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|
# deps.py -- Portage dependency resolution functions
# Copyright 2003-2013 Gentoo Foundation
# Distributed under the terms of the GNU General Public License v2
from __future__ import unicode_literals
__all__ = [
'Atom', 'best_match_to_list', 'cpvequal',
'dep_getcpv', 'dep_getkey', 'dep_getslot',
'dep_getusedeps', 'dep_opconvert', 'flatten',
'get_operator', 'isjustname', 'isspecific',
'isvalidatom', 'match_from_list', 'match_to_list',
'paren_enclose', 'paren_normalize', 'paren_reduce',
'remove_slot', 'strip_empty', 'use_reduce',
'_repo_separator', '_slot_separator',
]
import re, sys
import warnings
from itertools import chain
import portage
portage.proxy.lazyimport.lazyimport(globals(),
'portage.util:cmp_sort_key,writemsg',
)
from portage import _encodings, _unicode_decode, _unicode_encode
from portage.eapi import _get_eapi_attrs
from portage.exception import InvalidAtom, InvalidData, InvalidDependString
from portage.localization import _
from portage.versions import catpkgsplit, catsplit, \
vercmp, ververify, _cp, _cpv, _pkg_str, _unknown_repo
import portage.cache.mappings
if sys.hexversion >= 0x3000000:
basestring = str
_unicode = str
else:
_unicode = unicode
# \w is [a-zA-Z0-9_]
# PMS 3.1.3: A slot name may contain any of the characters [A-Za-z0-9+_.-].
# It must not begin with a hyphen or a dot.
_slot_separator = ":"
_slot = r'([\w+][\w+.-]*)'
# loosly match SLOT, which may have an optional ABI part
_slot_loose = r'([\w+./*=-]+)'
_use = r'\[.*\]'
_op = r'([=~]|[><]=?)'
_repo_separator = "::"
_repo_name = r'[\w][\w-]*'
_repo_name_re = re.compile('^' + _repo_name + '$', re.UNICODE)
_repo = r'(?:' + _repo_separator + '(' + _repo_name + ')' + ')?'
_extended_cat = r'[\w+*][\w+.*-]*'
_slot_re_cache = {}
def _get_slot_re(eapi_attrs):
cache_key = eapi_attrs.slot_operator
slot_re = _slot_re_cache.get(cache_key)
if slot_re is not None:
return slot_re
if eapi_attrs.slot_operator:
slot_re = _slot + r'(/' + _slot + r')?'
else:
slot_re = _slot
slot_re = re.compile('^' + slot_re + '$', re.VERBOSE | re.UNICODE)
_slot_re_cache[cache_key] = slot_re
return slot_re
_slot_dep_re_cache = {}
def _get_slot_dep_re(eapi_attrs):
cache_key = eapi_attrs.slot_operator
slot_re = _slot_dep_re_cache.get(cache_key)
if slot_re is not None:
return slot_re
if eapi_attrs.slot_operator:
slot_re = _slot + r'?(\*|=|/' + _slot + r'=?)?'
else:
slot_re = _slot
slot_re = re.compile('^' + slot_re + '$', re.VERBOSE | re.UNICODE)
_slot_dep_re_cache[cache_key] = slot_re
return slot_re
def _match_slot(atom, pkg):
if pkg.slot == atom.slot:
if not atom.sub_slot:
return True
elif atom.sub_slot == pkg.sub_slot:
return True
return False
_atom_re_cache = {}
def _get_atom_re(eapi_attrs):
cache_key = eapi_attrs.dots_in_PN
atom_re = _atom_re_cache.get(cache_key)
if atom_re is not None:
return atom_re
if eapi_attrs.dots_in_PN:
cp_re = _cp['dots_allowed_in_PN']
cpv_re = _cpv['dots_allowed_in_PN']
else:
cp_re = _cp['dots_disallowed_in_PN']
cpv_re = _cpv['dots_disallowed_in_PN']
atom_re = re.compile('^(?P<without_use>(?:' +
'(?P<op>' + _op + cpv_re + ')|' +
'(?P<star>=' + cpv_re + r'\*)|' +
'(?P<simple>' + cp_re + '))' +
'(' + _slot_separator + _slot_loose + ')?' +
_repo + ')(' + _use + ')?$', re.VERBOSE | re.UNICODE)
_atom_re_cache[cache_key] = atom_re
return atom_re
_atom_wildcard_re_cache = {}
def _get_atom_wildcard_re(eapi_attrs):
cache_key = eapi_attrs.dots_in_PN
atom_re = _atom_wildcard_re_cache.get(cache_key)
if atom_re is not None:
return atom_re
if eapi_attrs.dots_in_PN:
pkg_re = r'[\w+*][\w+.*-]*?'
else:
pkg_re = r'[\w+*][\w+*-]*?'
atom_re = re.compile(r'((?P<simple>(' +
_extended_cat + r')/(' + pkg_re + r'))' + \
'|(?P<star>=((' + _extended_cat + r')/(' + pkg_re + r'))-(?P<version>\*\w+\*)))' + \
'(:(?P<slot>' + _slot_loose + r'))?(' +
_repo_separator + r'(?P<repo>' + _repo_name + r'))?$', re.UNICODE)
_atom_wildcard_re_cache[cache_key] = atom_re
return atom_re
_usedep_re_cache = {}
def _get_usedep_re(eapi_attrs):
"""
@param eapi_attrs: The EAPI attributes from _get_eapi_attrs
@type eapi_attrs: _eapi_attrs
@rtype: regular expression object
@return: A regular expression object that matches valid USE deps for the
given eapi.
"""
cache_key = eapi_attrs.dots_in_use_flags
usedep_re = _usedep_re_cache.get(cache_key)
if usedep_re is not None:
return usedep_re
if eapi_attrs.dots_in_use_flags:
_flag_re = r'[A-Za-z0-9][A-Za-z0-9+_@.-]*'
else:
_flag_re = r'[A-Za-z0-9][A-Za-z0-9+_@-]*'
usedep_re = re.compile(r'^(?P<prefix>[!-]?)(?P<flag>' +
_flag_re + r')(?P<default>(\(\+\)|\(\-\))?)(?P<suffix>[?=]?)$')
_usedep_re_cache[cache_key] = usedep_re
return usedep_re
_useflag_re_cache = {}
def _get_useflag_re(eapi):
"""
When eapi is None then validation is not as strict, since we want the
same to work for multiple EAPIs that may have slightly different rules.
@param eapi: The EAPI
@type eapi: String or None
@rtype: regular expression object
@return: A regular expression object that matches valid USE flags for the
given eapi.
