqst.get('start_revision'), self.rqst.get('end_revision')) if self.rqst.get('_match_using_deltas'): return self._log_revision_iterator_using_delta_matching() else: # We're using the per-file-graph algorithm. This scales really # well but only makes sense if there is a single file and it's # not a directory file_count = len(self.rqst.get('specific_fileids')) if file_count != 1: raise BzrError("illegal LogRequest: must match-using-deltas " "when logging %d files" % file_count) return self._log_revision_iterator_using_per_file_graph() def _log_revision_iterator_using_delta_matching(self): # Get the base revisions, filtering by the revision range rqst = self.rqst generate_merge_revisions = rqst.get('levels') != 1 delayed_graph_generation = not rqst.get('specific_fileids') and ( rqst.get('limit') or self.start_rev_id or self.end_rev_id) view_revisions = _calc_view_revisions( self.branch, self.start_rev_id, self.end_rev_id, rqst.get('direction'), generate_merge_revisions=generate_merge_revisions, delayed_graph_generation=delayed_graph_generation, exclude_common_ancestry=rqst.get('exclude_common_ancestry')) # Apply the other filters return make_log_rev_iterator(self.branch, view_revisions, rqst.get('delta_type'), rqst.get('match'), file_ids=rqst.get('specific_fileids'), direction=rqst.get('direction')) def _log_revision_iterator_using_per_file_graph(self): # Get the base revisions, filtering by the revision range. # Note that we always generate the merge revisions because # filter_revisions_touching_file_id() requires them ... rqst = self.rqst view_revisions = _calc_view_revisions( self.branch, self.start_rev_id, self.end_rev_id, rqst.get('direction'), generate_merge_revisions=True, exclude_common_ancestry=rqst.get('exclude_common_ancestry')) if not isinstance(view_revisions, list): view_revisions = list(view_revisions) view_revisions = _filter_revisions_touching_file_id(self.branch, rqst.get('specific_fileids')[0], view_revisions, include_merges=rqst.get('levels') != 1) return make_log_rev_iterator(self.branch, view_revisions, rqst.get('delta_type'), rqst.get('match')) def _calc_view_revisions(branch, start_rev_id, end_rev_id, direction, generate_merge_revisions, delayed_graph_generation=False, exclude_common_ancestry=False, ): """Calculate the revisions to view. :return: An iterator of (revision_id, dotted_revno, merge_depth) tuples OR a list of the same tuples. """ if (exclude_common_ancestry and start_rev_id == end_rev_id): raise errors.BzrCommandError(gettext( '--exclude-common-ancestry requires two different revisions')) if direction not in ('reverse', 'forward'): raise ValueError(gettext('invalid direction %r') % direction) br_revno, br_rev_id = branch.last_revision_info() if br_revno == 0: return [] if (end_rev_id and start_rev_id == end_rev_id and (not generate_merge_revisions or not _has_merges(branch, end_rev_id))): # If a single revision is requested, check we can handle it return _generate_one_revision(branch, end_rev_id, br_rev_id, br_revno) if not generate_merge_revisions: try: # If we only want to see linear revisions, we can iterate ... iter_revs = _linear_view_revisions( branch, start_rev_id, end_rev_id, exclude_common_ancestry=exclude_common_ancestry) # If a start limit was given and it's not obviously an # ancestor of the end limit, check it before outputting anything if (direction == 'forward' or (start_rev_id and not _is_obvious_ancestor( branch, start_rev_id, end_rev_id))): iter_revs = list(iter_revs) if direction == 'forward': iter_revs = reversed(iter_revs) return iter_revs except _StartNotLinearAncestor: # Switch to the slower implementation that may be able to find a # non-obvious ancestor out of the left-hand history. pass iter_revs = _generate_all_revisions(branch, start_rev_id, end_rev_id, direction, delayed_graph_generation, exclude_common_ancestry) if direction == 'forward': iter_revs = _rebase_merge_depth(reverse_by_depth(list(iter_revs))) return iter_revs def _generate_one_revision(branch, rev_id, br_rev_id, br_revno): if rev_id == br_rev_id: # It's the tip return [(br_rev_id, br_revno, 0)] else: revno_str = _compute_revno_str(branch, rev_id) return [(rev_id, revno_str, 0)] def _generate_all_revisions(branch, start_rev_id, end_rev_id, direction, delayed_graph_generation, exclude_common_ancestry=False): # On large trees, generating the merge graph can take 30-60 seconds # so we delay doing it until a merge is detected, incrementally # returning initial (non-merge) revisions while we can. # The above is only true for old formats (<= 0.92), for newer formats, a # couple of seconds only should be needed to load the whole graph and the # other graph operations needed are even faster than that -- vila 100201 initial_revisions = [] if delayed_graph_generation: try: for rev_id, revno, depth in _linear_view_revisions( branch, start_rev_id, end_rev_id, exclude_common_ancestry): if _has_merges(branch, rev_id): # The end_rev_id can be nested down somewhere. We need an # explicit ancestry check. There is an ambiguity here as we # may not raise _StartNotLinearAncestor for a revision that # is an ancestor but not a *linear* one. But since we have # loaded the graph to do the check (or calculate a dotted # revno), we may as well accept to show the log... We need # the check only if start_rev_id is not None as all # revisions have _mod_revision.NULL_REVISION as an ancestor # -- vila 20100319 graph = branch.repository.get_graph() if (start_rev_id is not None and not graph.is_ancestor(start_rev_id, end_rev_id)): raise _StartNotLinearAncestor() # Since we collected the revisions so far, we need to # adjust end_rev_id. end_rev_id = rev_id break else: initial_revisions.append((rev_id, revno, depth)) else: # No merged revisions found return initial_revisions except _StartNotLinearAncestor: # A merge was never detected so the lower revision limit can't # be nested down somewhere raise errors.BzrCommandError(gettext('Start revision not found in' ' history of end revision.')) # We exit the loop above because we encounter a revision with merges, from # this revision, we need to switch to _graph_view_revisions. # A log including nested merges is required. If the direction is reverse, # we rebase the initial merge depths so that the development line is # shown naturally, i.e. just like it is for linear logging. We can easily # make forward the exact opposite display, but showing the merge revisions # indented at the end seems slightly nicer in that case. view_revisions = chain(iter(initial_revisions), _graph_view_revisions(branch, start_rev_id, end_rev_id, rebase_initial_depths=(direction == 'reverse'), exclude_common_ancestry=exclude_common_ancestry)) return view_revisions def _has_merges(branch, rev_id): """Does a revision have multiple parents or not?""" parents = branch.repository.get_parent_map([rev_id]).get(rev_id, []) return len(parents) > 1 def _compute_revno_str(branch, rev_id): """Compute the revno string from a rev_id. :return: The revno string, or None if the revision is not in the supplied branch. """ try: revno = branch.revision_id_to_dotted_revno(rev_id) except errors.NoSuchRevision: # The revision must be outside of this branch return None else: return '.'