hgweb: change how dispatch path is reported
When I implemented the new request object, I carried forward some
ugly hacks until I could figure out what was happening. One of those
was the handling of PATH_INFO to determine how to route hgweb
requests.
Essentially, if we have PATH_INFO data, we route according to
that. But if we don't, we route by the query string. I question
if we still need to support query string routing. But that's for
another day, I suppose.
In this commit, we clean up the ugly "havepathinfo" hack and
replace it with a "dispatchpath" attribute that can hold None or
empty string to differentiate between the presence of PATH_INFO.
This is still a bit hacky. But at least the request parsing
and routing code is explicit about the meaning now.
Differential Revision: https://phab.mercurial-scm.org/D2820
# Copyright 2017-present Gregory Szorc <gregory.szorc@gmail.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""generate release notes from commit messages (EXPERIMENTAL)
It is common to maintain files detailing changes in a project between
releases. Maintaining these files can be difficult and time consuming.
The :hg:`releasenotes` command provided by this extension makes the
process simpler by automating it.
"""
from __future__ import absolute_import
import difflib
import errno
import re
import sys
import textwrap
from mercurial.i18n import _
from mercurial import (
config,
error,
minirst,
node,
pycompat,
registrar,
scmutil,
util,
)
cmdtable = {}
command = registrar.command(cmdtable)
try:
import fuzzywuzzy.fuzz as fuzz
fuzz.token_set_ratio
except ImportError:
fuzz = None
# Note for extension authors: ONLY specify testedwith = 'ships-with-hg-core' for
# extensions which SHIP WITH MERCURIAL. Non-mainline extensions should
# be specifying the version(s) of Mercurial they are tested with, or
# leave the attribute unspecified.
testedwith = 'ships-with-hg-core'
DEFAULT_SECTIONS = [
('feature', _('New Features')),
('bc', _('Backwards Compatibility Changes')),
('fix', _('Bug Fixes')),
('perf', _('Performance Improvements')),
('api', _('API Changes')),
]
RE_DIRECTIVE = re.compile('^\.\. ([a-zA-Z0-9_]+)::\s*([^$]+)?$')
RE_ISSUE = r'\bissue ?[0-9]{4,6}(?![0-9])\b'
BULLET_SECTION = _('Other Changes')
class parsedreleasenotes(object):
def __init__(self):
self.sections = {}
def __contains__(self, section):
return section in self.sections
def __iter__(self):
return iter(sorted(self.sections))
def addtitleditem(self, section, title, paragraphs):
"""Add a titled release note entry."""
self.sections.setdefault(section, ([], []))
self.sections[section][0].append((title, paragraphs))
def addnontitleditem(self, section, paragraphs):
"""Adds a non-titled release note entry.
Will be rendered as a bullet point.
"""
self.sections.setdefault(section, ([], []))
self.sections[section][1].append(paragraphs)
def titledforsection(self, section):
"""Returns titled entries in a section.
Returns a list of (title, paragraphs) tuples describing sub-sections.
"""
return self.sections.get(section, ([], []))[0]
def nontitledforsection(self, section):
"""Returns non-titled, bulleted paragraphs in a section."""
return self.sections.get(section, ([], []))[1]
def hastitledinsection(self, section, title):
return any(t[0] == title for t in self.titledforsection(section))
def merge(self, ui, other):
"""Merge another instance into this one.
This is used to combine multiple sources of release notes together.
"""
if not fuzz:
ui.warn(_("module 'fuzzywuzzy' not found, merging of similar "
"releasenotes is disabled\n"))
for section in other:
existingnotes = converttitled(self.titledforsection(section)) + \
convertnontitled(self.nontitledforsection(section))
for title, paragraphs in other.titledforsection(section):
if self.hastitledinsection(section, title):