"""
eapi_attrs = _get_eapi_attrs(eapi)
cache_key = eapi_attrs.dots_in_use_flags
useflag_re = _useflag_re_cache.get(cache_key)
if useflag_re is not None:
return useflag_re
if eapi_attrs.dots_in_use_flags:
flag_re = r'[A-Za-z0-9][A-Za-z0-9+_@.-]*'
else:
flag_re = r'[A-Za-z0-9][A-Za-z0-9+_@-]*'
useflag_re = re.compile(r'^' + flag_re + r'$')
_useflag_re_cache[cache_key] = useflag_re
return useflag_re
def cpvequal(cpv1, cpv2):
"""
@param cpv1: CategoryPackageVersion (no operators) Example: "sys-apps/portage-2.1"
@type cpv1: String
@param cpv2: CategoryPackageVersion (no operators) Example: "sys-apps/portage-2.1"
@type cpv2: String
@rtype: Boolean
@return:
1. True if cpv1 = cpv2
2. False Otherwise
3. Throws PortageException if cpv1 or cpv2 is not a CPV
Example Usage:
>>> from portage.dep import cpvequal
>>> cpvequal("sys-apps/portage-2.1","sys-apps/portage-2.1")
>>> True
"""
try:
try:
split1 = cpv1.cpv_split
except AttributeError:
cpv1 = _pkg_str(cpv1)
split1 = cpv1.cpv_split
try:
split2 = cpv2.cpv_split
except AttributeError:
cpv2 = _pkg_str(cpv2)
split2 = cpv2.cpv_split
except InvalidData:
raise portage.exception.PortageException(_("Invalid data '%s, %s', parameter was not a CPV") % (cpv1, cpv2))
if split1[0] != split2[0] or \
split1[1] != split2[1]:
return False
return vercmp(cpv1.version, cpv2.version) == 0
def strip_empty(myarr):
"""
Strip all empty elements from an array
@param myarr: The list of elements
@type myarr: List
@rtype: Array
@return: The array with empty elements removed
"""
warnings.warn(_("%s is deprecated and will be removed without replacement.") % \
('portage.dep.strip_empty',), DeprecationWarning, stacklevel=2)
return [x for x in myarr if x]
def paren_reduce(mystr, _deprecation_warn=True):
"""
Take a string and convert all paren enclosed entities into sublists and
split the list elements by spaces. All redundant brackets are removed.
Example usage:
>>> paren_reduce('foobar foo? ( bar baz )')
['foobar', 'foo?', ['bar', 'baz']]
@param mystr: The string to reduce
@type mystr: String
@rtype: Array
@return: The reduced string in an array
"""
if portage._internal_caller and _deprecation_warn:
warnings.warn(_("%s is deprecated and will be removed without replacement.") % \
('portage.dep.paren_reduce',), DeprecationWarning, stacklevel=2)
mysplit = mystr.split()
level = 0
stack = [[]]
need_bracket = False
for token in mysplit:
if token == "(":
need_bracket = False
stack.append([])
level += 1
elif token == ")":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
if level > 0:
level -= 1
l = stack.pop()
is_single = (len(l) == 1 or (len(l)==2 and (l[0] == "||" or l[0][-1] == "?")))
def ends_in_any_of_dep(k):
return k>=0 and stack[k] and stack[k][-1] == "||"
def ends_in_operator(k):
return k>=0 and stack[k] and (stack[k][-1] == "||" or stack[k][-1][-1] == "?")
def special_append():
"""
Use extend instead of append if possible. This kills all redundant brackets.
"""
if is_single and (not stack[level] or not stack[level][-1][-1] == "?"):
if len(l) == 1 and isinstance(l[0], list):
# l = [[...]]
stack[level].extend(l[0])
else:
stack[level].extend(l)
else:
stack[level].append(l)
if l:
if not ends_in_any_of_dep(level-1) and not ends_in_operator(level):
#Optimize: ( ( ... ) ) -> ( ... ). Make sure there is no '||' hanging around.
stack[level].extend(l)
elif not stack[level]:
#An '||' in the level above forces us to keep to brackets.
special_append()
elif len(l) == 1 and ends_in_any_of_dep(level):
#Optimize: || ( A ) -> A
stack[level].pop()
special_append()
elif len(l) == 2 and (l[0] == "||" or l[0][-1] == "?") and stack[level][-1] in (l[0], "||"):
#Optimize: || ( || ( ... ) ) -> || ( ... )
# foo? ( foo? ( ... ) ) -> foo? ( ... )
# || ( foo? ( ... ) ) -> foo? ( ... )
stack[level].pop()
special_append()
else:
special_append()
else:
if stack[level] and (stack[level][-1] == "||" or stack[level][-1][-1] == "?"):
stack[level].pop()
else:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
elif token == "||":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
need_bracket = True
stack[level].append(token)
else:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
if token[-1] == "?":
need_bracket = True
stack[level].append(token)
if level != 0 or need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
return stack[0]
class paren_normalize(list):
"""Take a dependency structure as returned by paren_reduce or use_reduce
and generate an equivalent structure that has no redundant lists."""
def __init__(self, src):
if portage._internal_caller:
warnings.warn(_("%s is deprecated and will be removed without replacement.") % \
('portage.dep.paren_normalize',), DeprecationWarning, stacklevel=2)
list.__init__(self)
self._zap_parens(src, self)
def _zap_parens(self, src, dest, disjunction=False):
if not src:
return dest
i = iter(src)
for x in i:
if isinstance(x, basestring):
if x in ('||', '^^'):
y = self._zap_parens(next(i), [], disjunction=True)
if len(y) == 1:
dest.append(y[0])
else:
dest.append(x)
dest.append(y)
elif x.endswith("?"):
dest.append(x)
dest.append(self._zap_parens(next(i), []))
else:
dest.append(x)
else:
if disjunction:
x = self._zap_parens(x, [])
if len(x) == 1:
dest.append(x[0])
else:
dest.append(x)
else:
self._zap_parens(x, dest)
return dest
def paren_enclose(mylist, unevaluated_atom=False, opconvert=False):
"""
Convert a list to a string with sublists enclosed with parens.
Example usage:
>>> test = ['foobar','foo',['bar','baz']]
>>> paren_enclose(test)
'foobar foo ( bar baz )'
@param mylist: The list
@type mylist: List
@rtype: String
@return: The paren enclosed string
"""
mystrparts = []
for x in mylist:
if isinstance(x, list):
if opconvert and x and x[0] == "||":
mystrparts.append("%s ( %s )" % (x[0], paren_enclose(x[1:])))
else:
mystrparts.append("( %s )" % paren_enclose(x))
else:
if unevaluated_atom:
x = getattr(x, 'unevaluated_atom', x)
mystrparts.append(x)
return " ".join(mystrparts)
def use_reduce(depstr, uselist=[], masklist=[], matchall=False, excludeall=[], is_src_uri=False, \
eapi=None, opconvert=False, flat=False, is_valid_flag=None, token_class=None, matchnone=False):
"""
Takes a dep string and reduces the use? conditionals out, leaving an array
with subarrays. All redundant brackets are removed.
@param deparray: depstring
@type deparray: String
@param uselist: List of use enabled flags
@type uselist: List
@param masklist: List of masked flags (always treated as disabled)
@type masklist: List
@param matchall: Treat all conditionals as active. Used by repoman.
@type matchall: Bool
@param excludeall: List of flags for which negated conditionals are always treated as inactive.