.join(str(n) for n in revno) def _is_obvious_ancestor(branch, start_rev_id, end_rev_id): """Is start_rev_id an obvious ancestor of end_rev_id?""" if start_rev_id and end_rev_id: try: start_dotted = branch.revision_id_to_dotted_revno(start_rev_id) end_dotted = branch.revision_id_to_dotted_revno(end_rev_id) except errors.NoSuchRevision: # one or both is not in the branch; not obvious return False if len(start_dotted) == 1 and len(end_dotted) == 1: # both on mainline return start_dotted[0] <= end_dotted[0] elif (len(start_dotted) == 3 and len(end_dotted) == 3 and start_dotted[0:1] == end_dotted[0:1]): # both on same development line return start_dotted[2] <= end_dotted[2] else: # not obvious return False # if either start or end is not specified then we use either the first or # the last revision and *they* are obvious ancestors. return True def _linear_view_revisions(branch, start_rev_id, end_rev_id, exclude_common_ancestry=False): """Calculate a sequence of revisions to view, newest to oldest. :param start_rev_id: the lower revision-id :param end_rev_id: the upper revision-id :param exclude_common_ancestry: Whether the start_rev_id should be part of the iterated revisions. :return: An iterator of (revision_id, dotted_revno, merge_depth) tuples. :raises _StartNotLinearAncestor: if a start_rev_id is specified but is not found walking the left-hand history """ br_revno, br_rev_id = branch.last_revision_info() repo = branch.repository graph = repo.get_graph() if start_rev_id is None and end_rev_id is None: cur_revno = br_revno for revision_id in graph.iter_lefthand_ancestry(br_rev_id, (_mod_revision.NULL_REVISION,)): yield revision_id, str(cur_revno), 0 cur_revno -= 1 else: if end_rev_id is None: end_rev_id = br_rev_id found_start = start_rev_id is None for revision_id in graph.iter_lefthand_ancestry(end_rev_id, (_mod_revision.NULL_REVISION,)): revno_str = _compute_revno_str(branch, revision_id) if not found_start and revision_id == start_rev_id: if not exclude_common_ancestry: yield revision_id, revno_str, 0 found_start = True break else: yield revision_id, revno_str, 0 else: if not found_start: raise _StartNotLinearAncestor() def _graph_view_revisions(branch, start_rev_id, end_rev_id, rebase_initial_depths=True, exclude_common_ancestry=False): """Calculate revisions to view including merges, newest to oldest. :param branch: the branch :param start_rev_id: the lower revision-id :param end_rev_id: the upper revision-id :param rebase_initial_depth: should depths be rebased until a mainline revision is found? :return: An iterator of (revision_id, dotted_revno, merge_depth) tuples. """ if exclude_common_ancestry: stop_rule = 'with-merges-without-common-ancestry' else: stop_rule = 'with-merges' view_revisions = branch.iter_merge_sorted_revisions( start_revision_id=end_rev_id, stop_revision_id=start_rev_id, stop_rule=stop_rule) if not rebase_initial_depths: for (rev_id, merge_depth, revno, end_of_merge ) in view_revisions: yield rev_id, '.'.join(map(str, revno)), merge_depth else: # We're following a development line starting at a merged revision. # We need to adjust depths down by the initial depth until we find # a depth less than it. Then we use that depth as the adjustment. # If and when we reach the mainline, depth adjustment ends. depth_adjustment = None for (rev_id, merge_depth, revno, end_of_merge ) in view_revisions: if depth_adjustment is None: depth_adjustment = merge_depth if depth_adjustment: if merge_depth < depth_adjustment: # From now on we reduce the depth adjustement, this can be # surprising for users. The alternative requires two passes # which breaks the fast display of the first revision # though. depth_adjustment = merge_depth merge_depth -= depth_adjustment yield rev_id, '.'.join(map(str, revno)), merge_depth def _rebase_merge_depth(view_revisions): """Adjust depths upwards so the top level is 0.""" # If either the first or last revision have a merge_depth of 0, we're done if view_revisions and view_revisions[0][2] and view_revisions[-1][2]: min_depth = min([d for r,n,d in view_revisions]) if min_depth != 0: view_revisions = [(r,n,d-min_depth) for r,n,d in view_revisions] return view_revisions def make_log_rev_iterator(branch, view_revisions, generate_delta, search, file_ids=None, direction='reverse'): """Create a revision iterator for log. :param branch: The branch being logged. :param view_revisions: The revisions being viewed. :param generate_delta: Whether to generate a delta for each revision. Permitted values are None, 'full' and 'partial'. :param search: A user text search string. :param file_ids: If non empty, only revisions matching one or more of the file-ids are to be kept. :param direction: the direction in which view_revisions is sorted :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ # Convert view_revisions into (view, None, None) groups to fit with # the standard interface here. if type(view_revisions) == list: # A single batch conversion is faster than many incremental ones. # As we have all the data, do a batch conversion. nones = [None] * len(view_revisions) log_rev_iterator = iter([zip(view_revisions, nones, nones)]) else: def _convert(): for view in view_revisions: yield (view, None, None) log_rev_iterator = iter([_convert()]) for adapter in log_adapters: # It would be nicer if log adapters were first class objects # with custom parameters. This will do for now. IGC 20090127 if adapter == _make_delta_filter: log_rev_iterator = adapter(branch, generate_delta, search, log_rev_iterator, file_ids, direction) else: log_rev_iterator = adapter(branch, generate_delta, search, log_rev_iterator) return log_rev_iterator def _make_search_filter(branch, generate_delta, match, log_rev_iterator): """Create a filtered iterator of log_rev_iterator matching on a regex. :param branch: The branch being logged. :param generate_delta: Whether to generate a delta for each revision. :param match: A dictionary with properties as keys and lists of strings as values. To match, a revision may match any of the supplied strings within a single property but must match at least one string for each property. :param log_rev_iterator: An input iterator containing all revisions that could