# TODO prompt for resolution if different and running in
# interactive mode.
ui.write(_('%s already exists in %s section; ignoring\n') %
(title, section))
continue
incoming_str = converttitled([(title, paragraphs)])[0]
if section == 'fix':
issue = getissuenum(incoming_str)
if issue:
if findissue(ui, existingnotes, issue):
continue
if similar(ui, existingnotes, incoming_str):
continue
self.addtitleditem(section, title, paragraphs)
for paragraphs in other.nontitledforsection(section):
if paragraphs in self.nontitledforsection(section):
continue
incoming_str = convertnontitled([paragraphs])[0]
if section == 'fix':
issue = getissuenum(incoming_str)
if issue:
if findissue(ui, existingnotes, issue):
continue
if similar(ui, existingnotes, incoming_str):
continue
self.addnontitleditem(section, paragraphs)
class releasenotessections(object):
def __init__(self, ui, repo=None):
if repo:
sections = util.sortdict(DEFAULT_SECTIONS)
custom_sections = getcustomadmonitions(repo)
if custom_sections:
sections.update(custom_sections)
self._sections = list(sections.iteritems())
else:
self._sections = list(DEFAULT_SECTIONS)
def __iter__(self):
return iter(self._sections)
def names(self):
return [t[0] for t in self._sections]
def sectionfromtitle(self, title):
for name, value in self._sections:
if value == title:
return name
return None
def converttitled(titledparagraphs):
"""
Convert titled paragraphs to strings
"""
string_list = []
for title, paragraphs in titledparagraphs:
lines = []
for para in paragraphs:
lines.extend(para)
string_list.append(' '.join(lines))
return string_list
def convertnontitled(nontitledparagraphs):
"""
Convert non-titled bullets to strings
"""
string_list = []
for paragraphs in nontitledparagraphs:
lines = []
for para in paragraphs:
lines.extend(para)
string_list.append(' '.join(lines))
return string_list
def getissuenum(incoming_str):
"""
Returns issue number from the incoming string if it exists
"""
issue = re.search(RE_ISSUE, incoming_str, re.IGNORECASE)
if issue:
issue = issue.group()
return issue
def findissue(ui, existing, issue):
"""
Returns true if issue number already exists in notes.
"""
if any(issue in s for s in existing):
ui.write(_('"%s" already exists in notes; ignoring\n') % issue)
return True
else:
return False
def similar(ui, existing, incoming_str):
"""
Returns true if similar note found in existing notes.
"""
if len(incoming_str.split()) > 10:
merge = similaritycheck(incoming_str, existing)
if not merge:
ui.write(_('"%s" already exists in notes file; ignoring\n')
% incoming_str)
return True
else:
return False
else:
return False
def similaritycheck(incoming_str, existingnotes):
"""
Returns false when note fragment can be merged to existing notes.
"""
# fuzzywuzzy not present
if not fuzz:
return True
merge = True
for bullet in existingnotes:
score = fuzz.token_set_ratio(incoming_str, bullet)
if score > 75:
merge = False
break
return merge
def getcustomadmonitions(repo):
ctx = repo['.']
p = config.config()
def read(f, sections=None, remap=None):
if f in ctx:
data = ctx[f].data()
p.parse(f, data, sections, remap, read)
else:
raise error.Abort(_(".hgreleasenotes file \'%s\' not found") %
repo.pathto(f))
if '.hgreleasenotes' in ctx:
read('.hgreleasenotes')
return p['sections']
def checkadmonitions(ui, repo, directives, revs):
"""
Checks the commit messages for admonitions and their validity.
.. abcd::
First paragraph under this admonition
For this commit message, using `hg releasenotes -r . --check`
returns: Invalid admonition 'abcd' present in changeset 3ea92981e103
As admonition 'abcd' is neither present in default nor custom admonitions
"""
for rev in revs:
ctx = repo[rev]
admonition = re.search(RE_DIRECTIVE, ctx.description())
if admonition:
if admonition.group(1) in directives:
continue
else:
ui.write(_("Invalid admonition '%s' present in changeset %s"
"\n") % (admonition.group(1), ctx.hex()[:12]))
sim = lambda x: difflib.SequenceMatcher(None,
admonition.group(1), x).ratio()
similar = [s for s in directives if sim(s) > 0.6]
if len(similar) == 1:
ui.write(_("(did you mean %s?)\n") % similar[0])
elif similar:
ss = ", ".join(sorted(similar))
ui.write(_("(did you mean one of %s?)\n") % ss)
def _getadmonitionlist(ui, sections):
for section in sections:
ui.write("%s: %s\n" % (section[0], section[1]))
def parsenotesfromrevisions(repo, directives, revs):
notes = parsedreleasenotes()
for rev in revs:
ctx = repo[rev]
blocks, pruned = minirst.parse(ctx.description(),
admonitions=directives)
for i, block in enumerate(blocks):
if block['type'] != 'admonition':
continue
directive = block['admonitiontitle']
title = block['lines'][0].strip() if block['lines'] else None
if i + 1 == len(blocks):
raise error.Abort(_('changeset %s: release notes directive %s '
'lacks content') % (ctx, directive))