@type excludeall: List
@param is_src_uri: Indicates if depstr represents a SRC_URI
@type is_src_uri: Bool
@param eapi: Indicates the EAPI the dep string has to comply to
@type eapi: String
@param opconvert: Put every operator as first element into it's argument list
@type opconvert: Bool
@param flat: Create a flat list of all tokens
@type flat: Bool
@param is_valid_flag: Function that decides if a given use flag might be used in use conditionals
@type is_valid_flag: Function
@param token_class: Convert all non operator tokens into this class
@type token_class: Class
@param matchnone: Treat all conditionals as inactive. Used by digestgen().
@type matchnone: Bool
@rtype: List
@return: The use reduced depend array
"""
if isinstance(depstr, list):
if portage._internal_caller:
warnings.warn(_("Passing paren_reduced dep arrays to %s is deprecated. " + \
"Pass the original dep string instead.") % \
('portage.dep.use_reduce',), DeprecationWarning, stacklevel=2)
depstr = paren_enclose(depstr)
if opconvert and flat:
raise ValueError("portage.dep.use_reduce: 'opconvert' and 'flat' are mutually exclusive")
if matchall and matchnone:
raise ValueError("portage.dep.use_reduce: 'matchall' and 'matchnone' are mutually exclusive")
eapi_attrs = _get_eapi_attrs(eapi)
useflag_re = _get_useflag_re(eapi)
def is_active(conditional):
"""
Decides if a given use conditional is active.
"""
if conditional.startswith("!"):
flag = conditional[1:-1]
is_negated = True
else:
flag = conditional[:-1]
is_negated = False
if is_valid_flag:
if not is_valid_flag(flag):
msg = _("USE flag '%s' referenced in " + \
"conditional '%s' is not in IUSE") \
% (flag, conditional)
e = InvalidData(msg, category='IUSE.missing')
raise InvalidDependString(msg, errors=(e,))
else:
if useflag_re.match(flag) is None:
raise InvalidDependString(
_("invalid use flag '%s' in conditional '%s'") % (flag, conditional))
if is_negated and flag in excludeall:
return False
if flag in masklist:
return is_negated
if matchall:
return True
if matchnone:
return False
return (flag in uselist and not is_negated) or \
(flag not in uselist and is_negated)
def missing_white_space_check(token, pos):
"""
Used to generate good error messages for invalid tokens.
"""
for x in (")", "(", "||"):
if token.startswith(x) or token.endswith(x):
raise InvalidDependString(
_("missing whitespace around '%s' at '%s', token %s") % (x, token, pos+1))
mysplit = depstr.split()
#Count the bracket level.
level = 0
#We parse into a stack. Every time we hit a '(', a new empty list is appended to the stack.
#When we hit a ')', the last list in the stack is merged with list one level up.
stack = [[]]
#Set need_bracket to True after use conditionals or ||. Other tokens need to ensure
#that need_bracket is not True.
need_bracket = False
#Set need_simple_token to True after a SRC_URI arrow. Other tokens need to ensure
#that need_simple_token is not True.
need_simple_token = False
for pos, token in enumerate(mysplit):
if token == "(":
if need_simple_token:
raise InvalidDependString(
_("expected: file name, got: '%s', token %s") % (token, pos+1))
if len(mysplit) >= pos+2 and mysplit[pos+1] == ")":
raise InvalidDependString(
_("expected: dependency string, got: ')', token %s") % (pos+1,))
need_bracket = False
stack.append([])
level += 1
elif token == ")":
if need_bracket:
raise InvalidDependString(
_("expected: '(', got: '%s', token %s") % (token, pos+1))
if need_simple_token:
raise InvalidDependString(
_("expected: file name, got: '%s', token %s") % (token, pos+1))
if level > 0:
level -= 1
l = stack.pop()
is_single = len(l) == 1 or \
(opconvert and l and l[0] == "||") or \
(not opconvert and len(l)==2 and l[0] == "||")
ignore = False
if flat:
#In 'flat' mode, we simply merge all lists into a single large one.
if stack[level] and stack[level][-1][-1] == "?":
#The last token before the '(' that matches the current ')'
#was a use conditional. The conditional is removed in any case.
#Merge the current list if needed.
if is_active(stack[level][-1]):
stack[level].pop()
stack[level].extend(l)
else:
stack[level].pop()
else:
stack[level].extend(l)
continue
if stack[level]:
if stack[level][-1] == "||" and not l:
#Optimize: || ( ) -> .
stack[level].pop()
elif stack[level][-1][-1] == "?":
#The last token before the '(' that matches the current ')'
#was a use conditional, remove it and decide if we
#have to keep the current list.
if not is_active(stack[level][-1]):
ignore = True
stack[level].pop()
def ends_in_any_of_dep(k):
return k>=0 and stack[k] and stack[k][-1] == "||"
def starts_with_any_of_dep(k):
#'ends_in_any_of_dep' for opconvert
return k>=0 and stack[k] and stack[k][0] == "||"
def last_any_of_operator_level(k):
#Returns the level of the last || operator if it is in effect for
#the current level. It is not in effect, if there is a level, that
#ends in a non-operator. This is almost equivalent to stack[level][-1]=="||",
#expect that it skips empty levels.
while k>=0:
if stack[k]:
if stack[k][-1] == "||":
return k
elif stack[k][-1][-1] != "?":
return -1
k -= 1
return -1
def special_append():
"""
Use extend instead of append if possible. This kills all redundant brackets.
"""
if is_single:
#Either [A], [[...]] or [|| [...]]
if l[0] == "||" and ends_in_any_of_dep(level-1):
if opconvert:
stack[level].extend(l[1:])
else:
stack[level].extend(l[1])
elif len(l) == 1 and isinstance(l[0], list):
# l = [[...]]
last = last_any_of_operator_level(level-1)
if last == -1:
if opconvert and isinstance(l[0], list) \
and l[0] and l[0][0] == '||':
stack[level].append(l[0])
else:
stack[level].extend(l[0])
else:
if opconvert and l[0] and l[0][0] == "||":
stack[level].extend(l[0][1:])
else:
stack[level].append(l[0])
else:
stack[level].extend(l)
else:
if opconvert and stack[level] and stack[level][-1] == '||':
stack[level][-1] = ['||'] + l
else:
stack[level].append(l)
if l and not ignore:
#The current list is not empty and we don't want to ignore it because
#of an inactive use conditional.
if not ends_in_any_of_dep(level-1) and not ends_in_any_of_dep(level):
#Optimize: ( ( ... ) ) -> ( ... ). Make sure there is no '||' hanging around.
stack[level].extend(l)
elif not stack[level]:
#An '||' in the level above forces us to keep to brackets.
special_append()
elif is_single and ends_in_any_of_dep(level):
#Optimize: || ( A ) -> A, || ( || ( ... ) ) -> || ( ... )
stack[level].pop()
special_append()
elif ends_in_any_of_dep(level) and ends_in_any_of_dep(level-1):
#Optimize: || ( A || ( B C ) ) -> || ( A B C )
stack[level].pop()
stack[level].extend(l)
else:
if opconvert and ends_in_any_of_dep(level):
#In opconvert mode, we have to move the operator from the level
#above into the current list.
