utils/Reviewing/find_interesting_reviews.py - toolchain/llvm - Git at Google

 #!/usr/bin/env python

 import argparse
 import email.mime.multipart
 import email.mime.text
 import logging
 import os.path
 import pickle
 import re
 import smtplib
 import subprocess
 import sys
 from datetime import datetime, timedelta
 from phabricator import Phabricator

 # Setting up a virtualenv to run this script can be done by running the
 # following commands:
 # $ virtualenv venv
 # $ . ./venv/bin/activate
 # $ pip install Phabricator

 GIT_REPO_METADATA = (("llvm", "https://llvm.org/git/llvm.git"), )

 # The below PhabXXX classes represent objects as modelled by Phabricator.
 # The classes can be serialized to disk, to try and make sure that we don't
 # needlessly have to re-fetch lots of data from Phabricator, as that would
 # make this script unusably slow.


 class PhabObject:
     OBJECT_KIND = None

     def __init__(self, id):
         self.id = id


 class PhabObjectCache:
     def __init__(self, PhabObjectClass):
         self.PhabObjectClass = PhabObjectClass
         self.most_recent_info = None
         self.oldest_info = None
         self.id2PhabObjects = {}

     def get_name(self):
         return self.PhabObjectClass.OBJECT_KIND + "sCache"

     def get(self, id):
         if id not in self.id2PhabObjects:
             self.id2PhabObjects[id] = self.PhabObjectClass(id)
         return self.id2PhabObjects[id]

     def get_ids_in_cache(self):
         return self.id2PhabObjects.keys()

     def get_objects(self):
         return self.id2PhabObjects.values()

     DEFAULT_DIRECTORY = "PhabObjectCache"

     def _get_pickle_name(self, directory):
         file_name = "Phab" + self.PhabObjectClass.OBJECT_KIND + "s.pickle"
         return os.path.join(directory, file_name)

     def populate_cache_from_disk(self, directory=DEFAULT_DIRECTORY):
         """
         FIXME: consider if serializing to JSON would bring interoperability
         advantages over serializing to pickle.
         """
         try:
             f = open(self._get_pickle_name(directory), "rb")
         except IOError as err:
             print("Could not find cache. Error message: {0}. Continuing..."
                   .format(err))
         else:
             with f:
                 try:
                     d = pickle.load(f)
                     self.__dict__.update(d)
                 except EOFError as err:
                     print("Cache seems to be corrupt. " +
                           "Not using cache. Error message: {0}".format(err))

     def write_cache_to_disk(self, directory=DEFAULT_DIRECTORY):
         if not os.path.exists(directory):
             os.makedirs(directory)
         with open(self._get_pickle_name(directory), "wb") as f:
             pickle.dump(self.__dict__, f)
         print("wrote cache to disk, most_recent_info= {0}".format(
             datetime.fromtimestamp(self.most_recent_info)
             if self.most_recent_info is not None else None))


 class PhabReview(PhabObject):
     OBJECT_KIND = "Review"

     def __init__(self, id):
         PhabObject.__init__(self, id)

     def update(self, title, dateCreated, dateModified, author):
         self.title = title
         self.dateCreated = dateCreated
         self.dateModified = dateModified
         self.author = author

     def setPhabDiffs(self, phabDiffs):
         self.phabDiffs = phabDiffs


 class PhabUser(PhabObject):
     OBJECT_KIND = "User"

     def __init__(self, id):
         PhabObject.__init__(self, id)

     def update(self, phid, realName):
         self.phid = phid
         self.realName = realName


 class PhabHunk:
     def __init__(self, rest_api_hunk):
         self.oldOffset = int(rest_api_hunk["oldOffset"])
         self.oldLength = int(rest_api_hunk["oldLength"])
         # self.actual_lines_changed_offset will contain the offsets of the
         # lines that were changed in this hunk.
         self.actual_lines_changed_offset = []
         offset = self.oldOffset
         inHunk = False
         hunkStart = -1
         contextLines = 3
         for line in rest_api_hunk["corpus"].split("\n"):
             if line.startswith("+"):
                 # line is a new line that got introduced in this patch.
                 # Do not record it as a changed line.
                 if inHunk is False:
                     inHunk = True
                     hunkStart = max(self.oldOffset, offset - contextLines)
                 continue
             if line.startswith("-"):
                 # line was changed or removed from the older version of the
                 # code. Record it as a changed line.
                 if inHunk is False:
                     inHunk = True
                     hunkStart = max(self.oldOffset, offset - contextLines)
                 offset += 1
                 continue
             # line is a context line.
             if inHunk is True:
                 inHunk = False
                 hunkEnd = offset + contextLines
                 self.actual_lines_changed_offset.append((hunkStart, hunkEnd))
             offset += 1
         if inHunk is True:
             hunkEnd = offset + contextLines
             self.actual_lines_changed_offset.append((hunkStart, hunkEnd))

