# Copyright (C) 2005 Aaron Bentley and Panometrics, Inc. # # # 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA import os import os.path import errno import time import types import xml.sax.saxutils import doctest from beuuid import uuid_gen from properties import Property, doc_property, local_property, \ defaulting_property, checked_property, cached_property, \ primed_property, change_hook_property, settings_property import settings_object import mapfile import comment import utility ### Define and describe valid bug categories # Use a tuple of (category, description) tuples since we don't have # ordered dicts in Python yet http://www.python.org/dev/peps/pep-0372/ # in order of increasing severity. (name, description) pairs severity_def = ( ("wishlist","A feature that could improve usefulness, but not a bug."), ("minor","The standard bug level."), ("serious","A bug that requires workarounds."), ("critical","A bug that prevents some features from working at all."), ("fatal","A bug that makes the package unusable.")) # in order of increasing resolution # roughly following http://www.bugzilla.org/docs/3.2/en/html/lifecycle.html active_status_def = ( ("unconfirmed","A possible bug which lacks independent existance confirmation."), ("open","A working bug that has not been assigned to a developer."), ("assigned","A working bug that has been assigned to a developer."), ("test","The code has been adjusted, but the fix is still being tested.")) inactive_status_def = ( ("closed", "The bug is no longer relevant."), ("fixed", "The bug should no longer occur."), ("wontfix","It's not a bug, it's a feature.")) ### Convert the description tuples to more useful formats severity_values = () severity_description = {} severity_index = {} def load_severities(severity_def): global severity_values global severity_description global severity_index if severity_def == settings_object.EMPTY: return severity_values = tuple([val for val,description in severity_def]) severity_description = dict(severity_def) severity_index = {} for i,severity in enumerate(severity_values): severity_index[severity] = i load_severities(severity_def) active_status_values = [] inactive_status_values = [] status_values = [] status_description = {} status_index = {} def load_status(active_status_def, inactive_status_def): global active_status_values global inactive_status_values global status_values global status_description global status_index if active_status_def == settings_object.EMPTY: active_status_def = globals()["active_status_def"] if inactive_status_def == settings_object.EMPTY: inactive_status_def = globals()["inactive_status_def"] active_status_values = tuple([val for val,description in active_status_def]) inactive_status_values = tuple([val for val,description in inactive_status_def]) status_values = active_status_values + inactive_status_values status_description = dict(tuple(active_status_def) + tuple(inactive_status_def)) status_index = {} for i,status in enumerate(status_values): status_index[status] = i load_status(active_status_def, inactive_status_def) class Bug(settings_object.SavedSettingsObject): """ >>> b = Bug() >>> print b.status open >>> print b.severity minor There are two formats for time, int and string. Setting either one will adjust the other appropriately. The string form is the one stored in the bug's settings file on disk. >>> print type(b.time) >>> print type(b.time_string) >>> b.time = 0 >>> print b.time_string Thu, 01 Jan 1970 00:00:00 +0000 >>> b.time_string="Thu, 01 Jan 1970 00:01:00 +0000" >>> b.time 60 >>> print b.settings["time"] Thu, 01 Jan 1970 00:01:00 +0000 """ settings_properties = [] required_saved_properties = [] _prop_save_settings = settings_object.prop_save_settings _prop_load_settings = settings_object.prop_load_settings def _versioned_property(settings_properties=settings_properties, required_saved_properties=required_saved_properties, **kwargs): if "settings_properties" not in kwargs: kwargs["settings_properties"] = settings_properties if "required_saved_properties" not in kwargs: kwargs["required_saved_properties"]=required_saved_properties return settings_object.versioned_property(**kwargs) @_versioned_property(name="severity", doc="A measure of the bug's importance", default="minor", check_fn=lambda s: s in severity_values, require_save=True) def severity(): return {} @_versioned_property(name="status", doc="The bug's current status", default="open", check_fn=lambda s: s in status_values, require_save=True) def status(): return {} @property def active(self): return self.status in active_status_values @_versioned_property(name="target", doc="The deadline for fixing this bug") def target(): return {} @_versioned_property(name="creator", doc="The user who entered the bug into the system") def creator(): return {} @_versioned_property(name="reporter", doc="The user who reported the bug") def