stack[level].pop()
stack[level].append(["||"] + l)
else:
special_append()
else:
raise InvalidDependString(
_("no matching '%s' for '%s', token %s") % ("(", ")", pos+1))
elif token == "||":
if is_src_uri:
raise InvalidDependString(
_("any-of dependencies are not allowed in SRC_URI: token %s") % (pos+1,))
if need_bracket:
raise InvalidDependString(
_("expected: '(', got: '%s', token %s") % (token, pos+1))
need_bracket = True
stack[level].append(token)
elif token == "->":
if need_simple_token:
raise InvalidDependString(
_("expected: file name, got: '%s', token %s") % (token, pos+1))
if not is_src_uri:
raise InvalidDependString(
_("SRC_URI arrow are only allowed in SRC_URI: token %s") % (pos+1,))
if not eapi_attrs.src_uri_arrows:
raise InvalidDependString(
_("SRC_URI arrow not allowed in EAPI %s: token %s") % (eapi, pos+1))
need_simple_token = True
stack[level].append(token)
else:
missing_white_space_check(token, pos)
if need_bracket:
raise InvalidDependString(
_("expected: '(', got: '%s', token %s") % (token, pos+1))
if need_simple_token and "/" in token:
#The last token was a SRC_URI arrow, make sure we have a simple file name.
raise InvalidDependString(
_("expected: file name, got: '%s', token %s") % (token, pos+1))
if token[-1] == "?":
need_bracket = True
else:
need_simple_token = False
if token_class and not is_src_uri:
#Add a hack for SRC_URI here, to avoid conditional code at the consumer level
try:
token = token_class(token, eapi=eapi,
is_valid_flag=is_valid_flag)
except InvalidAtom as e:
raise InvalidDependString(
_("Invalid atom (%s), token %s") \
% (e, pos+1), errors=(e,))
except SystemExit:
raise
except Exception as e:
raise InvalidDependString(
_("Invalid token '%s', token %s") % (token, pos+1))
if not matchall and \
hasattr(token, 'evaluate_conditionals'):
token = token.evaluate_conditionals(uselist)
stack[level].append(token)
if level != 0:
raise InvalidDependString(
_("Missing '%s' at end of string") % (")",))
if need_bracket:
raise InvalidDependString(
_("Missing '%s' at end of string") % ("(",))
if need_simple_token:
raise InvalidDependString(
_("Missing file name at end of string"))
return stack[0]
def dep_opconvert(deplist):
"""
Iterate recursively through a list of deps, if the
dep is a '||' or '&&' operator, combine it with the
list of deps that follows..
Example usage:
>>> test = ["blah", "||", ["foo", "bar", "baz"]]
>>> dep_opconvert(test)
['blah', ['||', 'foo', 'bar', 'baz']]
@param deplist: A list of deps to format
@type mydep: List
@rtype: List
@return:
The new list with the new ordering
"""
if portage._internal_caller:
warnings.warn(_("%s is deprecated. Use %s with the opconvert parameter set to True instead.") % \
('portage.dep.dep_opconvert', 'portage.dep.use_reduce'), DeprecationWarning, stacklevel=2)
retlist = []
x = 0
while x != len(deplist):
if isinstance(deplist[x], list):
retlist.append(dep_opconvert(deplist[x]))
elif deplist[x] == "||":
retlist.append([deplist[x]] + dep_opconvert(deplist[x+1]))
x += 1
else:
retlist.append(deplist[x])
x += 1
return retlist
def flatten(mylist):
"""
Recursively traverse nested lists and return a single list containing
all non-list elements that are found.
Example usage:
>>> flatten([1, [2, 3, [4]]])
[1, 2, 3, 4]
@param mylist: A list containing nested lists and non-list elements.
@type mylist: List
@rtype: List
@return: A single list containing only non-list elements.
"""
if portage._internal_caller:
warnings.warn(_("%s is deprecated and will be removed without replacement.") % \
('portage.dep.flatten',), DeprecationWarning, stacklevel=2)
newlist = []
for x in mylist:
if isinstance(x, list):
newlist.extend(flatten(x))
else:
newlist.append(x)
return newlist
class _use_dep(object):
__slots__ = ("_eapi_attrs", "conditional", "missing_enabled", "missing_disabled",
"disabled", "enabled", "tokens", "required")
class _conditionals_class(object):
__slots__ = ("enabled", "disabled", "equal", "not_equal")
def items(self):
for k in self.__slots__:
v = getattr(self, k, None)
if v:
yield (k, v)
def values(self):
for k in self.__slots__:
v = getattr(self, k, None)
if v:
yield v
# used in InvalidAtom messages
_conditional_strings = {
'enabled' : '%s?',
'disabled': '!%s?',
'equal': '%s=',
'not_equal': '!%s=',
}
def __init__(self, use, eapi_attrs, enabled_flags=None, disabled_flags=None, missing_enabled=None,
missing_disabled=None, conditional=None, required=None):
self._eapi_attrs = eapi_attrs
if enabled_flags is not None:
#A shortcut for the classe's own methods.
self.tokens = use
if not isinstance(self.tokens, tuple):
self.tokens = tuple(self.tokens)
self.required = frozenset(required)
self.enabled = frozenset(enabled_flags)
self.disabled = frozenset(disabled_flags)
self.missing_enabled = frozenset(missing_enabled)
self.missing_disabled = frozenset(missing_disabled)
self.conditional = None
if conditional:
self.conditional = self._conditionals_class()
for k in "enabled", "disabled", "equal", "not_equal":
setattr(self.conditional, k, frozenset(conditional.get(k, [])))
return
enabled_flags = set()
disabled_flags = set()
missing_enabled = set()
missing_disabled = set()
no_default = set()
conditional = {}
usedep_re = _get_usedep_re(self._eapi_attrs)
for x in use:
m = usedep_re.match(x)
if m is None:
raise InvalidAtom(_("Invalid use dep: '%s'") % (x,))
operator = m.group("prefix") + m.group("suffix")
flag = m.group("flag")
default = m.group("default")
if not operator:
enabled_flags.add(flag)
elif operator == "-":
disabled_flags.add(flag)
elif operator == "?":
conditional.setdefault("enabled", set()).add(flag)
elif operator == "=":
conditional.setdefault("equal", set()).add(flag)
elif operator == "!=":
conditional.setdefault("not_equal", set()).add(flag)
elif operator == "!?":
conditional.setdefault("disabled", set()).add(flag)
else:
raise InvalidAtom(_("Invalid use dep: '%s'") % (x,))
if default:
if default == "(+)":
if flag in missing_disabled or flag in no_default:
raise InvalidAtom(_("Invalid use dep: '%s'") % (x,))
missing_enabled.add(flag)
else:
if flag in missing_enabled or flag in no_default:
raise InvalidAtom(_("Invalid use dep: '%s'") % (x,))
missing_disabled.add(flag)
else:
if flag in missing_enabled or flag in missing_disabled:
raise InvalidAtom(_("Invalid use dep: '%s'") % (x,))
no_default.add(flag)
self.tokens = use
if not isinstance(self.tokens, tuple):
self.tokens = tuple(self.tokens)
self.required = frozenset(no_default)
self.enabled = frozenset(enabled_flags)
self.disabled = frozenset(disabled_flags)
self.missing_enabled = frozenset(missing_enabled)
self.missing_disabled = frozenset(missing_disabled)
self.conditional = None
if conditional:
self.conditional = self._conditionals_class()
for k in "enabled", "disabled", "equal", "not_equal":
setattr(self.conditional, k, frozenset(conditional.get(k, [])))
def __bool__(self):
return bool(self.tokens)
if sys.hexversion < 0x3000000:
__nonzero__ = __bool__
def __str__(self):
if not self.tokens:
return ""
return "[%s]" % (",".join(self.tokens),)
if sys.hexversion < 0x3000000:
__unicode__ = __str__
def __str__(self):
return _unicode_encode(self.__unicode__(),
encoding=_encodings['content'], errors='backslashreplace')
def __repr__(self):
return "portage.dep._use_dep(%s)" % repr(self.tokens)
def evaluate_conditionals(self, use):
"""
Create a new instance with conditionals evaluated.