         # The above algorithm could result in adjacent or overlapping ranges
         # being recorded into self.actual_lines_changed_offset.
         # Merge the adjacent and overlapping ranges in there:
         t = []
         lastRange = None
         for start, end in self.actual_lines_changed_offset + \
                 [(sys.maxsize, sys.maxsize)]:
             if lastRange is None:
                 lastRange = (start, end)
             else:
                 if lastRange[1] >= start:
                     lastRange = (lastRange[0], end)
                 else:
                     t.append(lastRange)
                     lastRange = (start, end)
         self.actual_lines_changed_offset = t


 class PhabChange:
     def __init__(self, rest_api_change):
         self.oldPath = rest_api_change["oldPath"]
         self.hunks = [PhabHunk(h) for h in rest_api_change["hunks"]]


 class PhabDiff(PhabObject):
     OBJECT_KIND = "Diff"

     def __init__(self, id):
         PhabObject.__init__(self, id)

     def update(self, rest_api_results):
         self.revisionID = rest_api_results["revisionID"]
         self.dateModified = int(rest_api_results["dateModified"])
         self.dateCreated = int(rest_api_results["dateCreated"])
         self.changes = [PhabChange(c) for c in rest_api_results["changes"]]


 class ReviewsCache(PhabObjectCache):
     def __init__(self):
         PhabObjectCache.__init__(self, PhabReview)


 class UsersCache(PhabObjectCache):
     def __init__(self):
         PhabObjectCache.__init__(self, PhabUser)


 reviews_cache = ReviewsCache()
 users_cache = UsersCache()


 def init_phab_connection():
     phab = Phabricator()
     phab.update_interfaces()
     return phab


 def update_cached_info(phab, cache, phab_query, order, record_results,
                        max_nr_entries_per_fetch, max_nr_days_to_cache):
     q = phab
     LIMIT = max_nr_entries_per_fetch
     for query_step in phab_query:
         q = getattr(q, query_step)
     results = q(order=order, limit=LIMIT)
     most_recent_info, oldest_info = record_results(cache, results, phab)
     oldest_info_to_fetch = datetime.fromtimestamp(most_recent_info) - \
         timedelta(days=max_nr_days_to_cache)
     most_recent_info_overall = most_recent_info
     cache.write_cache_to_disk()
     after = results["cursor"]["after"]
     print("after: {0!r}".format(after))
     print("most_recent_info: {0}".format(
         datetime.fromtimestamp(most_recent_info)))
     while (after is not None
            and datetime.fromtimestamp(oldest_info) > oldest_info_to_fetch):
         need_more_older_data = \
             (cache.oldest_info is None or
              datetime.fromtimestamp(cache.oldest_info) > oldest_info_to_fetch)
         print(("need_more_older_data={0} cache.oldest_info={1} " +
                "oldest_info_to_fetch={2}").format(
                    need_more_older_data,
                    datetime.fromtimestamp(cache.oldest_info)
                    if cache.oldest_info is not None else None,
                    oldest_info_to_fetch))
         need_more_newer_data = \
             (cache.most_recent_info is None or
              cache.most_recent_info < most_recent_info)
         print(("need_more_newer_data={0} cache.most_recent_info={1} " +
                "most_recent_info={2}")
               .format(need_more_newer_data, cache.most_recent_info,
                       most_recent_info))
         if not need_more_older_data and not need_more_newer_data:
             break
         results = q(order=order, after=after, limit=LIMIT)
         most_recent_info, oldest_info = record_results(cache, results, phab)
         after = results["cursor"]["after"]
         print("after: {0!r}".format(after))
         print("most_recent_info: {0}".format(
             datetime.fromtimestamp(most_recent_info)))
         cache.write_cache_to_disk()
     cache.most_recent_info = most_recent_info_overall
     if after is None:
         # We did fetch all records. Mark the cache to contain all info since
         # the start of time.
         oldest_info = 0
     cache.oldest_info = oldest_info
     cache.write_cache_to_disk()


 def record_reviews(cache, reviews, phab):
     most_recent_info = None
     oldest_info = None
     for reviewInfo in reviews["data"]:
         if reviewInfo["type"] != "DREV":
             continue
         id = reviewInfo["id"]
         # phid = reviewInfo["phid"]
         dateModified = int(reviewInfo["fields"]["dateModified"])
         dateCreated = int(reviewInfo["fields"]["dateCreated"])
         title = reviewInfo["fields"]["title"]
         author = reviewInfo["fields"]["authorPHID"]
         phabReview = cache.get(id)
         if "dateModified" not in phabReview.__dict__ or \
            dateModified > phabReview.dateModified:
             diff_results = phab.differential.querydiffs(revisionIDs=[id])
             diff_ids = sorted(diff_results.keys())
             phabDiffs = []
             for diff_id in diff_ids:
                 diffInfo = diff_results[diff_id]
                 d = PhabDiff(diff_id)
                 d.update(diffInfo)
                 phabDiffs.append(d)
             phabReview.update(title, dateCreated, dateModified, author)
             phabReview.setPhabDiffs(phabDiffs)
             print("Updated D{0} modified on {1} ({2} diffs)".format(
                 id, datetime.fromtimestamp(dateModified), len(phabDiffs)))

         if most_recent_info is None:
             most_recent_info = dateModified
         elif most_recent_info < dateModified:
             most_recent_info = dateModified

         if oldest_info is None:
             oldest_info = dateModified
         elif oldest_info > dateModified:
             oldest_info = dateModified
     return most_recent_info, oldest_info


 def record_users(cache, users, phab):
     most_recent_info = None
     oldest_info = None
     for info in users["data"]:
         if info["type"] != "USER":
             continue
         id = info["id"]
         phid = info["phid"]
         dateModified = int(info["fields"]["dateModified"])
         # dateCreated = int(info["fields"]["dateCreated"])
         realName = info["fields"]["realName"]
         phabUser = cache.get(id)
         phabUser.update(phid, realName)
         if most_recent_info is None:
             most_recent_info = dateModified
         elif most_recent_info < dateModified:
             most_recent_info = dateModified
         if oldest_info is None:
             oldest_info = dateModified
         elif oldest_info > dateModified:
             oldest_info = dateModified
     return most_recent_info, oldest_info