# Now search ahead and find all paragraphs attached to this
# admonition.
paragraphs = []
for j in range(i + 1, len(blocks)):
pblock = blocks[j]
# Margin blocks may appear between paragraphs. Ignore them.
if pblock['type'] == 'margin':
continue
if pblock['type'] == 'admonition':
break
if pblock['type'] != 'paragraph':
repo.ui.warn(_('changeset %s: unexpected block in release '
'notes directive %s\n') % (ctx, directive))
if pblock['indent'] > 0:
paragraphs.append(pblock['lines'])
else:
break
# TODO consider using title as paragraph for more concise notes.
if not paragraphs:
repo.ui.warn(_("error parsing releasenotes for revision: "
"'%s'\n") % node.hex(ctx.node()))
if title:
notes.addtitleditem(directive, title, paragraphs)
else:
notes.addnontitleditem(directive, paragraphs)
return notes
def parsereleasenotesfile(sections, text):
"""Parse text content containing generated release notes."""
notes = parsedreleasenotes()
blocks = minirst.parse(text)[0]
def gatherparagraphsbullets(offset, title=False):
notefragment = []
for i in range(offset + 1, len(blocks)):
block = blocks[i]
if block['type'] == 'margin':
continue
elif block['type'] == 'section':
break
elif block['type'] == 'bullet':
if block['indent'] != 0:
raise error.Abort(_('indented bullet lists not supported'))
if title:
lines = [l[1:].strip() for l in block['lines']]
notefragment.append(lines)
continue
else:
lines = [[l[1:].strip() for l in block['lines']]]
for block in blocks[i + 1:]:
if block['type'] in ('bullet', 'section'):
break
if block['type'] == 'paragraph':
lines.append(block['lines'])
notefragment.append(lines)
continue
elif block['type'] != 'paragraph':
raise error.Abort(_('unexpected block type in release notes: '
'%s') % block['type'])
if title:
notefragment.append(block['lines'])
return notefragment
currentsection = None
for i, block in enumerate(blocks):
if block['type'] != 'section':
continue
title = block['lines'][0]
# TODO the parsing around paragraphs and bullet points needs some
# work.
if block['underline'] == '=': # main section
name = sections.sectionfromtitle(title)
if not name:
raise error.Abort(_('unknown release notes section: %s') %
title)
currentsection = name
bullet_points = gatherparagraphsbullets(i)
if bullet_points:
for para in bullet_points:
notes.addnontitleditem(currentsection, para)
elif block['underline'] == '-': # sub-section
if title == BULLET_SECTION:
bullet_points = gatherparagraphsbullets(i)
for para in bullet_points:
notes.addnontitleditem(currentsection, para)
else:
paragraphs = gatherparagraphsbullets(i, True)
notes.addtitleditem(currentsection, title, paragraphs)
else:
raise error.Abort(_('unsupported section type for %s') % title)
return notes
def serializenotes(sections, notes):
"""Serialize release notes from parsed fragments and notes.
This function essentially takes the output of ``parsenotesfromrevisions()``
and ``parserelnotesfile()`` and produces output combining the 2.
"""
lines = []
for sectionname, sectiontitle in sections:
if sectionname not in notes:
continue
lines.append(sectiontitle)
lines.append('=' * len(sectiontitle))
lines.append('')
# First pass to emit sub-sections.
for title, paragraphs in notes.titledforsection(sectionname):
lines.append(title)
lines.append('-' * len(title))
lines.append('')
wrapper = textwrap.TextWrapper(width=78)
for i, para in enumerate(paragraphs):
if i:
lines.append('')
lines.extend(wrapper.wrap(' '.join(para)))
lines.append('')