Conditional evaluation behavior:
parent state conditional result
x x? x
-x x?
x !x?
-x !x? -x
x x= x
-x x= -x
x !x= -x
-x !x= x
Conditional syntax examples:
Compact Form Equivalent Expanded Form
foo[bar?] bar? ( foo[bar] ) !bar? ( foo )
foo[!bar?] bar? ( foo ) !bar? ( foo[-bar] )
foo[bar=] bar? ( foo[bar] ) !bar? ( foo[-bar] )
foo[!bar=] bar? ( foo[-bar] ) !bar? ( foo[bar] )
"""
enabled_flags = set(self.enabled)
disabled_flags = set(self.disabled)
tokens = []
usedep_re = _get_usedep_re(self._eapi_attrs)
for x in self.tokens:
m = usedep_re.match(x)
operator = m.group("prefix") + m.group("suffix")
flag = m.group("flag")
default = m.group("default")
if default is None:
default = ""
if operator == "?":
if flag in use:
enabled_flags.add(flag)
tokens.append(flag+default)
elif operator == "=":
if flag in use:
enabled_flags.add(flag)
tokens.append(flag+default)
else:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
elif operator == "!=":
if flag in use:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
else:
enabled_flags.add(flag)
tokens.append(flag+default)
elif operator == "!?":
if flag not in use:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
else:
tokens.append(x)
return _use_dep(tokens, self._eapi_attrs, enabled_flags=enabled_flags, disabled_flags=disabled_flags,
missing_enabled=self.missing_enabled, missing_disabled=self.missing_disabled, required=self.required)
def violated_conditionals(self, other_use, is_valid_flag, parent_use=None):
"""
Create a new instance with satisfied use deps removed.
"""
if parent_use is None and self.conditional:
raise InvalidAtom("violated_conditionals needs 'parent_use'" + \
" parameter for conditional flags.")
enabled_flags = set()
disabled_flags = set()
conditional = {}
tokens = []
all_defaults = frozenset(chain(self.missing_enabled, self.missing_disabled))
def validate_flag(flag):
return is_valid_flag(flag) or flag in all_defaults
usedep_re = _get_usedep_re(self._eapi_attrs)
for x in self.tokens:
m = usedep_re.match(x)
operator = m.group("prefix") + m.group("suffix")
flag = m.group("flag")
if not validate_flag(flag):
tokens.append(x)
if not operator:
enabled_flags.add(flag)
elif operator == "-":
disabled_flags.add(flag)
elif operator == "?":
conditional.setdefault("enabled", set()).add(flag)
elif operator == "=":
conditional.setdefault("equal", set()).add(flag)
elif operator == "!=":
conditional.setdefault("not_equal", set()).add(flag)
elif operator == "!?":
conditional.setdefault("disabled", set()).add(flag)
continue
if not operator:
if flag not in other_use:
if is_valid_flag(flag) or flag in self.missing_disabled:
tokens.append(x)
enabled_flags.add(flag)
elif operator == "-":
if flag not in other_use:
if not is_valid_flag(flag):
if flag in self.missing_enabled:
tokens.append(x)
disabled_flags.add(flag)
else:
tokens.append(x)
disabled_flags.add(flag)
elif operator == "?":
if flag not in parent_use or flag in other_use:
continue
if is_valid_flag(flag) or flag in self.missing_disabled:
tokens.append(x)
conditional.setdefault("enabled", set()).add(flag)
elif operator == "=":
if flag in parent_use and flag not in other_use:
if is_valid_flag(flag):
tokens.append(x)
conditional.setdefault("equal", set()).add(flag)
else:
if flag in self.missing_disabled:
tokens.append(x)
conditional.setdefault("equal", set()).add(flag)
elif flag not in parent_use:
if flag not in other_use:
if not is_valid_flag(flag):
if flag in self.missing_enabled:
tokens.append(x)
conditional.setdefault("equal", set()).add(flag)
else:
tokens.append(x)
conditional.setdefault("equal", set()).add(flag)
elif operator == "!=":
if flag not in parent_use and flag not in other_use:
if is_valid_flag(flag):
tokens.append(x)
conditional.setdefault("not_equal", set()).add(flag)
else:
if flag in self.missing_disabled:
tokens.append(x)
conditional.setdefault("not_equal", set()).add(flag)
elif flag in parent_use:
if flag not in other_use:
if not is_valid_flag(flag):
if flag in self.missing_enabled:
tokens.append(x)
conditional.setdefault("not_equal", set()).add(flag)
else:
tokens.append(x)
conditional.setdefault("not_equal", set()).add(flag)
elif operator == "!?":
if flag not in parent_use:
if flag not in other_use:
if not is_valid_flag(flag) and flag in self.missing_enabled:
tokens.append(x)
conditional.setdefault("disabled", set()).add(flag)
else:
tokens.append(x)
conditional.setdefault("disabled", set()).add(flag)
return _use_dep(tokens, self._eapi_attrs, enabled_flags=enabled_flags, disabled_flags=disabled_flags,
missing_enabled=self.missing_enabled, missing_disabled=self.missing_disabled, \
conditional=conditional, required=self.required)
def _eval_qa_conditionals(self, use_mask, use_force):
"""
For repoman, evaluate all possible combinations within the constraints
of the given use.force and use.mask settings. The result may seem
ambiguous in the sense that the same flag can be in both the enabled
and disabled sets, but this is useful within the context of how its
intended to be used by repoman. It is assumed that the caller has
already ensured that there is no intersection between the given
use_mask and use_force sets when necessary.
"""
enabled_flags = set(self.enabled)
disabled_flags = set(self.disabled)
missing_enabled = self.missing_enabled
missing_disabled = self.missing_disabled
tokens = []
usedep_re = _get_usedep_re(self._eapi_attrs)
for x in self.tokens:
m = usedep_re.match(x)
operator = m.group("prefix") + m.group("suffix")
flag = m.group("flag")
default = m.group("default")
if default is None:
default = ""
if operator == "?":
if flag not in use_mask:
enabled_flags.add(flag)
tokens.append(flag+default)
elif operator == "=":
if flag not in use_mask:
enabled_flags.add(flag)
tokens.append(flag+default)
if flag not in use_force:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
elif operator == "!=":
if flag not in use_force:
enabled_flags.add(flag)
tokens.append(flag+default)
if flag not in use_mask:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
elif operator == "!?":
if flag not in use_force:
disabled_flags.add(flag)
tokens.append("-"+flag+default)
else:
tokens.append(x)
return _use_dep(tokens, self._eapi_attrs, enabled_flags=enabled_flags, disabled_flags=disabled_flags,
missing_enabled=missing_enabled, missing_disabled=missing_disabled, required=self.required)
class Atom(_unicode):
"""
For compatibility with existing atom string manipulation code, this
class emulates most of the str methods that are useful with atoms.