be displayed, in lists. :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ if match is None: return log_rev_iterator searchRE = [(k, [re.compile(x, re.IGNORECASE) for x in v]) for (k,v) in match.iteritems()] return _filter_re(searchRE, log_rev_iterator) def _filter_re(searchRE, log_rev_iterator): for revs in log_rev_iterator: new_revs = [rev for rev in revs if _match_filter(searchRE, rev[1])] if new_revs: yield new_revs def _match_filter(searchRE, rev): strings = { 'message': (rev.message,), 'committer': (rev.committer,), 'author': (rev.get_apparent_authors()), 'bugs': list(rev.iter_bugs()) } strings[''] = [item for inner_list in strings.itervalues() for item in inner_list] for (k,v) in searchRE: if k in strings and not _match_any_filter(strings[k], v): return False return True def _match_any_filter(strings, res): return any([filter(None, map(re.search, strings)) for re in res]) def _make_delta_filter(branch, generate_delta, search, log_rev_iterator, fileids=None, direction='reverse'): """Add revision deltas to a log iterator if needed. :param branch: The branch being logged. :param generate_delta: Whether to generate a delta for each revision. Permitted values are None, 'full' and 'partial'. :param search: A user text search string. :param log_rev_iterator: An input iterator containing all revisions that could be displayed, in lists. :param fileids: If non empty, only revisions matching one or more of the file-ids are to be kept. :param direction: the direction in which view_revisions is sorted :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ if not generate_delta and not fileids: return log_rev_iterator return _generate_deltas(branch.repository, log_rev_iterator, generate_delta, fileids, direction) def _generate_deltas(repository, log_rev_iterator, delta_type, fileids, direction): """Create deltas for each batch of revisions in log_rev_iterator. If we're only generating deltas for the sake of filtering against file-ids, we stop generating deltas once all file-ids reach the appropriate life-cycle point. If we're receiving data newest to oldest, then that life-cycle point is 'add', otherwise it's 'remove'. """ check_fileids = fileids is not None and len(fileids) > 0 if check_fileids: fileid_set = set(fileids) if direction == 'reverse': stop_on = 'add' else: stop_on = 'remove' else: fileid_set = None for revs in log_rev_iterator: # If we were matching against fileids and we've run out, # there's nothing left to do if check_fileids and not fileid_set: return revisions = [rev[1] for rev in revs] new_revs = [] if delta_type == 'full' and not check_fileids: deltas = repository.get_deltas_for_revisions(revisions) for rev, delta in izip(revs, deltas): new_revs.append((rev[0], rev[1], delta)) else: deltas = repository.get_deltas_for_revisions(revisions, fileid_set) for rev, delta in izip(revs, deltas): if check_fileids: if delta is None or not delta.has_changed(): continue else: _update_fileids(delta, fileid_set, stop_on) if delta_type is None: delta = None elif delta_type == 'full': # If the file matches all the time, rebuilding # a full delta like this in addition to a partial # one could be slow. However, it's likely that # most revisions won't get this far, making it # faster to filter on the partial deltas and # build the occasional full delta than always # building full deltas and filtering those. rev_id = rev[0][0] delta = repository.get_revision_delta(rev_id) new_revs.append((rev[0], rev[1], delta)) yield new_revs def _update_fileids(delta, fileids, stop_on): """Update the set of file-ids to search based on file lifecycle events. :param fileids: a set of fileids to update :param stop_on: either 'add' or 'remove' - take file-ids out of the fileids set once their add or remove entry is detected respectively """ if stop_on == 'add': for item in delta.added: if item[1] in fileids: fileids.remove(item[1]) elif stop_on == 'delete': for item in delta.removed: if item[1] in fileids: fileids.remove(item[1]) def _make_revision_objects(branch, generate_delta, search, log_rev_iterator): """Extract revision objects from the repository :param branch: The branch being logged. :param generate_delta: Whether to generate a delta for each revision. :param search: A user text search string. :param log_rev_iterator: An input iterator containing all revisions that could be displayed, in lists. :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ repository = branch.repository for revs in log_rev_iterator: # r = revision_id, n = revno, d = merge depth revision_ids = [view[0] for view, _, _ in revs] revisions = repository.get_revisions(revision_ids) revs = [(rev[0], revision, rev[2]) for rev, revision in izip(revs, revisions)] yield revs def _make_batch_filter(branch, generate_delta, search, log_rev_iterator): """Group up a single large batch into smaller ones. :param branch: The branch being logged. :param generate_delta: Whether to generate a delta for each revision. :param search: A user text search string. :param log_rev_iterator: An input iterator containing all revisions that could be displayed, in lists. :return: An iterator over lists of ((rev_id, revno, merge_depth), rev, delta). """ num = 9 for batch in log_rev_iterator: batch = iter(batch) while True: step = [detail for _, detail in zip(range(num), batch)] if len(step) == 0: break yield step num = min(int(num * 1.5), 200) def _get_revision_limits(branch, start_revision, end_revision): """Get and check revision limits. :param branch: The branch containing the revisions. :param start_revision: The first revision to be logged. For backwards compatibility this may be a mainline integer revno, but for merge revision support a RevisionInfo is expected. :param end_revision: The last revision to be logged. For backwards compatibility this may be a mainline integer revno, but for merge revision support a RevisionInfo is expected. :return: (start_rev_id, end_rev_id) tuple. """ branch_revno, branch_rev_id = branch.last_revision_info() start_rev_id = None if start_revision is None: start_revno = 1 else: if isinstance(start_revision, revisionspec.RevisionInfo): start_rev_id = start_revision.rev_id start_revno = start_revision.revno or 1 else: branch.check_real_revno(start_revision) start_revno = start_revision start_rev_id = branch.get_rev_id(start_revno) end_rev_id = None if end_revision is None: end_revno = branch_revno else: if isinstance(end_revision, revisionspec.RevisionInfo): end_rev_id = end_revision.rev_id end_revno = end_revision.revno or branch_revno else: branch.check_real_revno(end_revision) end_revno = end_revision end_rev_id = branch.get_rev_id(end_revno) if branch_revno != 0: if (start_rev_id == _mod_revision.NULL_REVISION or