 PHABCACHESINFO = ((reviews_cache, ("differential", "revision", "search"),
                    "updated", record_reviews, 5, 7),
                   (users_cache, ("user", "search"), "newest", record_users,
                    100, 1000))


 def load_cache():
     for cache, phab_query, order, record_results, _, _ in PHABCACHESINFO:
         cache.populate_cache_from_disk()
         print("Loaded {0} nr entries: {1}".format(
             cache.get_name(), len(cache.get_ids_in_cache())))
         print("Loaded {0} has most recent info: {1}".format(
             cache.get_name(),
             datetime.fromtimestamp(cache.most_recent_info)
             if cache.most_recent_info is not None else None))


 def update_cache(phab):
     load_cache()
     for cache, phab_query, order, record_results, max_nr_entries_per_fetch, \
             max_nr_days_to_cache in PHABCACHESINFO:
         update_cached_info(phab, cache, phab_query, order, record_results,
                            max_nr_entries_per_fetch, max_nr_days_to_cache)
         ids_in_cache = cache.get_ids_in_cache()
         print("{0} objects in {1}".format(len(ids_in_cache), cache.get_name()))
         cache.write_cache_to_disk()


 def get_most_recent_reviews(days):
     newest_reviews = sorted(
         reviews_cache.get_objects(), key=lambda r: -r.dateModified)
     if len(newest_reviews) == 0:
         return newest_reviews
     most_recent_review_time = \
         datetime.fromtimestamp(newest_reviews[0].dateModified)
     cut_off_date = most_recent_review_time - timedelta(days=days)
     result = []
     for review in newest_reviews:
         if datetime.fromtimestamp(review.dateModified) < cut_off_date:
             return result
         result.append(review)
     return result


 # All of the above code is about fetching data from Phabricator and caching it
 # on local disk. The below code contains the actual "business logic" for this
 # script.

 _userphid2realname = None


 def get_real_name_from_author(user_phid):
     global _userphid2realname
     if _userphid2realname is None:
         _userphid2realname = {}
         for user in users_cache.get_objects():
             _userphid2realname[user.phid] = user.realName
     return _userphid2realname.get(user_phid, "unknown")


 def print_most_recent_reviews(phab, days, filter_reviewers):
     msgs = []

     def add_msg(msg):
         msgs.append(msg)
         print(msg)

     newest_reviews = get_most_recent_reviews(days)
     add_msg(u"These are the reviews that look interesting to be reviewed. " +
             u"The report below has 2 sections. The first " +
             u"section is organized per review; the second section is organized "
             + u"per potential reviewer.\n")
     oldest_review = newest_reviews[-1] if len(newest_reviews) > 0 else None
     oldest_datetime = \
         datetime.fromtimestamp(oldest_review.dateModified) \
         if oldest_review else None
     add_msg((u"The report below is based on analyzing the reviews that got " +
              u"touched in the past {0} days (since {1}). " +
              u"The script found {2} such reviews.\n").format(
                  days, oldest_datetime, len(newest_reviews)))
     reviewer2reviews_and_scores = {}
     for i, review in enumerate(newest_reviews):
         matched_reviewers = find_reviewers_for_review(review)
         matched_reviewers = filter_reviewers(matched_reviewers)
         if len(matched_reviewers) == 0:
             continue
         add_msg((u"{0:>3}. https://reviews.llvm.org/D{1} by {2}\n     {3}\n" +
                  u"     Last updated on {4}").format(
                      i, review.id,
                      get_real_name_from_author(review.author), review.title,
                      datetime.fromtimestamp(review.dateModified)))
         for reviewer, scores in matched_reviewers:
             add_msg(u"    potential reviewer {0}, score {1}".format(
                 reviewer,
                 "(" + "/".join(["{0:.1f}%".format(s) for s in scores]) + ")"))
             if reviewer not in reviewer2reviews_and_scores:
                 reviewer2reviews_and_scores[reviewer] = []
             reviewer2reviews_and_scores[reviewer].append((review, scores))

     # Print out a summary per reviewer.
     for reviewer in sorted(reviewer2reviews_and_scores.keys()):
         reviews_and_scores = reviewer2reviews_and_scores[reviewer]
         reviews_and_scores.sort(key=lambda rs: rs[1], reverse=True)
         add_msg(u"\n\nSUMMARY FOR {0} (found {1} reviews):".format(
             reviewer, len(reviews_and_scores)))
         for review, scores in reviews_and_scores:
             add_msg(u"[{0}] https://reviews.llvm.org/D{1} '{2}' by {3}".format(
                 "/".join(["{0:.1f}%".format(s) for s in scores]), review.id,
                 review.title, get_real_name_from_author(review.author)))
     return "\n".join(msgs)


 def get_git_cmd_output(cmd):
     output = None
     try:
         logging.debug(cmd)
         output = subprocess.check_output(
             cmd, shell=True, stderr=subprocess.STDOUT)
     except subprocess.CalledProcessError as e:
         logging.debug(str(e))
     if output is None:
         return None
     return output.decode("utf-8", errors='ignore')


 reAuthorMail = re.compile("^author-mail <([^>]*)>.*$")


 def parse_blame_output_line_porcelain(blame_output):
     email2nr_occurences = {}
     if blame_output is None:
         return email2nr_occurences
     for line in blame_output.split('\n'):
         m = reAuthorMail.match(line)
         if m:
             author_email_address = m.group(1)
             if author_email_address not in email2nr_occurences:
                 email2nr_occurences[author_email_address] = 1
             else:
                 email2nr_occurences[author_email_address] += 1
     return email2nr_occurences