"""
class _blocker(object):
__slots__ = ("overlap",)
class _overlap(object):
__slots__ = ("forbid",)
def __init__(self, forbid=False):
self.forbid = forbid
def __init__(self, forbid_overlap=False):
self.overlap = self._overlap(forbid=forbid_overlap)
def __new__(cls, s, unevaluated_atom=None, allow_wildcard=False, allow_repo=None,
_use=None, eapi=None, is_valid_flag=None):
return _unicode.__new__(cls, s)
def __init__(self, s, unevaluated_atom=None, allow_wildcard=False, allow_repo=None,
_use=None, eapi=None, is_valid_flag=None):
if isinstance(s, Atom):
# This is an efficiency assertion, to ensure that the Atom
# constructor is not called redundantly.
raise TypeError(_("Expected %s, got %s") % \
(_unicode, type(s)))
if not isinstance(s, _unicode):
# Avoid TypeError from _unicode.__init__ with PyPy.
s = _unicode_decode(s)
_unicode.__init__(s)
eapi_attrs = _get_eapi_attrs(eapi)
atom_re = _get_atom_re(eapi_attrs)
self.__dict__['eapi'] = eapi
if eapi is not None:
# Ignore allow_repo when eapi is specified.
allow_repo = eapi_attrs.repo_deps
else:
if allow_repo is None:
allow_repo = True
blocker_prefix = ""
if "!" == s[:1]:
blocker = self._blocker(forbid_overlap=("!" == s[1:2]))
if blocker.overlap.forbid:
blocker_prefix = s[:2]
s = s[2:]
else:
blocker_prefix = s[:1]
s = s[1:]
else:
blocker = False
self.__dict__['blocker'] = blocker
m = atom_re.match(s)
extended_syntax = False
extended_version = None
if m is None:
if allow_wildcard:
atom_re = _get_atom_wildcard_re(eapi_attrs)
m = atom_re.match(s)
if m is None:
raise InvalidAtom(self)
gdict = m.groupdict()
if m.group('star') is not None:
op = '=*'
base = atom_re.groupindex['star']
cp = m.group(base + 1)
cpv = m.group('star')[1:]
extended_version = m.group(base + 4)
else:
op = None
cpv = cp = m.group('simple')
if cpv.find("**") != -1:
raise InvalidAtom(self)
slot = m.group('slot')
repo = m.group('repo')
use_str = None
extended_syntax = True
else:
raise InvalidAtom(self)
elif m.group('op') is not None:
base = atom_re.groupindex['op']
op = m.group(base + 1)
cpv = m.group(base + 2)
cp = m.group(base + 3)
slot = m.group(atom_re.groups - 2)
repo = m.group(atom_re.groups - 1)
use_str = m.group(atom_re.groups)
if m.group(base + 4) is not None:
raise InvalidAtom(self)
elif m.group('star') is not None:
base = atom_re.groupindex['star']
op = '=*'
cpv = m.group(base + 1)
cp = m.group(base + 2)
slot = m.group(atom_re.groups - 2)
repo = m.group(atom_re.groups - 1)
use_str = m.group(atom_re.groups)
if m.group(base + 3) is not None:
raise InvalidAtom(self)
elif m.group('simple') is not None:
op = None
cpv = cp = m.group(atom_re.groupindex['simple'] + 1)
slot = m.group(atom_re.groups - 2)
repo = m.group(atom_re.groups - 1)
use_str = m.group(atom_re.groups)
if m.group(atom_re.groupindex['simple'] + 2) is not None:
raise InvalidAtom(self)
else:
raise AssertionError(_("required group not found in atom: '%s'") % self)
self.__dict__['cp'] = cp
try:
self.__dict__['cpv'] = _pkg_str(cpv)
self.__dict__['version'] = self.cpv.version
except InvalidData:
# plain cp, wildcard, or something
self.__dict__['cpv'] = cpv
self.__dict__['version'] = extended_version
self.__dict__['repo'] = repo
if slot is None:
self.__dict__['slot'] = None
self.__dict__['sub_slot'] = None
self.__dict__['slot_operator'] = None
else:
slot_re = _get_slot_dep_re(eapi_attrs)
slot_match = slot_re.match(slot)
if slot_match is None:
raise InvalidAtom(self)
if eapi_attrs.slot_operator:
self.__dict__['slot'] = slot_match.group(1)
sub_slot = slot_match.group(2)
if sub_slot is not None:
sub_slot = sub_slot.lstrip("/")
if sub_slot in ("*", "="):
self.__dict__['sub_slot'] = None
self.__dict__['slot_operator'] = sub_slot
else:
slot_operator = None
if sub_slot is not None and sub_slot[-1:] == "=":
slot_operator = sub_slot[-1:]
sub_slot = sub_slot[:-1]
self.__dict__['sub_slot'] = sub_slot
self.__dict__['slot_operator'] = slot_operator
if self.slot is not None and self.slot_operator == "*":
raise InvalidAtom(self)
else:
self.__dict__['slot'] = slot
self.__dict__['sub_slot'] = None
self.__dict__['slot_operator'] = None
self.__dict__['operator'] = op
self.__dict__['extended_syntax'] = extended_syntax
if not (repo is None or allow_repo):
raise InvalidAtom(self)
if use_str is not None:
if _use is not None:
use = _use
else:
use = _use_dep(use_str[1:-1].split(","), eapi_attrs)
without_use = Atom(blocker_prefix + m.group('without_use'),
allow_repo=allow_repo)
else:
use = None
if unevaluated_atom is not None and \
unevaluated_atom.use is not None:
# unevaluated_atom.use is used for IUSE checks when matching
# packages, so it must not propagate to without_use
without_use = Atom(_unicode(self),
allow_wildcard=allow_wildcard,
allow_repo=allow_repo,
eapi=eapi)
else:
without_use = self
self.__dict__['use'] = use
self.__dict__['without_use'] = without_use
if unevaluated_atom:
self.__dict__['unevaluated_atom'] = unevaluated_atom
else:
self.__dict__['unevaluated_atom'] = self
if eapi is not None:
if not isinstance(eapi, basestring):
raise TypeError('expected eapi argument of ' + \
'%s, got %s: %s' % (basestring, type(eapi), eapi,))
if self.slot and not eapi_attrs.slot_deps:
raise InvalidAtom(
_("Slot deps are not allowed in EAPI %s: '%s'") \
% (eapi, self), category='EAPI.incompatible')
if self.use:
if not eapi_attrs.use_deps:
raise InvalidAtom(
_("Use deps are not allowed in EAPI %s: '%s'") \
% (eapi, self), category='EAPI.incompatible')
elif not eapi_attrs.use_dep_defaults and \
(self.use.missing_enabled or self.use.missing_disabled):
raise InvalidAtom(
_("Use dep defaults are not allowed in EAPI %s: '%s'") \
% (eapi, self), category='EAPI.incompatible')
if is_valid_flag is not None and self.use.conditional:
invalid_flag = None
try:
for conditional_type, flags in \
self.use.conditional.items():
for flag in flags:
if not is_valid_flag(flag):
invalid_flag = (conditional_type, flag)
raise StopIteration()
except StopIteration:
pass
if invalid_flag is not None:
conditional_type, flag = invalid_flag
conditional_str = _use_dep._conditional_strings[conditional_type]
msg = _("USE flag '%s' referenced in " + \
"conditional '%s' in atom '%s' is not in IUSE") \
% (flag, conditional_str % flag, self)
raise InvalidAtom(msg, category='IUSE.missing')
if self.blocker and self.blocker.overlap.forbid and not eapi_attrs.strong_blocks:
raise InvalidAtom(
_("Strong blocks are not allowed in EAPI %s: '%s'") \
% (eapi, self), category='EAPI.incompatible')
@property
def slot_operator_built(self):
"""
Returns True if slot_operator == "=" and sub_slot is not None.