end_rev_id == _mod_revision.NULL_REVISION): raise errors.BzrCommandError(gettext('Logging revision 0 is invalid.')) if start_revno > end_revno: raise errors.BzrCommandError(gettext("Start revision must be " "older than the end revision.")) return (start_rev_id, end_rev_id) def _get_mainline_revs(branch, start_revision, end_revision): """Get the mainline revisions from the branch. Generates the list of mainline revisions for the branch. :param branch: The branch containing the revisions. :param start_revision: The first revision to be logged. For backwards compatibility this may be a mainline integer revno, but for merge revision support a RevisionInfo is expected. :param end_revision: The last revision to be logged. For backwards compatibility this may be a mainline integer revno, but for merge revision support a RevisionInfo is expected. :return: A (mainline_revs, rev_nos, start_rev_id, end_rev_id) tuple. """ branch_revno, branch_last_revision = branch.last_revision_info() if branch_revno == 0: return None, None, None, None # For mainline generation, map start_revision and end_revision to # mainline revnos. If the revision is not on the mainline choose the # appropriate extreme of the mainline instead - the extra will be # filtered later. # Also map the revisions to rev_ids, to be used in the later filtering # stage. start_rev_id = None if start_revision is None: start_revno = 1 else: if isinstance(start_revision, revisionspec.RevisionInfo): start_rev_id = start_revision.rev_id start_revno = start_revision.revno or 1 else: branch.check_real_revno(start_revision) start_revno = start_revision end_rev_id = None if end_revision is None: end_revno = branch_revno else: if isinstance(end_revision, revisionspec.RevisionInfo): end_rev_id = end_revision.rev_id end_revno = end_revision.revno or branch_revno else: branch.check_real_revno(end_revision) end_revno = end_revision if ((start_rev_id == _mod_revision.NULL_REVISION) or (end_rev_id == _mod_revision.NULL_REVISION)): raise errors.BzrCommandError(gettext('Logging revision 0 is invalid.')) if start_revno > end_revno: raise errors.BzrCommandError(gettext("Start revision must be older " "than the end revision.")) if end_revno < start_revno: return None, None, None, None cur_revno = branch_revno rev_nos = {} mainline_revs = [] graph = branch.repository.get_graph() for revision_id in graph.iter_lefthand_ancestry( branch_last_revision, (_mod_revision.NULL_REVISION,)): if cur_revno < start_revno: # We have gone far enough, but we always add 1 more revision rev_nos[revision_id] = cur_revno mainline_revs.append(revision_id) break if cur_revno <= end_revno: rev_nos[revision_id] = cur_revno mainline_revs.append(revision_id) cur_revno -= 1 else: # We walked off the edge of all revisions, so we add a 'None' marker mainline_revs.append(None) mainline_revs.reverse() # override the mainline to look like the revision history. return mainline_revs, rev_nos, start_rev_id, end_rev_id def _filter_revisions_touching_file_id(branch, file_id, view_revisions, include_merges=True): r"""Return the list of revision ids which touch a given file id. The function filters view_revisions and returns a subset. This includes the revisions which directly change the file id, and the revisions which merge these changes. So if the revision graph is:: A-. |\ \ B C E |/ / D | |\| | F |/ G And 'C' changes a file, then both C and D will be returned. F will not be returned even though it brings the changes to C into the branch starting with E. (Note that if we were using F as the tip instead of G, then we would see C, D, F.) This will also be restricted based on a subset of the mainline. :param branch: The branch where we can get text revision information. :param file_id: Filter out revisions that do not touch file_id. :param view_revisions: A list of (revision_id, dotted_revno, merge_depth) tuples. This is the list of revisions which will be filtered. It is assumed that view_revisions is in merge_sort order (i.e. newest revision first ). :param include_merges: include merge revisions in the result or not :return: A list of (revision_id, dotted_revno, merge_depth) tuples. """ # Lookup all possible text keys to determine which ones actually modified # the file. graph = branch.repository.get_file_graph() get_parent_map = graph.get_parent_map text_keys = [(file_id, rev_id) for rev_id, revno, depth in view_revisions] next_keys = None # Looking up keys in batches of 1000 can cut the time in half, as well as # memory consumption. GraphIndex *does* like to look for a few keys in # parallel, it just doesn't like looking for *lots* of keys in parallel. # TODO: This code needs to be re-evaluated periodically as we tune the # indexing layer. We might consider passing in hints as to the known # access pattern (sparse/clustered, high success rate/low success # rate). This particular access is clustered with a low success rate. modified_text_revisions = set() chunk_size = 1000 for start in xrange(0, len(text_keys), chunk_size): next_keys = text_keys[start:start + chunk_size] # Only keep the revision_id portion of the key modified_text_revisions.update( [k[1] for k in get_parent_map(next_keys)]) del text_keys, next_keys result = [] # Track what revisions will merge the current revision, replace entries # with 'None' when they have been added to result current_merge_stack = [None] for info in view_revisions: rev_id, revno, depth = info if depth == len(current_merge_stack): current_merge_stack.append(info) else: del current_merge_stack[depth + 1:] current_merge_stack[-1] = info if rev_id in modified_text_revisions: # This needs to be logged, along with the extra revisions for idx in xrange(len(current_merge_stack)): node = current_merge_stack[idx] if node is not None: if include_merges or node[2] == 0: result.append(node) current_merge_stack[idx] = None return result def reverse_by_depth(merge_sorted_revisions, _depth=0): """Reverse revisions by depth. Revisions with a different depth are sorted as a group with the previous revision of that depth. There may be no topological justification for this, but it looks much nicer. """ # Add a fake revision at start so that we can always attach sub revisions merge_sorted_revisions = [(None, None, _depth)] + merge_sorted_revisions zd_revisions = [] for val in merge_sorted_revisions: if val[2] == _depth: # Each revision at the current depth becomes a chunk grouping all # higher depth revisions. zd_revisions.append([val]) else: zd_revisions[-1].append(val) for revisions in zd_revisions: if len(revisions) > 1: # We have higher depth revisions, let reverse them locally revisions[1:] = reverse_by_depth(revisions[1:], _depth + 1) zd_revisions.reverse() result = [] for