 def find_reviewers_for_diff_heuristic(diff):
     # Heuristic 1: assume good reviewers are the ones that touched the same
     # lines before as this patch is touching.
     # Heuristic 2: assume good reviewers are the ones that touched the same
     # files before as this patch is touching.
     reviewers2nr_lines_touched = {}
     reviewers2nr_files_touched = {}
     # Assume last revision before diff was modified is the revision the diff
     # applies to.
     git_repo = "git_repos/llvm"
     cmd = 'git -C {0} rev-list -n 1 --before="{1}" master'.format(
         git_repo,
         datetime.fromtimestamp(
             diff.dateModified).strftime("%Y-%m-%d %H:%M:%s"))
     base_revision = get_git_cmd_output(cmd).strip()
     logging.debug("Base revision={0}".format(base_revision))
     for change in diff.changes:
         path = change.oldPath
         # Compute heuristic 1: look at context of patch lines.
         for hunk in change.hunks:
             for start_line, end_line in hunk.actual_lines_changed_offset:
                 # Collect git blame results for authors in those ranges.
                 cmd = ("git -C {0} blame --encoding=utf-8 --date iso -f -e " +
                        "-w --line-porcelain -L {1},{2} {3} -- {4}").format(
                            git_repo, start_line, end_line, base_revision, path)
                 blame_output = get_git_cmd_output(cmd)
                 for reviewer, nr_occurences in \
                         parse_blame_output_line_porcelain(blame_output).items():
                     if reviewer not in reviewers2nr_lines_touched:
                         reviewers2nr_lines_touched[reviewer] = 0
                     reviewers2nr_lines_touched[reviewer] += nr_occurences
         # Compute heuristic 2: don't look at context, just at files touched.
         # Collect git blame results for authors in those ranges.
         cmd = ("git -C {0} blame --encoding=utf-8 --date iso -f -e -w " +
                "--line-porcelain {1} -- {2}").format(git_repo, base_revision,
                                                      path)
         blame_output = get_git_cmd_output(cmd)
         for reviewer, nr_occurences in parse_blame_output_line_porcelain(
                 blame_output).items():
             if reviewer not in reviewers2nr_files_touched:
                 reviewers2nr_files_touched[reviewer] = 0
             reviewers2nr_files_touched[reviewer] += 1

     # Compute "match scores"
     total_nr_lines = sum(reviewers2nr_lines_touched.values())
     total_nr_files = len(diff.changes)
     reviewers_matchscores = \
         [(reviewer,
           (reviewers2nr_lines_touched.get(reviewer, 0)*100.0/total_nr_lines
            if total_nr_lines != 0 else 0,
            reviewers2nr_files_touched[reviewer]*100.0/total_nr_files
            if total_nr_files != 0 else 0))
          for reviewer, nr_lines
          in reviewers2nr_files_touched.items()]
     reviewers_matchscores.sort(key=lambda i: i[1], reverse=True)
     return reviewers_matchscores


 def find_reviewers_for_review(review):
     # Process the newest diff first.
     diffs = sorted(
         review.phabDiffs, key=lambda d: d.dateModified, reverse=True)
     if len(diffs) == 0:
         return
     diff = diffs[0]
     matched_reviewers = find_reviewers_for_diff_heuristic(diff)
     # Show progress, as this is a slow operation:
     sys.stdout.write('.')
     sys.stdout.flush()
     logging.debug(u"matched_reviewers: {0}".format(matched_reviewers))
     return matched_reviewers


 def update_git_repos():
     git_repos_directory = "git_repos"
     for name, url in GIT_REPO_METADATA:
         dirname = os.path.join(git_repos_directory, name)
         if not os.path.exists(dirname):
             cmd = "git clone {0} {1}".format(url, dirname)
             output = get_git_cmd_output(cmd)
         cmd = "git -C {0} pull --rebase".format(dirname)
         output = get_git_cmd_output(cmd)


 def send_emails(email_addresses, sender, msg):
     s = smtplib.SMTP()
     s.connect()
     for email_address in email_addresses:
         email_msg = email.mime.multipart.MIMEMultipart()
         email_msg['From'] = sender
         email_msg['To'] = email_address
         email_msg['Subject'] = 'LLVM patches you may be able to review.'
         email_msg.attach(email.mime.text.MIMEText(msg.encode('utf-8'), 'plain'))
         # python 3.x: s.send_message(email_msg)
         s.sendmail(email_msg['From'], email_msg['To'], email_msg.as_string())
     s.quit()


 def filter_reviewers_to_report_for(people_to_look_for):
     # The below is just an example filter, to only report potential reviews
     # to do for the people that will receive the report email.
     return lambda potential_reviewers: [r for r in potential_reviewers
                                         if r[0] in people_to_look_for]


 def main():
     parser = argparse.ArgumentParser(
         description='Match open reviews to potential reviewers.')
     parser.add_argument(
         '--no-update-cache',
         dest='update_cache',
         action='store_false',
         default=True,
         help='Do not update cached Phabricator objects')
     parser.add_argument(
         '--email-report',
         dest='email_report',
         nargs='*',
         default="",
         help="A email addresses to send the report to.")
     parser.add_argument(
         '--sender',
         dest='sender',
         default="",
         help="The email address to use in 'From' on messages emailed out.")
     parser.add_argument(
         '--email-addresses',
         dest='email_addresses',
         nargs='*',
         help="The email addresses (as known by LLVM git) of " +
         "the people to look for reviews for.")
     parser.add_argument('--verbose', '-v', action='count')

     args = parser.parse_args()

     if args.verbose >= 1:
         logging.basicConfig(level=logging.DEBUG)

     people_to_look_for = [e.decode('utf-8') for e in args.email_addresses]
     logging.debug("Will look for reviews that following contributors could " +
                   "review: {}".format(people_to_look_for))
     logging.debug("Will email a report to: {}".format(args.email_report))

     phab = init_phab_connection()

     if args.update_cache:
         update_cache(phab)

     load_cache()
     update_git_repos()
     msg = print_most_recent_reviews(
         phab,
         days=1,
         filter_reviewers=filter_reviewers_to_report_for(people_to_look_for))

     if args.email_report != []:
         send_emails(args.email_report, args.sender, msg)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python

	import argparse
	import email.mime.multipart
	import email.mime.text
	import logging
	import os.path
	import pickle
	import re
	import smtplib
	import subprocess
	import sys
	from datetime import datetime, timedelta
	from phabricator import Phabricator

