Mercurial > p > roundup > code
view scripts/stats.xmlrpc.py @ 7399:deb8e7e6d66d
Skip redis tests if unable to communicate with the server.
If the redis module is in the test environment, the redis tests will
not be skipped. If connecting to redis during testing fails with a
ConnectionError because there is no redis server at localhost, or if
it fails with an AuthenticationError, you would fail a slew of tests.
This causes the tests to report as skipped if either of the two errors
occurs. It is very inefficient as it fails in setup() for the tests,
but at least it does report skipping the tests.
Also documented how to pass the redis password to the tests in the
test part of the install docs. Future note: running tests needs proper
docs in development.txt (including database setup) and a link left to
that doc in installation.txt.
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Wed, 24 May 2023 12:52:53 -0400 |
| parents | 75da037d1c54 |
| children |
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"""Count how many issues use each bpo field and print a report.""" """ sample output: https://github.com/psf/gh-migration/issues/5#issuecomment-935697646""" import xmlrpc.client from collections import defaultdict class SpecialTransport(xmlrpc.client.SafeTransport): def send_content(self, connection, request_body): connection.putheader("Referer", "https://bugs.python.org/") connection.putheader("Origin", "https://bugs.python.org") connection.putheader("X-Requested-With", "XMLHttpRequest") xmlrpc.client.SafeTransport.send_content(self, connection, request_body) # connect to bpo roundup = xmlrpc.client.ServerProxy('https://bugs.python.org/xmlrpc', transport=SpecialTransport(), allow_none=True) # map bpo classes -> propname # the class is the name of the class (e.g. issue_type, keyword -- # also used in e.g. in https://bugs.python.org/keyword) # the propname is the name used as attribute on the issue class # (e.g. issue.type, issue.keywords) classes = { # 'status': 'status', # skip this 'issue_type': 'type', 'stage': 'stage', 'component': 'components', 'version': 'versions', 'resolution': 'resolution', 'priority': 'priority', 'keyword': 'keywords', } # find the id for the 'open' status open_id = roundup.lookup('status', 'open') print(f'* Counting total issues...') total_issues_num = len(roundup.filter('issue', None, {})) print(f'* Counting open issues...') # use this list to filter only the open issues open_issues = roundup.filter('issue', None, {'status': open_id}) open_issues_num = len(open_issues) # save the totals in a dict with this structure: # totals[propname][open/all][num/perc][name] # where propname is e.g. 'keyword' and name is e.g. 'easy' totals = defaultdict(lambda: {'all': {'perc': {}, 'num': {}}, 'open': {'perc': {}, 'num': {}}}) for cls, propname in classes.items(): print(f'* Counting <{cls}>...') # get the list of ids/names for the given class (e.g. 'easy' is 6) ids = roundup.list(cls, 'id') names = roundup.list(cls, 'name') for id, name in zip(ids, names): # filter and count on *all* issues with the given propname tot_all = len(roundup.filter('issue', None, {propname: id})) totals[propname]['all']['num'][name] = tot_all totals[propname]['all']['perc'][name] = tot_all / total_issues_num # filter and count on *open* issues with the given propname tot_open = len(roundup.filter('issue', open_issues, {propname: id})) totals[propname]['open']['num'][name] = tot_open totals[propname]['open']['perc'][name] = tot_open / open_issues_num print(f'Issues (open/all): {open_issues_num}/{total_issues_num}') # print a list of markdown tables for each bpo class name for propname in classes.values(): print(f'### {propname}') print('| bpo field | open | all |') print('| :--- | ---: | ---: |') # pick the dict for the given propname (e.g. keywords) proptots = totals[propname] names = proptots['open']['num'] # sort the names (e.g. 'easy') in reverse order # based on the number of open issues for name in sorted(names, key=names.get, reverse=True): # get and print num/perc for all/open issues issues_all = proptots['all']['num'][name] issues_open = proptots['open']['num'][name] perc_all = proptots['all']['perc'][name] perc_open = proptots['open']['perc'][name] print(f'| {name:20} | {issues_open:>5} ({perc_open:5.1%}) |' f' {issues_all:>5} ({perc_all:5.1%}) |') # calc and print num/perc for all/open issues tot_issues_all = sum(proptots['all']['num'].values()) tot_issues_open = sum(proptots['open']['num'].values()) tot_perc_all = sum(proptots['all']['perc'].values()) tot_perc_open = sum(proptots['open']['perc'].values()) print(f'| **Total** | {tot_issues_open:>5} ({tot_perc_open:5.1%}) |' f' {tot_issues_all:>5} ({tot_perc_all:5.1%}) |')