chunk in zd_revisions: result.extend(chunk) if _depth == 0: # Top level call, get rid of the fake revisions that have been added result = [r for r in result if r[0] is not None and r[1] is not None] return result class LogRevision(object): """A revision to be logged (by LogFormatter.log_revision). A simple wrapper for the attributes of a revision to be logged. The attributes may or may not be populated, as determined by the logging options and the log formatter capabilities. """ def __init__(self, rev=None, revno=None, merge_depth=0, delta=None, tags=None, diff=None, signature=None): self.rev = rev if revno is None: self.revno = None else: self.revno = str(revno) self.merge_depth = merge_depth self.delta = delta self.tags = tags self.diff = diff self.signature = signature class LogFormatter(object): """Abstract class to display log messages. At a minimum, a derived class must implement the log_revision method. If the LogFormatter needs to be informed of the beginning or end of a log it should implement the begin_log and/or end_log hook methods. A LogFormatter should define the following supports_XXX flags to indicate which LogRevision attributes it supports: - supports_delta must be True if this log formatter supports delta. Otherwise the delta attribute may not be populated. The 'delta_format' attribute describes whether the 'short_status' format (1) or the long one (2) should be used. - supports_merge_revisions must be True if this log formatter supports merge revisions. If not, then only mainline revisions will be passed to the formatter. - preferred_levels is the number of levels this formatter defaults to. The default value is zero meaning display all levels. This value is only relevant if supports_merge_revisions is True. - supports_tags must be True if this log formatter supports tags. Otherwise the tags attribute may not be populated. - supports_diff must be True if this log formatter supports diffs. Otherwise the diff attribute may not be populated. - supports_signatures must be True if this log formatter supports GPG signatures. Plugins can register functions to show custom revision properties using the properties_handler_registry. The registered function must respect the following interface description:: def my_show_properties(properties_dict): # code that returns a dict {'name':'value'} of the properties # to be shown """ preferred_levels = 0 def __init__(self, to_file, show_ids=False, show_timezone='original', delta_format=None, levels=None, show_advice=False, to_exact_file=None, author_list_handler=None): """Create a LogFormatter. :param to_file: the file to output to :param to_exact_file: if set, gives an output stream to which non-Unicode diffs are written. :param show_ids: if True, revision-ids are to be displayed :param show_timezone: the timezone to use :param delta_format: the level of delta information to display or None to leave it to the formatter to decide :param levels: the number of levels to display; None or -1 to let the log formatter decide. :param show_advice: whether to show advice at the end of the log or not :param author_list_handler: callable generating a list of authors to display for a given revision """ self.to_file = to_file # 'exact' stream used to show diff, it should print content 'as is' # and should not try to decode/encode it to unicode to avoid bug #328007 if to_exact_file is not None: self.to_exact_file = to_exact_file else: # XXX: somewhat hacky; this assumes it's a codec writer; it's better # for code that expects to get diffs to pass in the exact file # stream self.to_exact_file = getattr(to_file, 'stream', to_file) self.show_ids = show_ids self.show_timezone = show_timezone if delta_format is None: # Ensures backward compatibility delta_format = 2 # long format self.delta_format = delta_format self.levels = levels self._show_advice = show_advice self._merge_count = 0 self._author_list_handler = author_list_handler def get_levels(self): """Get the number of levels to display or 0 for all.""" if getattr(self, 'supports_merge_revisions', False): if self.levels is None or self.levels == -1: self.levels = self.preferred_levels else: self.levels = 1 return self.levels def log_revision(self, revision): """Log a revision. :param revision: The LogRevision to be logged. """ raise NotImplementedError('not implemented in abstract base') def show_advice(self): """Output user advice, if any, when the log is completed.""" if self._show_advice and self.levels == 1 and self._merge_count > 0: advice_sep = self.get_advice_separator() if advice_sep: self.to_file.write(advice_sep) self.to_file.write( "Use --include-merged or -n0 to see merged revisions.\n") def get_advice_separator(self): """Get the text separating the log from the closing advice.""" return '' def short_committer(self, rev): name, address = config.parse_username(rev.committer) if name: return name return address def short_author(self, rev): return self.authors(rev, 'first', short=True, sep=', ') def authors(self, rev, who, short=False, sep=None): """Generate list of authors, taking --authors option into account. The caller has to specify the name of a author list handler, as provided by the author list registry, using the ``who`` argument. That name only sets a default, though: when the user selected a different author list generation using the ``--authors`` command line switch, as represented by the ``author_list_handler`` constructor argument, that value takes precedence. :param rev: The revision for which to generate the list of authors. :param who: Name of the default handler. :param short: Whether to shorten names to either name or address. :param sep: What separator to use for automatic concatenation. """ if self._author_list_handler is not None: # The user did specify --authors, which overrides the default author_list_handler = self._author_list_handler else: # The user didn't specify --authors, so we use the caller's default author_list_handler = author_list_registry.get(who) names = author_list_handler(rev) if short: for i in range(len(names)): name, address = config.parse_username(names[i]) if name: names[i] = name else: names[i] = address if sep is not None: names = sep.join(names) return names def merge_marker(self, revision): """Get the merge marker to include in the output or '' if none.""" if len(revision.rev.parent_ids) > 1: self._merge_count += 1 return ' [merge]' else: return '' def show_properties(self, revision, indent): """Displays the custom properties returned by each registered handler. If a registered handler raises an error it is propagated. """ for line in self.custom_properties(revision): self.to_file.write("%s%s\n" % (indent, line)) def