	# Setting up a virtualenv to run this script can be done by running the
	# following commands:
	# $ virtualenv venv
	# $ . ./venv/bin/activate
	# $ pip install Phabricator

	GIT_REPO_METADATA = (("llvm", "https://llvm.org/git/llvm.git"), )

	# The below PhabXXX classes represent objects as modelled by Phabricator.
	# The classes can be serialized to disk, to try and make sure that we don't
	# needlessly have to re-fetch lots of data from Phabricator, as that would
	# make this script unusably slow.


	class PhabObject:
	OBJECT_KIND = None

	def __init__(self, id):
	self.id = id


	class PhabObjectCache:
	def __init__(self, PhabObjectClass):
	self.PhabObjectClass = PhabObjectClass
	self.most_recent_info = None
	self.oldest_info = None
	self.id2PhabObjects = {}

	def get_name(self):
	return self.PhabObjectClass.OBJECT_KIND + "sCache"

	def get(self, id):
	if id not in self.id2PhabObjects:
	self.id2PhabObjects[id] = self.PhabObjectClass(id)
	return self.id2PhabObjects[id]

	def get_ids_in_cache(self):
	return self.id2PhabObjects.keys()

	def get_objects(self):
	return self.id2PhabObjects.values()

	DEFAULT_DIRECTORY = "PhabObjectCache"

	def _get_pickle_name(self, directory):
	file_name = "Phab" + self.PhabObjectClass.OBJECT_KIND + "s.pickle"
	return os.path.join(directory, file_name)

	def populate_cache_from_disk(self, directory=DEFAULT_DIRECTORY):
	"""
	FIXME: consider if serializing to JSON would bring interoperability
	advantages over serializing to pickle.
	"""
	try:
	f = open(self._get_pickle_name(directory), "rb")
	except IOError as err:
	print("Could not find cache. Error message: {0}. Continuing..."
	.format(err))
	else:
	with f:
	try:
	d = pickle.load(f)
	self.__dict__.update(d)
	except EOFError as err:
	print("Cache seems to be corrupt. " +
	"Not using cache. Error message: {0}".format(err))

	def write_cache_to_disk(self, directory=DEFAULT_DIRECTORY):
	if not os.path.exists(directory):
	os.makedirs(directory)
	with open(self._get_pickle_name(directory), "wb") as f:
	pickle.dump(self.__dict__, f)
	print("wrote cache to disk, most_recent_info= {0}".format(
	datetime.fromtimestamp(self.most_recent_info)
	if self.most_recent_info is not None else None))


	class PhabReview(PhabObject):
	OBJECT_KIND = "Review"

	def __init__(self, id):
	PhabObject.__init__(self, id)

	def update(self, title, dateCreated, dateModified, author):
	self.title = title
	self.dateCreated = dateCreated
	self.dateModified = dateModified
	self.author = author

	def setPhabDiffs(self, phabDiffs):
	self.phabDiffs = phabDiffs


	class PhabUser(PhabObject):
	OBJECT_KIND = "User"

	def __init__(self, id):
	PhabObject.__init__(self, id)

	def update(self, phid, realName):
	self.phid = phid
	self.realName = realName


	class PhabHunk:
	def __init__(self, rest_api_hunk):
	self.oldOffset = int(rest_api_hunk["oldOffset"])
	self.oldLength = int(rest_api_hunk["oldLength"])
	# self.actual_lines_changed_offset will contain the offsets of the
	# lines that were changed in this hunk.
	self.actual_lines_changed_offset = []
	offset = self.oldOffset
	inHunk = False
	hunkStart = -1
	contextLines = 3
	for line in rest_api_hunk["corpus"].split("\n"):
	if line.startswith("+"):
	# line is a new line that got introduced in this patch.
	# Do not record it as a changed line.
	if inHunk is False:
	inHunk = True
	hunkStart = max(self.oldOffset, offset - contextLines)
	continue
	if line.startswith("-"):
	# line was changed or removed from the older version of the
	# code. Record it as a changed line.
	if inHunk is False:
	inHunk = True
	hunkStart = max(self.oldOffset, offset - contextLines)
	offset += 1
	continue
	# line is a context line.
	if inHunk is True:
	inHunk = False
	hunkEnd = offset + contextLines
	self.actual_lines_changed_offset.append((hunkStart, hunkEnd))
	offset += 1
	if inHunk is True:
	hunkEnd = offset + contextLines
	self.actual_lines_changed_offset.append((hunkStart, hunkEnd))

	# The above algorithm could result in adjacent or overlapping ranges
	# being recorded into self.actual_lines_changed_offset.
	# Merge the adjacent and overlapping ranges in there:
	t = []
	lastRange = None
	for start, end in self.actual_lines_changed_offset + \
	[(sys.maxsize, sys.maxsize)]:
	if lastRange is None:
	lastRange = (start, end)
	else:
	if lastRange[1] >= start:
	lastRange = (lastRange[0], end)
	else:
	t.append(lastRange)
	lastRange = (start, end)
	self.actual_lines_changed_offset = t


	class PhabChange:
	def __init__(self, rest_api_change):
	self.oldPath = rest_api_change["oldPath"]
	self.hunks = [PhabHunk(h) for h in rest_api_change["hunks"]]


	class PhabDiff(PhabObject):
	OBJECT_KIND = "Diff"