NOTE: foo/bar:2= is unbuilt and returns False, whereas foo/bar:2/2=
is built and returns True.
"""
return self.slot_operator == "=" and self.sub_slot is not None
@property
def without_repo(self):
if self.repo is None:
return self
return Atom(self.replace(_repo_separator + self.repo, '', 1),
allow_wildcard=True)
@property
def without_slot(self):
if self.slot is None and self.slot_operator is None:
return self
atom = remove_slot(self)
if self.repo is not None:
atom += _repo_separator + self.repo
if self.use is not None:
atom += _unicode(self.use)
return Atom(atom,
allow_repo=True, allow_wildcard=True)
def with_repo(self, repo):
atom = remove_slot(self)
if self.slot is not None or self.slot_operator is not None:
atom += _slot_separator
if self.slot is not None:
atom += self.slot
if self.sub_slot is not None:
atom += "/%s" % self.sub_slot
if self.slot_operator is not None:
atom += self.slot_operator
atom += _repo_separator + repo
if self.use is not None:
atom += _unicode(self.use)
return Atom(atom, allow_repo=True, allow_wildcard=True)
def with_slot(self, slot):
atom = remove_slot(self) + _slot_separator + slot
if self.repo is not None:
atom += _repo_separator + self.repo
if self.use is not None:
atom += _unicode(self.use)
return Atom(atom, allow_repo=True, allow_wildcard=True)
def __setattr__(self, name, value):
raise AttributeError("Atom instances are immutable",
self.__class__, name, value)
def intersects(self, other):
"""
Atoms with different cpv, operator or use attributes cause this method
to return False even though there may actually be some intersection.
TODO: Detect more forms of intersection.
@param other: The package atom to match
@type other: Atom
@rtype: Boolean
@return: True if this atom and the other atom intersect,
False otherwise.
"""
if not isinstance(other, Atom):
raise TypeError("expected %s, got %s" % \
(Atom, type(other)))
if self == other:
return True
if self.cp != other.cp or \
self.use != other.use or \
self.operator != other.operator or \
self.cpv != other.cpv:
return False
if self.slot is None or \
other.slot is None or \
self.slot == other.slot:
return True
return False
def evaluate_conditionals(self, use):
"""
Create an atom instance with any USE conditionals evaluated.
@param use: The set of enabled USE flags
@type use: set
@rtype: Atom
@return: an atom instance with any USE conditionals evaluated
"""
if not (self.use and self.use.conditional):
return self
atom = remove_slot(self)
if self.slot is not None or self.slot_operator is not None:
atom += _slot_separator
if self.slot is not None:
atom += self.slot
if self.sub_slot is not None:
atom += "/%s" % self.sub_slot
if self.slot_operator is not None:
atom += self.slot_operator
use_dep = self.use.evaluate_conditionals(use)
atom += _unicode(use_dep)
return Atom(atom, unevaluated_atom=self, allow_repo=(self.repo is not None), _use=use_dep)
def violated_conditionals(self, other_use, is_valid_flag, parent_use=None):
"""
Create an atom instance with any USE conditional removed, that is
satisfied by other_use.
@param other_use: The set of enabled USE flags
@type other_use: set
@param is_valid_flag: Function that decides if a use flag is referenceable in use deps
@type is_valid_flag: function
@param parent_use: Set of enabled use flags of the package requiring this atom
@type parent_use: set
@rtype: Atom
@return: an atom instance with any satisfied USE conditionals removed
"""
if not self.use:
return self
atom = remove_slot(self)
if self.slot is not None or self.slot_operator is not None:
atom += _slot_separator
if self.slot is not None:
atom += self.slot
if self.sub_slot is not None:
atom += "/%s" % self.sub_slot
if self.slot_operator is not None:
atom += self.slot_operator
use_dep = self.use.violated_conditionals(other_use, is_valid_flag, parent_use)
atom += _unicode(use_dep)
return Atom(atom, unevaluated_atom=self, allow_repo=(self.repo is not None), _use=use_dep)
def _eval_qa_conditionals(self, use_mask, use_force):
if not (self.use and self.use.conditional):
return self
atom = remove_slot(self)
if self.slot is not None or self.slot_operator is not None:
atom += _slot_separator
if self.slot is not None:
atom += self.slot
if self.sub_slot is not None:
atom += "/%s" % self.sub_slot
if self.slot_operator is not None:
atom += self.slot_operator
use_dep = self.use._eval_qa_conditionals(use_mask, use_force)
atom += _unicode(use_dep)
return Atom(atom, unevaluated_atom=self, allow_repo=(self.repo is not None), _use=use_dep)
def __copy__(self):
"""Immutable, so returns self."""
return self
def __deepcopy__(self, memo=None):
"""Immutable, so returns self."""
memo[id(self)] = self
return self
_extended_cp_re_cache = {}
def extended_cp_match(extended_cp, other_cp):
"""
Checks if an extended syntax cp matches a non extended cp
"""
# Escape special '+' and '.' characters which are allowed in atoms,
# and convert '*' to regex equivalent.
global _extended_cp_re_cache
extended_cp_re = _extended_cp_re_cache.get(extended_cp)
if extended_cp_re is None:
extended_cp_re = re.compile("^" + re.escape(extended_cp).replace(
r'\*', '[^/]*') + "$", re.UNICODE)
_extended_cp_re_cache[extended_cp] = extended_cp_re
return extended_cp_re.match(other_cp) is not None
class ExtendedAtomDict(portage.cache.mappings.MutableMapping):
"""
dict() wrapper that supports extended atoms as keys and allows lookup
of a normal cp against other normal cp and extended cp.
The value type has to be given to __init__ and is assumed to be the same
for all values.