custom_properties(self, revision): """Format the custom properties returned by each registered handler. If a registered handler raises an error it is propagated. :return: a list of formatted lines (excluding trailing newlines) """ lines = self._foreign_info_properties(revision) for key, handler in properties_handler_registry.iteritems(): lines.extend(self._format_properties(handler(revision))) return lines def _foreign_info_properties(self, rev): """Custom log displayer for foreign revision identifiers. :param rev: Revision object. """ # Revision comes directly from a foreign repository if isinstance(rev, foreign.ForeignRevision): return self._format_properties( rev.mapping.vcs.show_foreign_revid(rev.foreign_revid)) # Imported foreign revision revision ids always contain : if not ":" in rev.revision_id: return [] # Revision was once imported from a foreign repository try: foreign_revid, mapping = \ foreign.foreign_vcs_registry.parse_revision_id(rev.revision_id) except errors.InvalidRevisionId: return [] return self._format_properties( mapping.vcs.show_foreign_revid(foreign_revid)) def _format_properties(self, properties): lines = [] for key, value in properties.items(): lines.append(key + ': ' + value) return lines def show_diff(self, to_file, diff, indent): for l in diff.rstrip().split('\n'): to_file.write(indent + '%s\n' % (l,)) # Separator between revisions in long format _LONG_SEP = '-' * 60 class LongLogFormatter(LogFormatter): supports_merge_revisions = True preferred_levels = 1 supports_delta = True supports_tags = True supports_diff = True supports_signatures = True def __init__(self, *args, **kwargs): super(LongLogFormatter, self).__init__(*args, **kwargs) if self.show_timezone == 'original': self.date_string = self._date_string_original_timezone else: self.date_string = self._date_string_with_timezone def _date_string_with_timezone(self, rev): return format_date(rev.timestamp, rev.timezone or 0, self.show_timezone) def _date_string_original_timezone(self, rev): return format_date_with_offset_in_original_timezone(rev.timestamp, rev.timezone or 0) def log_revision(self, revision): """Log a revision, either merged or not.""" indent = ' ' * revision.merge_depth lines = [_LONG_SEP] if revision.revno is not None: lines.append('revno: %s%s' % (revision.revno, self.merge_marker(revision))) if revision.tags: lines.append('tags: %s' % (', '.join(revision.tags))) if self.show_ids or revision.revno is None: lines.append('revision-id: %s' % (revision.rev.revision_id,)) if self.show_ids: for parent_id in revision.rev.parent_ids: lines.append('parent: %s' % (parent_id,)) lines.extend(self.custom_properties(revision.rev)) committer = revision.rev.committer authors = self.authors(revision.rev, 'all') if authors != [committer]: lines.append('author: %s' % (", ".join(authors),)) lines.append('committer: %s' % (committer,)) branch_nick = revision.rev.properties.get('branch-nick', None) if branch_nick is not None: lines.append('branch nick: %s' % (branch_nick,)) lines.append('timestamp: %s' % (self.date_string(revision.rev),)) if revision.signature is not None: lines.append('signature: ' + revision.signature) lines.append('message:') if not revision.rev.message: lines.append(' (no message)') else: message = revision.rev.message.rstrip('\r\n') for l in message.split('\n'): lines.append(' %s' % (l,)) # Dump the output, appending the delta and diff if requested to_file = self.to_file to_file.write("%s%s\n" % (indent, ('\n' + indent).join(lines))) if revision.delta is not None: # Use the standard status output to display changes from bzrlib.delta import report_delta report_delta(to_file, revision.delta, short_status=False, show_ids=self.show_ids, indent=indent) if revision.diff is not None: to_file.write(indent + 'diff:\n') to_file.flush() # Note: we explicitly don't indent the diff (relative to the # revision information) so that the output can be fed to patch -p0 self.show_diff(self.to_exact_file, revision.diff, indent) self.to_exact_file.flush() def get_advice_separator(self): """Get the text separating the log from the closing advice.""" return '-' * 60 + '\n' class ShortLogFormatter(LogFormatter): supports_merge_revisions = True preferred_levels = 1 supports_delta = True supports_tags = True supports_diff = True def __init__(self, *args, **kwargs): super(ShortLogFormatter, self).__init__(*args, **kwargs) self.revno_width_by_depth = {} def log_revision(self, revision): # We need two indents: one per depth and one for the information # relative to that indent. Most mainline revnos are 5 chars or # less while dotted revnos are typically 11 chars or less. Once # calculated, we need to remember the offset for a given depth # as we might be starting from a dotted revno in the first column # and we want subsequent mainline revisions to line up. depth = revision.merge_depth indent = ' ' * depth revno_width = self.revno_width_by_depth.get(depth) if revno_width is None: if revision.revno is None or revision.revno.find('.') == -1: # mainline revno, e.g. 12345 revno_width = 5 else: # dotted revno, e.g. 12345.10.55 revno_width = 11 self.revno_width_by_depth[depth] = revno_width offset = ' ' * (revno_width + 1) to_file = self.to_file tags = '' if revision.tags: tags = ' {%s}' % (', '.join(revision.tags)) to_file.write(indent + "%*s %s\t%s%s%s\n" % (revno_width, revision.revno or "", self.short_author(revision.rev), format_date(revision.rev.timestamp, revision.rev.timezone or 0, self.show_timezone, date_fmt="%Y-%m-%d", show_offset=False), tags, self.merge_marker(revision))) self.show_properties(revision.rev, indent+offset) if self.show_ids or revision.revno is None: to_file.write(indent + offset + 'revision-id:%s\n' % (revision.rev.revision_id,)) if not revision.rev.message: to_file.write(indent + offset + '(no message)\n') else: message = revision.rev.message.rstrip('\r\n') for l in message.split('\n'): to_file.write(indent + offset + '%s\n' % (l,)) if revision.delta is not None: # Use the standard status output to display changes from bzrlib.delta import report_delta report_delta(to_file, revision.delta, short_status=self.delta_format==1, show_ids=self.show_ids, indent=indent + offset) if revision.diff is not None: self.show_diff(self.to_exact_file, revision.diff, ' ') to_file.write('\n') class LineLogFormatter(LogFormatter): supports_merge_revisions = True preferred_levels = 1 supports_tags = True def __init__(self, *args, **kwargs): super(LineLogFormatter, self).