	def __init__(self, id):
	PhabObject.__init__(self, id)

	def update(self, rest_api_results):
	self.revisionID = rest_api_results["revisionID"]
	self.dateModified = int(rest_api_results["dateModified"])
	self.dateCreated = int(rest_api_results["dateCreated"])
	self.changes = [PhabChange(c) for c in rest_api_results["changes"]]


	class ReviewsCache(PhabObjectCache):
	def __init__(self):
	PhabObjectCache.__init__(self, PhabReview)


	class UsersCache(PhabObjectCache):
	def __init__(self):
	PhabObjectCache.__init__(self, PhabUser)


	reviews_cache = ReviewsCache()
	users_cache = UsersCache()


	def init_phab_connection():
	phab = Phabricator()
	phab.update_interfaces()
	return phab


	def update_cached_info(phab, cache, phab_query, order, record_results,
	max_nr_entries_per_fetch, max_nr_days_to_cache):
	q = phab
	LIMIT = max_nr_entries_per_fetch
	for query_step in phab_query:
	q = getattr(q, query_step)
	results = q(order=order, limit=LIMIT)
	most_recent_info, oldest_info = record_results(cache, results, phab)
	oldest_info_to_fetch = datetime.fromtimestamp(most_recent_info) - \
	timedelta(days=max_nr_days_to_cache)
	most_recent_info_overall = most_recent_info
	cache.write_cache_to_disk()
	after = results["cursor"]["after"]
	print("after: {0!r}".format(after))
	print("most_recent_info: {0}".format(
	datetime.fromtimestamp(most_recent_info)))
	while (after is not None
	and datetime.fromtimestamp(oldest_info) > oldest_info_to_fetch):
	need_more_older_data = \
	(cache.oldest_info is None or
	datetime.fromtimestamp(cache.oldest_info) > oldest_info_to_fetch)
	print(("need_more_older_data={0} cache.oldest_info={1} " +
	"oldest_info_to_fetch={2}").format(
	need_more_older_data,
	datetime.fromtimestamp(cache.oldest_info)
	if cache.oldest_info is not None else None,
	oldest_info_to_fetch))
	need_more_newer_data = \
	(cache.most_recent_info is None or
	cache.most_recent_info < most_recent_info)
	print(("need_more_newer_data={0} cache.most_recent_info={1} " +
	"most_recent_info={2}")
	.format(need_more_newer_data, cache.most_recent_info,
	most_recent_info))
	if not need_more_older_data and not need_more_newer_data:
	break
	results = q(order=order, after=after, limit=LIMIT)
	most_recent_info, oldest_info = record_results(cache, results, phab)
	after = results["cursor"]["after"]
	print("after: {0!r}".format(after))
	print("most_recent_info: {0}".format(
	datetime.fromtimestamp(most_recent_info)))
	cache.write_cache_to_disk()
	cache.most_recent_info = most_recent_info_overall
	if after is None:
	# We did fetch all records. Mark the cache to contain all info since
	# the start of time.
	oldest_info = 0
	cache.oldest_info = oldest_info
	cache.write_cache_to_disk()


	def record_reviews(cache, reviews, phab):
	most_recent_info = None
	oldest_info = None
	for reviewInfo in reviews["data"]:
	if reviewInfo["type"] != "DREV":
	continue
	id = reviewInfo["id"]
	# phid = reviewInfo["phid"]
	dateModified = int(reviewInfo["fields"]["dateModified"])
	dateCreated = int(reviewInfo["fields"]["dateCreated"])
	title = reviewInfo["fields"]["title"]
	author = reviewInfo["fields"]["authorPHID"]
	phabReview = cache.get(id)
	if "dateModified" not in phabReview.__dict__ or \
	dateModified > phabReview.dateModified:
	diff_results = phab.differential.querydiffs(revisionIDs=[id])
	diff_ids = sorted(diff_results.keys())
	phabDiffs = []
	for diff_id in diff_ids:
	diffInfo = diff_results[diff_id]
	d = PhabDiff(diff_id)
	d.update(diffInfo)
	phabDiffs.append(d)
	phabReview.update(title, dateCreated, dateModified, author)
	phabReview.setPhabDiffs(phabDiffs)
	print("Updated D{0} modified on {1} ({2} diffs)".format(
	id, datetime.fromtimestamp(dateModified), len(phabDiffs)))

	if most_recent_info is None:
	most_recent_info = dateModified
	elif most_recent_info < dateModified:
	most_recent_info = dateModified

	if oldest_info is None:
	oldest_info = dateModified
	elif oldest_info > dateModified:
	oldest_info = dateModified
	return most_recent_info, oldest_info


	def record_users(cache, users, phab):
	most_recent_info = None
	oldest_info = None
	for info in users["data"]:
	if info["type"] != "USER":
	continue
	id = info["id"]
	phid = info["phid"]
	dateModified = int(info["fields"]["dateModified"])
	# dateCreated = int(info["fields"]["dateCreated"])
	realName = info["fields"]["realName"]
	phabUser = cache.get(id)
	phabUser.update(phid, realName)
	if most_recent_info is None:
	most_recent_info = dateModified
	elif most_recent_info < dateModified:
	most_recent_info = dateModified
	if oldest_info is None:
	oldest_info = dateModified
	elif oldest_info > dateModified:
	oldest_info = dateModified
	return most_recent_info, oldest_info