# Second pass to emit bullet list items.
# If the section has titled and non-titled items, we can't
# simply emit the bullet list because it would appear to come
# from the last title/section. So, we emit a new sub-section
# for the non-titled items.
nontitled = notes.nontitledforsection(sectionname)
if notes.titledforsection(sectionname) and nontitled:
# TODO make configurable.
lines.append(BULLET_SECTION)
lines.append('-' * len(BULLET_SECTION))
lines.append('')
for paragraphs in nontitled:
wrapper = textwrap.TextWrapper(initial_indent='* ',
subsequent_indent=' ',
width=78)
lines.extend(wrapper.wrap(' '.join(paragraphs[0])))
wrapper = textwrap.TextWrapper(initial_indent=' ',
subsequent_indent=' ',
width=78)
for para in paragraphs[1:]:
lines.append('')
lines.extend(wrapper.wrap(' '.join(para)))
lines.append('')
if lines and lines[-1]:
lines.append('')
return '\n'.join(lines)
@command('releasenotes',
[('r', 'rev', '', _('revisions to process for release notes'), _('REV')),
('c', 'check', False, _('checks for validity of admonitions (if any)'),
_('REV')),
('l', 'list', False, _('list the available admonitions with their title'),
None)],
_('hg releasenotes [-r REV] [-c] FILE'))
def releasenotes(ui, repo, file_=None, **opts):
"""parse release notes from commit messages into an output file
Given an output file and set of revisions, this command will parse commit
messages for release notes then add them to the output file.
Release notes are defined in commit messages as ReStructuredText
directives. These have the form::
.. directive:: title
content
Each ``directive`` maps to an output section in a generated release notes
file, which itself is ReStructuredText. For example, the ``.. feature::``
directive would map to a ``New Features`` section.
Release note directives can be either short-form or long-form. In short-
form, ``title`` is omitted and the release note is rendered as a bullet
list. In long form, a sub-section with the title ``title`` is added to the
section.
The ``FILE`` argument controls the output file to write gathered release
notes to. The format of the file is::
Section 1
=========
...
Section 2
=========
...
Only sections with defined release notes are emitted.
If a section only has short-form notes, it will consist of bullet list::
Section
=======
* Release note 1
* Release note 2
If a section has long-form notes, sub-sections will be emitted::
Section
=======
Note 1 Title
------------
Description of the first long-form note.
Note 2 Title
------------
Description of the second long-form note.
If the ``FILE`` argument points to an existing file, that file will be
parsed for release notes having the format that would be generated by this
command. The notes from the processed commit messages will be *merged*
into this parsed set.
During release notes merging:
* Duplicate items are automatically ignored
* Items that are different are automatically ignored if the similarity is
greater than a threshold.
This means that the release notes file can be updated independently from
this command and changes should not be lost when running this command on
that file. A particular use case for this is to tweak the wording of a
release note after it has been added to the release notes file.
The -c/--check option checks the commit message for invalid admonitions.
The -l/--list option, presents the user with a list of existing available
admonitions along with their title. This also includes the custom
admonitions (if any).
"""
opts = pycompat.byteskwargs(opts)
sections = releasenotessections(ui, repo)
listflag = opts.get('list')
if listflag and opts.get('rev'):
raise error.Abort(_('cannot use both \'--list\' and \'--rev\''))
if listflag and opts.get('check'):
raise error.Abort(_('cannot use both \'--list\' and \'--check\''))
if listflag:
return _getadmonitionlist(ui, sections)
rev = opts.get('rev')
revs = scmutil.revrange(repo, [rev or 'not public()'])
if opts.get('check'):
return checkadmonitions(ui, repo, sections.names(), revs)
incoming = parsenotesfromrevisions(repo, sections.names(), revs)
if file_ is None:
ui.pager('releasenotes')
return ui.write(serializenotes(sections, incoming))
try:
with open(file_, 'rb') as fh:
notes = parsereleasenotesfile(sections, fh.read())
except IOError as e:
if e.errno != errno.ENOENT:
raise
notes = parsedreleasenotes()
notes.merge(ui, incoming)
with open(file_, 'wb') as fh:
fh.write(serializenotes(sections, notes))
@command('debugparsereleasenotes', norepo=True)
def debugparsereleasenotes(ui, path, repo=None):
"""parse release notes and print resulting data structure"""
if path == '-':
text = sys.stdin.read()
else:
with open(path, 'rb') as fh:
text = fh.read()
sections = releasenotessections(ui, repo)
notes = parsereleasenotesfile(sections, text)
for section in notes:
ui.write(_('section: %s\n') % section)
for title, paragraphs in notes.titledforsection(section):
ui.write(_(' subsection: %s\n') % title)
for para in paragraphs:
ui.write(_(' paragraph: %s\n') % ' '.join(para))
for paragraphs in notes.nontitledforsection(section):
ui.write(_(' bullet point:\n'))
for para in paragraphs:
ui.write(_(' paragraph: %s\n') % ' '.join(para))