__init__(*args, **kwargs) width = terminal_width() if width is not None: # we need one extra space for terminals that wrap on last char width = width - 1 self._max_chars = width def truncate(self, str, max_len): if max_len is None or len(str) <= max_len: return str return str[:max_len-3] + '...' def date_string(self, rev): return format_date(rev.timestamp, rev.timezone or 0, self.show_timezone, date_fmt="%Y-%m-%d", show_offset=False) def message(self, rev): if not rev.message: return '(no message)' else: return rev.message def log_revision(self, revision): indent = ' ' * revision.merge_depth self.to_file.write(self.log_string(revision.revno, revision.rev, self._max_chars, revision.tags, indent)) self.to_file.write('\n') def log_string(self, revno, rev, max_chars, tags=None, prefix=''): """Format log info into one string. Truncate tail of string :param revno: revision number or None. Revision numbers counts from 1. :param rev: revision object :param max_chars: maximum length of resulting string :param tags: list of tags or None :param prefix: string to prefix each line :return: formatted truncated string """ out = [] if revno: # show revno only when is not None out.append("%s:" % revno) if max_chars is not None: out.append(self.truncate(self.short_author(rev), (max_chars+3)/4)) else: out.append(self.short_author(rev)) out.append(self.date_string(rev)) if len(rev.parent_ids) > 1: out.append('[merge]') if tags: tag_str = '{%s}' % (', '.join(tags)) out.append(tag_str) out.append(rev.get_summary()) return self.truncate(prefix + " ".join(out).rstrip('\n'), max_chars) class GnuChangelogLogFormatter(LogFormatter): supports_merge_revisions = True supports_delta = True def log_revision(self, revision): """Log a revision, either merged or not.""" to_file = self.to_file date_str = format_date(revision.rev.timestamp, revision.rev.timezone or 0, self.show_timezone, date_fmt='%Y-%m-%d', show_offset=False) committer_str = self.authors(revision.rev, 'first', sep=', ') committer_str = committer_str.replace(' <', ' <') to_file.write('%s %s\n\n' % (date_str,committer_str)) if revision.delta is not None and revision.delta.has_changed(): for c in revision.delta.added + revision.delta.removed + revision.delta.modified: path, = c[:1] to_file.write('\t* %s:\n' % (path,)) for c in revision.delta.renamed: oldpath,newpath = c[:2] # For renamed files, show both the old and the new path to_file.write('\t* %s:\n\t* %s:\n' % (oldpath,newpath)) to_file.write('\n') if not revision.rev.message: to_file.write('\tNo commit message\n') else: message = revision.rev.message.rstrip('\r\n') for l in message.split('\n'): to_file.write('\t%s\n' % (l.lstrip(),)) to_file.write('\n') def line_log(rev, max_chars): lf = LineLogFormatter(None) return lf.log_string(None, rev, max_chars) class LogFormatterRegistry(registry.Registry): """Registry for log formatters""" def make_formatter(self, name, *args, **kwargs): """Construct a formatter from arguments. :param name: Name of the formatter to construct. 'short', 'long' and 'line' are built-in. """ return self.get(name)(*args, **kwargs) def get_default(self, branch): c = branch.get_config_stack() return self.get(c.get('log_format')) log_formatter_registry = LogFormatterRegistry() log_formatter_registry.register('short', ShortLogFormatter, 'Moderately short log format.') log_formatter_registry.register('long', LongLogFormatter, 'Detailed log format.') log_formatter_registry.register('line', LineLogFormatter, 'Log format with one line per revision.') log_formatter_registry.register('gnu-changelog', GnuChangelogLogFormatter, 'Format used by GNU ChangeLog files.') def register_formatter(name, formatter): log_formatter_registry.register(name, formatter) def log_formatter(name, *args, **kwargs): """Construct a formatter from arguments. name -- Name of the formatter to construct; currently 'long', 'short' and 'line' are supported. """ try: return log_formatter_registry.make_formatter(name, *args, **kwargs) except KeyError: raise errors.BzrCommandError(gettext("unknown log formatter: %r") % name) def author_list_all(rev): return rev.get_apparent_authors()[:] def author_list_first(rev): lst = rev.get_apparent_authors() try: return [lst[0]] except IndexError: return [] def author_list_committer(rev): return [rev.committer] author_list_registry = registry.Registry() author_list_registry.register('all', author_list_all, 'All authors') author_list_registry.register('first', author_list_first, 'The first author') author_list_registry.register('committer', author_list_committer, 'The committer') def show_changed_revisions(branch, old_rh, new_rh, to_file=None, log_format='long'): """Show the change in revision history comparing the old revision history to the new one. :param branch: The branch where the revisions exist :param old_rh: The old revision history :param new_rh: The new revision history :param to_file: A file to write the results to. If None, stdout will be used """ if to_file is None: to_file = codecs.getwriter(get_terminal_encoding())(sys.stdout, errors='replace') lf = log_formatter(log_format, show_ids=False, to_file=to_file, show_timezone='original') # This is the first index which is different between # old and new base_idx = None for i in xrange(max(len(new_rh), len(old_rh))): if (len(new_rh) <= i or len(old_rh) <= i or new_rh[i] != old_rh[i]): base_idx = i break if base_idx is None: to_file.write('Nothing seems to have changed\n') return ## TODO: It might be nice to do something like show_log ## and show the merged entries. But since this is the ## removed revisions, it shouldn't be as important if base_idx < len(old_rh): to_file.write('*'*60) to_file.write('\nRemoved Revisions:\n') for i in range(base_idx, len(old_rh)): rev = branch.repository.get_revision(old_rh[i]) lr = LogRevision(rev, i+1, 0, None) lf.log_revision(lr) to_file.write('*'*60) to_file.write('\n\n') if base_idx < len(new_rh): to_file.write('Added Revisions:\n') show_log(branch, lf, None, verbose=False, direction='forward', start_revision=base_idx+1, end_revision=len(new_rh), search=None) def get_history_change(old_revision_id, new_revision_id, repository): """Calculate the uncommon lefthand history between two revisions. :param old_revision_id: The original revision id. :param new_revision_id: The new revision id. :param repository: The repository to use for the calculation. return old_history, new_history """ old_history = [] old_revisions = set() new_history = [] new_revisions = set() graph = repository.get_graph() new_iter = graph.iter_lefthand_ancestry(new_revision_id) old_iter = graph.iter_lefthand_ancestry(old_revision_id) stop_revision = None do_old = True do_new = True while do_new or do_old: if do_new: try: new_revision = new_iter.next() except StopIteration: do_new = False else: new_history.append(new_revision) new_revisions.add(new_revision) if new_revision in old_revisions: stop_revision = new_revision break if do_old: try: old_revision = old_iter.next() except