reporter(): return {} @_versioned_property(name="assigned", doc="The developer in charge of the bug") def assigned(): return {} @_versioned_property(name="time", doc="An RFC 2822 timestamp for bug creation") def time_string(): return {} def _get_time(self): if self.time_string == None or self.time_string == settings_object.EMPTY: return None return utility.str_to_time(self.time_string) def _set_time(self, value): self.time_string = utility.time_to_str(value) time = property(fget=_get_time, fset=_set_time, doc="An integer version of .time_string") def _extra_strings_check_fn(value): "Require an iterable full of strings" if value == settings_object.EMPTY: return True elif not hasattr(value, "__iter__"): return False for x in value: if type(x) not in types.StringTypes: return False return True def _extra_strings_change_hook(self, old, new): self.extra_strings.sort() # to make merging easier self._prop_save_settings(old, new) @_versioned_property(name="extra_strings", doc="Space for an array of extra strings. Useful for storing state for functionality implemented purely in becommands/.py.", default=[], check_fn=_extra_strings_check_fn, change_hook=_extra_strings_change_hook, mutable=True) def extra_strings(): return {} @_versioned_property(name="summary", doc="A one-line bug description") def summary(): return {} def _get_comment_root(self, load_full=False): if self.sync_with_disk: return comment.loadComments(self, load_full=load_full) else: return comment.Comment(self, uuid=comment.INVALID_UUID) @Property @cached_property(generator=_get_comment_root) @local_property("comment_root") @doc_property(doc="The trunk of the comment tree") def comment_root(): return {} def _get_rcs(self): if hasattr(self.bugdir, "rcs"): return self.bugdir.rcs @Property @cached_property(generator=_get_rcs) @local_property("rcs") @doc_property(doc="A revision control system instance.") def rcs(): return {} def __init__(self, bugdir=None, uuid=None, from_disk=False, load_comments=False, summary=None): settings_object.SavedSettingsObject.__init__(self) self.bugdir = bugdir self.uuid = uuid if from_disk == True: self.sync_with_disk = True else: self.sync_with_disk = False if uuid == None: self.uuid = uuid_gen() self.time = int(time.time()) # only save to second precision if self.rcs != None: self.creator = self.rcs.get_user_id() self.summary = summary def __repr__(self): return "Bug(uuid=%r)" % self.uuid def _setting_attr_string(self, setting): value = getattr(self, setting) if value == settings_object.EMPTY: return "" else: return str(value) def xml(self, show_comments=False): if self.bugdir == None: shortname = self.uuid else: shortname = self.bugdir.bug_shortname(self) if self.time == None: timestring = "" else: timestring = utility.time_to_str(self.time) info = [("uuid", self.uuid), ("short-name", shortname), ("severity", self.severity), ("status", self.status), ("assigned", self.assigned), ("target", self.target), ("reporter", self.reporter), ("creator", self.creator), ("created", timestring), ("summary", self.summary)] ret = '\n' for (k,v) in info: if v is not settings_object.EMPTY: ret += ' <%s>%s\n' % (k,xml.sax.saxutils.escape(v),k) for estr in self.extra_strings: ret += ' %s\n' % estr if show_comments == True: comout = self.comment_root.xml_thread(auto_name_map=True, bug_shortname=shortname) if len(comout) > 0: ret += comout+'\n' ret += '' return ret def string(self, shortlist=False, show_comments=False): if self.bugdir == None: shortname = self.uuid else: shortname = self.bugdir.bug_shortname(self) if shortlist == False: if self.time == None: timestring = "" else: htime = utility.handy_time(self.time) timestring = "%s (%s)" % (htime, self.time_string) info = [("ID", self.uuid), ("Short name", shortname), ("Severity", self.severity), ("Status", self.status), ("Assigned", self._setting_attr_string("assigned")), ("Target", self._setting_attr_string("target")), ("Reporter", self._setting_attr_string("reporter")), ("Creator", self._setting_attr_string("creator")), ("Created", timestring)] longest_key_len = max([len(k) for k,v in info]) infolines = [" %*s : %s\n" %(longest_key_len,k,v) for k,v in info] bugout = "".join(infolines) + "%s" % self.summary.rstrip('\n') else: statuschar = self.status[0] severitychar = self.severity[0] chars = "%c%c" % (statuschar, severitychar) bugout = "%s:%s: %s" % (shortname,chars,self.summary.rstrip('\n')) if show_comments == True: # take advantage of the string_thread(auto_name_map=True) # SIDE-EFFECT of sorting by comment time. comout = self.comment_root.string_thread(flatten=False, auto_name_map=True, bug_shortname=shortname) output = bugout + '\n' + comout.rstrip('\n') else : output = bugout return output def __str__(self): return self.string(shortlist=True) def __cmp__(self, other): return cmp_full(self, other) def get_path(self, name=None): my_dir = os.path.join(self.bugdir.get_path("bugs"), self.uuid) if