phases: pass an unfiltered repository to _ensure_phase_sets
It seems better for such a low level function to be able to assume it operate on
a real repository.
# configitems.py - centralized declaration of configuration option
#
# Copyright 2017 Pierre-Yves David <pierre-yves.david@octobus.net>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
import functools
import re
from .utils import resourceutil
from . import (
encoding,
error,
)
try:
import tomllib # pytype: disable=import-error
tomllib.load # trigger lazy import
except ModuleNotFoundError:
# Python <3.11 compat
from .thirdparty import tomli as tomllib
def loadconfigtable(ui, extname, configtable):
"""update config item known to the ui with the extension ones"""
for section, items in sorted(configtable.items()):
knownitems = ui._knownconfig.setdefault(section, itemregister())
knownkeys = set(knownitems)
newkeys = set(items)
for key in sorted(knownkeys & newkeys):
msg = b"extension '%s' overwrites config item '%s.%s'"
msg %= (extname, section, key)
ui.develwarn(msg, config=b'warn-config')
knownitems.update(items)
class configitem:
"""represent a known config item
:section: the official config section where to find this item,
:name: the official name within the section,
:default: default value for this item,
:alias: optional list of tuples as alternatives,
:generic: this is a generic definition, match name using regular expression.
"""
def __init__(
self,
section,
name,
default=None,
alias=(),
generic=False,
priority=0,
experimental=False,
documentation="",
in_core_extension=None,
):
self.section = section
self.name = name
self.default = default
self.documentation = documentation
self.alias = list(alias)
self.generic = generic
self.priority = priority
self.experimental = experimental
self._re = None
self.in_core_extension = in_core_extension
if generic:
self._re = re.compile(self.name)
class itemregister(dict):
"""A specialized dictionary that can handle wild-card selection"""
def __init__(self):
super(itemregister, self).__init__()
self._generics = set()
def update(self, other): # pytype: disable=signature-mismatch
super(itemregister, self).update(other)
self._generics.update(other._generics)
def __setitem__(self, key, item):
super(itemregister, self).__setitem__(key, item)
if item.generic:
self._generics.add(item)
def get(self, key):
baseitem = super(itemregister, self).get(key)
if baseitem is not None and not baseitem.generic:
return baseitem
# search for a matching generic item
generics = sorted(self._generics, key=(lambda x: (x.priority, x.name)))
for item in generics:
# we use 'match' instead of 'search' to make the matching simpler
# for people unfamiliar with regular expression. Having the match
# rooted to the start of the string will produce less surprising
# result for user writing simple regex for sub-attribute.
#
# For example using "color\..*" match produces an unsurprising
# result, while using search could suddenly match apparently
# unrelated configuration that happens to contains "color."
# anywhere. This is a tradeoff where we favor requiring ".*" on
# some match to avoid the need to prefix most pattern with "^".
# The "^" seems more error prone.
if item._re.match(key):
return item
return None
def sanitize_item(item):
"""Apply the transformations that are encoded on top of the pure data"""
# Set the special defaults
default_type_key = "default-type"
default_type = item.pop(default_type_key, None)
if default_type == "dynamic":
item["default"] = dynamicdefault
elif default_type == "list_type":
item["default"] = list
elif default_type == "lambda":
assert isinstance(item["default"], list)
default = [e.encode() for e in item["default"]]
item["default"] = lambda: default
elif default_type == "lazy_module":
item["default"] = lambda: encoding.encoding
else:
if default_type is not None:
msg = "invalid default config type %r for '%s.%s'"
msg %= (default_type, item["section"], item["name"])
raise error.ProgrammingError(msg)
# config expects bytes
alias = item.get("alias")
if alias:
item["alias"] = [(k.encode(), v.encode()) for (k, v) in alias]
if isinstance(item.get("default"), str):
item["default"] = item["default"].encode()
item["section"] = item["section"].encode()
item["name"] = item["name"].encode()
def read_configitems_file():
"""Returns the deserialized TOML structure from the configitems file"""
with resourceutil.open_resource(b"mercurial", b"configitems.toml") as fp:
return tomllib.load(fp)
def configitems_from_toml(items):
"""Register the configitems from the *deserialized* toml file"""
for item in items["items"]:
sanitize_item(item)
coreconfigitem(**item)
templates = items["templates"]
for application in items["template-applications"]:
template_items = templates[application["template"]]
for template_item in template_items:
item = template_item.copy()
prefix = application.get("prefix", "")
item["section"] = application["section"]
if prefix:
item["name"] = f'{prefix}.{item["suffix"]}'
else:
item["name"] = item["suffix"]
sanitize_item(item)
item.pop("suffix", None)
coreconfigitem(**item)
def import_configitems_from_file():
as_toml = read_configitems_file()
configitems_from_toml(as_toml)
coreitems = {}
def _register(configtable, *args, **kwargs):
item = configitem(*args, **kwargs)
section = configtable.setdefault(item.section, itemregister())
if item.name in section:
msg = b"duplicated config item registration for '%s.%s'"
raise error.ProgrammingError(msg % (item.section, item.name))
section[item.name] = item
# special value for case where the default is derived from other values
dynamicdefault = object()
# Registering actual config items
def getitemregister(configtable):
f = functools.partial(_register, configtable)
# export pseudo enum as configitem.*
f.dynamicdefault = dynamicdefault
return f
coreconfigitem = getitemregister(coreitems)
import_configitems_from_file()