StopIteration: do_old = False else: old_history.append(old_revision) old_revisions.add(old_revision) if old_revision in new_revisions: stop_revision = old_revision break new_history.reverse() old_history.reverse() if stop_revision is not None: new_history = new_history[new_history.index(stop_revision) + 1:] old_history = old_history[old_history.index(stop_revision) + 1:] return old_history, new_history def show_branch_change(branch, output, old_revno, old_revision_id): """Show the changes made to a branch. :param branch: The branch to show changes about. :param output: A file-like object to write changes to. :param old_revno: The revno of the old tip. :param old_revision_id: The revision_id of the old tip. """ new_revno, new_revision_id = branch.last_revision_info() old_history, new_history = get_history_change(old_revision_id, new_revision_id, branch.repository) if old_history == [] and new_history == []: output.write('Nothing seems to have changed\n') return log_format = log_formatter_registry.get_default(branch) lf = log_format(show_ids=False, to_file=output, show_timezone='original') if old_history != []: output.write('*'*60) output.write('\nRemoved Revisions:\n') show_flat_log(branch.repository, old_history, old_revno, lf) output.write('*'*60) output.write('\n\n') if new_history != []: output.write('Added Revisions:\n') start_revno = new_revno - len(new_history) + 1 show_log(branch, lf, None, verbose=False, direction='forward', start_revision=start_revno,) def show_flat_log(repository, history, last_revno, lf): """Show a simple log of the specified history. :param repository: The repository to retrieve revisions from. :param history: A list of revision_ids indicating the lefthand history. :param last_revno: The revno of the last revision_id in the history. :param lf: The log formatter to use. """ start_revno = last_revno - len(history) + 1 revisions = repository.get_revisions(history) for i, rev in enumerate(revisions): lr = LogRevision(rev, i + last_revno, 0, None) lf.log_revision(lr) def _get_info_for_log_files(revisionspec_list, file_list, add_cleanup): """Find file-ids and kinds given a list of files and a revision range. We search for files at the end of the range. If not found there, we try the start of the range. :param revisionspec_list: revision range as parsed on the command line :param file_list: the list of paths given on the command line; the first of these can be a branch location or a file path, the remainder must be file paths :param add_cleanup: When the branch returned is read locked, an unlock call will be queued to the cleanup. :return: (branch, info_list, start_rev_info, end_rev_info) where info_list is a list of (relative_path, file_id, kind) tuples where kind is one of values 'directory', 'file', 'symlink', 'tree-reference'. branch will be read-locked. """ from bzrlib.builtins import _get_revision_range tree, b, path = controldir.ControlDir.open_containing_tree_or_branch( file_list[0]) add_cleanup(b.lock_read().unlock) # XXX: It's damn messy converting a list of paths to relative paths when # those paths might be deleted ones, they might be on a case-insensitive # filesystem and/or they might be in silly locations (like another branch). # For example, what should "log bzr://branch/dir/file1 file2" do? (Is # file2 implicitly in the same dir as file1 or should its directory be # taken from the current tree somehow?) For now, this solves the common # case of running log in a nested directory, assuming paths beyond the # first one haven't been deleted ... if tree: relpaths = [path] + tree.safe_relpath_files(file_list[1:]) else: relpaths = [path] + file_list[1:] info_list = [] start_rev_info, end_rev_info = _get_revision_range(revisionspec_list, b, "log") if relpaths in ([], [u'']): return b, [], start_rev_info, end_rev_info if start_rev_info is None and end_rev_info is None: if tree is None: tree = b.basis_tree() tree1 = None for fp in relpaths: file_id = tree.path2id(fp) kind = _get_kind_for_file_id(tree, file_id) if file_id is None: # go back to when time began if tree1 is None: try: rev1 = b.get_rev_id(1) except errors.NoSuchRevision: # No history at all file_id = None kind = None else: tree1 = b.repository.revision_tree(rev1) if tree1: file_id = tree1.path2id(fp) kind = _get_kind_for_file_id(tree1, file_id) info_list.append((fp, file_id, kind)) elif start_rev_info == end_rev_info: # One revision given - file must exist in it tree = b.repository.revision_tree(end_rev_info.rev_id) for fp in relpaths: file_id = tree.path2id(fp) kind = _get_kind_for_file_id(tree, file_id) info_list.append((fp, file_id, kind)) else: # Revision range given. Get the file-id from the end tree. # If that fails, try the start tree. rev_id = end_rev_info.rev_id if rev_id is None: tree = b.basis_tree() else: tree = b.repository.revision_tree(rev_id) tree1 = None for fp in relpaths: file_id = tree.path2id(fp) kind = _get_kind_for_file_id(tree, file_id) if file_id is None: if tree1 is None: rev_id = start_rev_info.rev_id if rev_id is None: rev1 = b.get_rev_id(1) tree1 = b.repository.revision_tree(rev1) else: tree1 = b.repository.revision_tree(rev_id) file_id = tree1.path2id(fp) kind = _get_kind_for_file_id(tree1, file_id) info_list.append((fp, file_id, kind)) return b, info_list, start_rev_info, end_rev_info def _get_kind_for_file_id(tree, file_id): """Return the kind of a file-id or None if it doesn't exist.""" if file_id is not None: return tree.kind(file_id) else: return None properties_handler_registry = registry.Registry() # Use the properties handlers to print out bug information if available def _bugs_properties_handler(revision): if revision.properties.has_key('bugs'): bug_lines = revision.properties['bugs'].split('\n') bug_rows = [line.split(' ', 1) for line in bug_lines] fixed_bug_urls = [row[0] for row in bug_rows if len(row) > 1 and row[1] == 'fixed'] if fixed_bug_urls: return {ngettext('fixes bug', 'fixes bugs', len(fixed_bug_urls)):\ ' '.join(fixed_bug_urls)} return {} properties_handler_registry.register('bugs_properties_handler', _bugs_properties_handler) # adapters which revision ids to log are filtered. When log is called, the # log_rev_iterator is adapted through each of these factory methods. # Plugins are welcome to mutate this list in any way they like - as long # as the overall behaviour is preserved. At this point there is no extensible # mechanism for getting parameters to each factory method, and until there is # this won't be considered a stable api. log_adapters = [ # core log logic _make_batch_filter, # read revision objects _make_revision_objects, # filter on log messages _make_search_filter, # generate deltas for things we will show _make_delta_filter ]