name is None: return my_dir assert name in ["values", "comments"] return os.path.join(my_dir, name) def load_settings(self): self.settings = mapfile.map_load(self.rcs, self.get_path("values")) self._setup_saved_settings() def load_comments(self, load_full=True): if load_full == True: # Force a complete load of the whole comment tree self.comment_root = self._get_comment_root(load_full=True) else: # Setup for fresh lazy-loading. Clear _comment_root, so # _get_comment_root returns a fresh version. Turn of # syncing temporarily so we don't write our blank comment # tree to disk. self.sync_with_disk = False self.comment_root = None self.sync_with_disk = True def save_settings(self): assert self.summary != None, "Can't save blank bug" self.rcs.mkdir(self.get_path()) path = self.get_path("values") mapfile.map_save(self.rcs, path, self._get_saved_settings()) def save(self): self.save_settings() if len(self.comment_root) > 0: self.rcs.mkdir(self.get_path("comments")) comment.saveComments(self) def remove(self): self.comment_root.remove() path = self.get_path() self.rcs.recursive_remove(path) def comments(self): for comment in self.comment_root.traverse(): yield comment def new_comment(self, body=None): comm = self.comment_root.new_reply(body=body) return comm def comment_from_shortname(self, shortname, *args, **kwargs): return self.comment_root.comment_from_shortname(shortname, *args, **kwargs) def comment_from_uuid(self, uuid): return self.comment_root.comment_from_uuid(uuid) def comment_shortnames(self, shortname=None): """ SIDE-EFFECT : Comment.comment_shortnames will sort the comment tree by comment.time """ for id, comment in self.comment_root.comment_shortnames(shortname): yield (id, comment) # The general rule for bug sorting is that "more important" bugs are # less than "less important" bugs. This way sorting a list of bugs # will put the most important bugs first in the list. When relative # importance is unclear, the sorting follows some arbitrary convention # (i.e. dictionary order). def cmp_severity(bug_1, bug_2): """ Compare the severity levels of two bugs, with more severe bugs comparing as less. >>> bugA = Bug() >>> bugB = Bug() >>> bugA.severity = bugB.severity = "wishlist" >>> cmp_severity(bugA, bugB) == 0 True >>> bugB.severity = "minor" >>> cmp_severity(bugA, bugB) > 0 True >>> bugA.severity = "critical" >>> cmp_severity(bugA, bugB) < 0 True """ if not hasattr(bug_2, "severity") : return 1 return -cmp(severity_index[bug_1.severity], severity_index[bug_2.severity]) def cmp_status(bug_1, bug_2): """ Compare the status levels of two bugs, with more 'open' bugs comparing as less. >>> bugA = Bug() >>> bugB = Bug() >>> bugA.status = bugB.status = "open" >>> cmp_status(bugA, bugB) == 0 True >>> bugB.status = "closed" >>> cmp_status(bugA, bugB) < 0 True >>> bugA.status = "fixed" >>> cmp_status(bugA, bugB) > 0 True """ if not hasattr(bug_2, "status") : return 1 val_2 = status_index[bug_2.status] return cmp(status_index[bug_1.status], status_index[bug_2.status]) def cmp_attr(bug_1, bug_2, attr, invert=False): """ Compare a general attribute between two bugs using the conventional comparison rule for that attribute type. If invert == True, sort *against* that convention. >>> attr="severity" >>> bugA = Bug() >>> bugB = Bug() >>> bugA.severity = "critical" >>> bugB.severity = "wishlist" >>> cmp_attr(bugA, bugB, attr) < 0 True >>> cmp_attr(bugA, bugB, attr, invert=True) > 0 True >>> bugB.severity = "critical" >>> cmp_attr(bugA, bugB, attr) == 0 True """ if not hasattr(bug_2, attr) : return 1 val_1 = getattr(bug_1, attr) val_2 = getattr(bug_2, attr) if val_1 == settings_object.EMPTY: val_1 = None if val_2 == settings_object.EMPTY: val_2 = None if invert == True : return -cmp(val_1, val_2) else : return cmp(val_1, val_2) # alphabetical rankings (a < z) cmp_creator = lambda bug_1, bug_2 : cmp_attr(bug_1, bug_2, "creator") cmp_assigned = lambda bug_1, bug_2 : cmp_attr(bug_1, bug_2, "assigned") # chronological rankings (newer < older) cmp_time = lambda bug_1, bug_2 : cmp_attr(bug_1, bug_2, "time", invert=True) DEFAULT_CMP_FULL_CMP_LIST = \ (cmp_status,cmp_severity,cmp_assigned,cmp_time,cmp_creator) class BugCompoundComparator (object): def __init__(self, cmp_list=DEFAULT_CMP_FULL_CMP_LIST): self.cmp_list = cmp_list def __call__(self, bug_1, bug_2): for comparison in self.cmp_list : val = comparison(bug_1, bug_2) if val != 0 : return val return 0 cmp_full = BugCompoundComparator() # define some bonus cmp_* functions def cmp_last_modified(bug_1, bug_2): """ Like cmp_time(), but use most recent comment instead of bug creation for the timestamp. """ def last_modified(bug): time = bug.time for comment in bug.comment_root.traverse(): if comment.time > time: time = comment.time return time val_1 = last_modified(bug_1) val_2 = last_modified(bug_2) return -cmp(val_1, val_2) suite = doctest.DocTestSuite()