	PHABCACHESINFO = ((reviews_cache, ("differential", "revision", "search"),
	"updated", record_reviews, 5, 7),
	(users_cache, ("user", "search"), "newest", record_users,
	100, 1000))


	def load_cache():
	for cache, phab_query, order, record_results, _, _ in PHABCACHESINFO:
	cache.populate_cache_from_disk()
	print("Loaded {0} nr entries: {1}".format(
	cache.get_name(), len(cache.get_ids_in_cache())))
	print("Loaded {0} has most recent info: {1}".format(
	cache.get_name(),
	datetime.fromtimestamp(cache.most_recent_info)
	if cache.most_recent_info is not None else None))


	def update_cache(phab):
	load_cache()
	for cache, phab_query, order, record_results, max_nr_entries_per_fetch, \
	max_nr_days_to_cache in PHABCACHESINFO:
	update_cached_info(phab, cache, phab_query, order, record_results,
	max_nr_entries_per_fetch, max_nr_days_to_cache)
	ids_in_cache = cache.get_ids_in_cache()
	print("{0} objects in {1}".format(len(ids_in_cache), cache.get_name()))
	cache.write_cache_to_disk()


	def get_most_recent_reviews(days):
	newest_reviews = sorted(
	reviews_cache.get_objects(), key=lambda r: -r.dateModified)
	if len(newest_reviews) == 0:
	return newest_reviews
	most_recent_review_time = \
	datetime.fromtimestamp(newest_reviews[0].dateModified)
	cut_off_date = most_recent_review_time - timedelta(days=days)
	result = []
	for review in newest_reviews:
	if datetime.fromtimestamp(review.dateModified) < cut_off_date:
	return result
	result.append(review)
	return result


	# All of the above code is about fetching data from Phabricator and caching it
	# on local disk. The below code contains the actual "business logic" for this
	# script.

	_userphid2realname = None


	def get_real_name_from_author(user_phid):
	global _userphid2realname
	if _userphid2realname is None:
	_userphid2realname = {}
	for user in users_cache.get_objects():
	_userphid2realname[user.phid] = user.realName
	return _userphid2realname.get(user_phid, "unknown")


	def print_most_recent_reviews(phab, days, filter_reviewers):
	msgs = []

	def add_msg(msg):
	msgs.append(msg)
	print(msg)

	newest_reviews = get_most_recent_reviews(days)
	add_msg(u"These are the reviews that look interesting to be reviewed. " +
	u"The report below has 2 sections. The first " +
	u"section is organized per review; the second section is organized "
	+ u"per potential reviewer.\n")
	oldest_review = newest_reviews[-1] if len(newest_reviews) > 0 else None
	oldest_datetime = \
	datetime.fromtimestamp(oldest_review.dateModified) \
	if oldest_review else None
	add_msg((u"The report below is based on analyzing the reviews that got " +
	u"touched in the past {0} days (since {1}). " +
	u"The script found {2} such reviews.\n").format(
	days, oldest_datetime, len(newest_reviews)))
	reviewer2reviews_and_scores = {}
	for i, review in enumerate(newest_reviews):
	matched_reviewers = find_reviewers_for_review(review)
	matched_reviewers = filter_reviewers(matched_reviewers)
	if len(matched_reviewers) == 0:
	continue
	add_msg((u"{0:>3}. https://reviews.llvm.org/D{1} by {2}\n {3}\n" +
	u" Last updated on {4}").format(
	i, review.id,
	get_real_name_from_author(review.author), review.title,
	datetime.fromtimestamp(review.dateModified)))
	for reviewer, scores in matched_reviewers:
	add_msg(u" potential reviewer {0}, score {1}".format(
	reviewer,
	"(" + "/".join(["{0:.1f}%".format(s) for s in scores]) + ")"))
	if reviewer not in reviewer2reviews_and_scores:
	reviewer2reviews_and_scores[reviewer] = []
	reviewer2reviews_and_scores[reviewer].append((review, scores))

	# Print out a summary per reviewer.
	for reviewer in sorted(reviewer2reviews_and_scores.keys()):
	reviews_and_scores = reviewer2reviews_and_scores[reviewer]
	reviews_and_scores.sort(key=lambda rs: rs[1], reverse=True)
	add_msg(u"\n\nSUMMARY FOR {0} (found {1} reviews):".format(
	reviewer, len(reviews_and_scores)))
	for review, scores in reviews_and_scores:
	add_msg(u"[{0}] https://reviews.llvm.org/D{1} '{2}' by {3}".format(
	"/".join(["{0:.1f}%".format(s) for s in scores]), review.id,
	review.title, get_real_name_from_author(review.author)))
	return "\n".join(msgs)


	def get_git_cmd_output(cmd):
	output = None
	try:
	logging.debug(cmd)
	output = subprocess.check_output(
	cmd, shell=True, stderr=subprocess.STDOUT)
	except subprocess.CalledProcessError as e:
	logging.debug(str(e))
	if output is None:
	return None
	return output.decode("utf-8", errors='ignore')


	reAuthorMail = re.compile("^author-mail <([^>])>.$")


	def parse_blame_output_line_porcelain(blame_output):
	email2nr_occurences = {}
	if blame_output is None:
	return email2nr_occurences
	for line in blame_output.split('\n'):
	m = reAuthorMail.match(line)
	if m:
	author_email_address = m.group(1)
	if author_email_address not in email2nr_occurences:
	email2nr_occurences[author_email_address] = 1
	else:
	email2nr_occurences[author_email_address] += 1
	return email2nr_occurences


	def find_reviewers_for_diff_heuristic(diff):
	# Heuristic 1: assume good reviewers are the ones that touched the same
	# lines before as this patch is touching.
	# Heuristic 2: assume good reviewers are the ones that touched the same
	# files before as this patch is touching.
	reviewers2nr_lines_touched = {}
	reviewers2nr_files_touched = {}
	# Assume last revision before diff was modified is the revision the diff
	# applies to.
	git_repo = "git_repos/llvm"
	cmd = 'git -C {0} rev-list -n 1 --before="{1}" master'.format(
	git_repo,
	datetime.fromtimestamp(
	diff.dateModified).strftime("%Y-%m-%d %H:%M:%s"))
	base_revision = get_git_cmd_output(cmd).strip()
	logging.debug("Base revision={0}".format(base_revision))
	for change in diff.changes:
	path = change.oldPath
	# Compute heuristic 1: look at context of patch lines.
	for hunk in change.hunks:
	for start_line, end_line in hunk.actual_lines_changed_offset:
	# Collect git blame results for authors in those ranges.
	cmd = ("git -C {0} blame --encoding=utf-8 --date iso -f -e " +
	"-w --line-porcelain -L {1},{2} {3} -- {4}").format(
	git_repo, start_line, end_line, base_revision, path)
	blame_output = get_git_cmd_output(cmd)
	for reviewer, nr_occurences in \
	parse_blame_output_line_porcelain(blame_output).items():
	if reviewer not in reviewers2nr_lines_touched:
	reviewers2nr_lines_touched[reviewer] = 0
	reviewers2nr_lines_touched[reviewer] += nr_occurences
	# Compute heuristic 2: don't look at context, just at files touched.
	# Collect git blame results for authors in those ranges.
	cmd = ("git -C {0} blame --encoding=utf-8 --date iso -f -e -w " +
	"--line-porcelain {1} -- {2}").format(git_repo, base_revision,
	path)
	blame_output = get_git_cmd_output(cmd)
	for reviewer, nr_occurences in parse_blame_output_line_porcelain(
	blame_output).items():
	if reviewer not in reviewers2nr_files_touched:
	reviewers2nr_files_touched[reviewer] = 0
	reviewers2nr_files_touched[reviewer] += 1

	# Compute "match scores"
	total_nr_lines = sum(reviewers2nr_lines_touched.values())
	total_nr_files = len(diff.changes)
	reviewers_matchscores = \
	[(reviewer,
	(reviewers2nr_lines_touched.get(reviewer, 0)*100.0/total_nr_lines
	if total_nr_lines != 0 else 0,
	reviewers2nr_files_touched[reviewer]*100.0/total_nr_files
	if total_nr_files != 0 else 0))
	for reviewer, nr_lines
	in reviewers2nr_files_touched.items()]
	reviewers_matchscores.sort(key=lambda i: i[1], reverse=True)
	return reviewers_matchscores


	def find_reviewers_for_review(review):
	# Process the newest diff first.
	diffs = sorted(
	review.phabDiffs, key=lambda d: d.dateModified, reverse=True)
	if len(diffs) == 0:
	return
	diff = diffs[0]
	matched_reviewers = find_reviewers_for_diff_heuristic(diff)
	# Show progress, as this is a slow operation:
	sys.stdout.write('.')
	sys.stdout.flush()
	logging.debug(u"matched_reviewers: {0}".format(matched_reviewers))
	return matched_reviewers


	def update_git_repos():
	git_repos_directory = "git_repos"
	for name, url in GIT_REPO_METADATA:
	dirname = os.path.join(git_repos_directory, name)
	if not os.path.exists(dirname):
	cmd = "git clone {0} {1}".format(url, dirname)
	output = get_git_cmd_output(cmd)
	cmd = "git -C {0} pull --rebase".format(dirname)
	output = get_git_cmd_output(cmd)


	def send_emails(email_addresses, sender, msg):
	s = smtplib.SMTP()
	s.connect()
	for email_address in email_addresses:
	email_msg = email.mime.multipart.MIMEMultipart()
	email_msg['From'] = sender
	email_msg['To'] = email_address
	email_msg['Subject'] = 'LLVM patches you may be able to review.'
	email_msg.attach(email.mime.text.MIMEText(msg.encode('utf-8'), 'plain'))
	# python 3.x: s.send_message(email_msg)
	s.sendmail(email_msg['From'], email_msg['To'], email_msg.as_string())
	s.quit()


	def filter_reviewers_to_report_for(people_to_look_for):
	# The below is just an example filter, to only report potential reviews
	# to do for the people that will receive the report email.
	return lambda potential_reviewers: [r for r in potential_reviewers
	if r[0] in people_to_look_for]


	def main():
	parser = argparse.ArgumentParser(
	description='Match open reviews to potential reviewers.')
	parser.add_argument(
	'--no-update-cache',
	dest='update_cache',
	action='store_false',
	default=True,
	help='Do not update cached Phabricator objects')
	parser.add_argument(
	'--email-report',
	dest='email_report',
	nargs='*',
	default="",
	help="A email addresses to send the report to.")
	parser.add_argument(
	'--sender',
	dest='sender',
	default="",
	help="The email address to use in 'From' on messages emailed out.")
	parser.add_argument(
	'--email-addresses',
	dest='email_addresses',
	nargs='*',
	help="The email addresses (as known by LLVM git) of " +
	"the people to look for reviews for.")
	parser.add_argument('--verbose', '-v', action='count')

	args = parser.parse_args()

	if args.verbose >= 1:
	logging.basicConfig(level=logging.DEBUG)

	people_to_look_for = [e.decode('utf-8') for e in args.email_addresses]
	logging.debug("Will look for reviews that following contributors could " +
	"review: {}".format(people_to_look_for))
	logging.debug("Will email a report to: {}".format(args.email_report))

	phab = init_phab_connection()

	if args.update_cache:
	update_cache(phab)

	load_cache()
	update_git_repos()
	msg = print_most_recent_reviews(
	phab,
	days=1,
	filter_reviewers=filter_reviewers_to_report_for(people_to_look_for))

	if args.email_report != []:
	send_emails(args.email_report, args.sender, msg)


	if __name__ == "__main__":
	main()