"""
__slots__ = ('_extended', '_normal', '_value_class')
def __init__(self, value_class):
self._extended = {}
self._normal = {}
self._value_class = value_class
def copy(self):
result = self.__class__(self._value_class)
result._extended.update(self._extended)
result._normal.update(self._normal)
return result
def __iter__(self):
for k in self._normal:
yield k
for k in self._extended:
yield k
def iteritems(self):
try:
for item in self._normal.items():
yield item
for item in self._extended.items():
yield item
except AttributeError:
pass # FEATURES=python-trace
def __delitem__(self, cp):
if "*" in cp:
return self._extended.__delitem__(cp)
else:
return self._normal.__delitem__(cp)
if sys.hexversion >= 0x3000000:
keys = __iter__
items = iteritems
def __len__(self):
return len(self._normal) + len(self._extended)
def setdefault(self, cp, default=None):
if "*" in cp:
return self._extended.setdefault(cp, default)
else:
return self._normal.setdefault(cp, default)
def __getitem__(self, cp):
if not isinstance(cp, basestring):
raise KeyError(cp)
if '*' in cp:
return self._extended[cp]
ret = self._value_class()
normal_match = self._normal.get(cp)
match = False
if normal_match is not None:
match = True
if hasattr(ret, "update"):
ret.update(normal_match)
elif hasattr(ret, "extend"):
ret.extend(normal_match)
else:
raise NotImplementedError()
for extended_cp in self._extended:
if extended_cp_match(extended_cp, cp):
match = True
if hasattr(ret, "update"):
ret.update(self._extended[extended_cp])
elif hasattr(ret, "extend"):
ret.extend(self._extended[extended_cp])
else:
raise NotImplementedError()
if not match:
raise KeyError(cp)
return ret
def __setitem__(self, cp, val):
if "*" in cp:
self._extended[cp] = val
else:
self._normal[cp] = val
def __eq__(self, other):
return self._value_class == other._value_class and \
self._extended == other._extended and \
self._normal == other._normal
def clear(self):
self._extended.clear()
self._normal.clear()
def get_operator(mydep):
"""
Return the operator used in a depstring.
Example usage:
>>> from portage.dep import *
>>> get_operator(">=test-1.0")
'>='
@param mydep: The dep string to check
@type mydep: String
@rtype: String
@return: The operator. One of:
'~', '=', '>', '<', '=*', '>=', or '<='
"""
if not isinstance(mydep, Atom):
mydep = Atom(mydep)
return mydep.operator
def dep_getcpv(mydep):
"""
Return the category-package-version with any operators/slot specifications stripped off
Example usage:
>>> dep_getcpv('>=media-libs/test-3.0')
'media-libs/test-3.0'
@param mydep: The depstring
@type mydep: String
@rtype: String
@return: The depstring with the operator removed
"""
if not isinstance(mydep, Atom):
mydep = Atom(mydep)
return mydep.cpv
def dep_getslot(mydep):
"""
Retrieve the slot on a depend.
Example usage:
>>> dep_getslot('app-misc/test:3')
'3'
@param mydep: The depstring to retrieve the slot of
@type mydep: String
@rtype: String
@return: The slot
"""
slot = getattr(mydep, "slot", False)
if slot is not False:
return slot
#remove repo_name if present
mydep = mydep.split(_repo_separator)[0]
colon = mydep.find(_slot_separator)
if colon != -1:
bracket = mydep.find("[", colon)
if bracket == -1:
return mydep[colon+1:]
else:
return mydep[colon+1:bracket]
return None
def dep_getrepo(mydep):
"""
Retrieve the repo on a depend.
Example usage:
>>> dep_getrepo('app-misc/test::repository')
'repository'
@param mydep: The depstring to retrieve the repository of
@type mydep: String
@rtype: String
@return: The repository name
"""
repo = getattr(mydep, "repo", False)
if repo is not False:
return repo
metadata = getattr(mydep, "metadata", False)
if metadata:
repo = metadata.get('repository', False)
if repo is not False:
return repo
colon = mydep.find(_repo_separator)
if colon != -1:
bracket = mydep.find("[", colon)
if bracket == -1:
return mydep[colon+2:]
else:
return mydep[colon+2:bracket]
return None
def remove_slot(mydep):
"""
Removes dep components from the right side of an atom:
* slot
* use
* repo
And repo_name from the left side.
"""
colon = mydep.find(_slot_separator)
if colon != -1:
mydep = mydep[:colon]
else:
bracket = mydep.find("[")
if bracket != -1:
mydep = mydep[:bracket]
return mydep
def dep_getusedeps( depend ):
"""
Pull a listing of USE Dependencies out of a dep atom.
Example usage:
>>> dep_getusedeps('app-misc/test:3[foo,-bar]')
('foo', '-bar')
@param depend: The depstring to process
@type depend: String
@rtype: List
@return: List of use flags ( or [] if no flags exist )
"""
use_list = []
open_bracket = depend.find('[')
# -1 = failure (think c++ string::npos)
comma_separated = False
bracket_count = 0
while( open_bracket != -1 ):
bracket_count += 1
if bracket_count > 1:
raise InvalidAtom(_("USE Dependency with more "
"than one set of brackets: %s") % (depend,))
close_bracket = depend.find(']', open_bracket )
if close_bracket == -1:
raise InvalidAtom(_("USE Dependency with no closing bracket: %s") % depend )
use = depend[open_bracket + 1: close_bracket]
# foo[1:1] may return '' instead of None, we don't want '' in the result
if not use:
raise InvalidAtom(_("USE Dependency with "
"no use flag ([]): %s") % depend )
if not comma_separated:
comma_separated = "," in use
if comma_separated and bracket_count > 1:
raise InvalidAtom(_("USE Dependency contains a mixture of "
"comma and bracket separators: %s") % depend )
if comma_separated:
for x in use.split(","):
if x:
use_list.append(x)
else:
raise InvalidAtom(_("USE Dependency with no use "
"flag next to comma: %s") % depend )
else:
use_list.append(use)
# Find next use flag
open_bracket = depend.find( '[', open_bracket+1 )
return tuple(use_list)
def isvalidatom(atom, allow_blockers=False, allow_wildcard=False,
allow_repo=False, eapi=None):
"""
Check to see if a depend atom is valid
Example usage:
>>> isvalidatom('media-libs/test-3.0')
False
>>> isvalidatom('>=media-libs/test-3.0')
True
@param atom: The depend atom to check against
@type atom: String or Atom
@rtype: Boolean
@return: One of the following:
1) False if the atom is invalid
2) True if the atom is valid
"""
if eapi is not None and isinstance(atom, Atom) and atom.eapi != eapi:
# We'll construct a new atom with the given eapi.
atom = _unicode(atom)
try:
if not isinstance(atom, Atom):
atom = Atom(atom, allow_wildcard=allow_wildcard,
allow_repo=allow_repo, eapi=eapi)
if not allow_blockers and atom.blocker:
return False
return True
except InvalidAtom:
return False
def isjustname(mypkg):
"""
Checks to see if the atom is only the package name (no version parts).
Example usage:
>>> isjustname('=media-libs/test-3.0')
False
>>> isjustname('media-libs/test')
True
@param mypkg: The package atom to check
@param mypkg: String or Atom
@rtype: Integer
@return: One of the following:
1) False if the package string is not just the package name
2) True if it is
"""
try:
if not isinstance(mypkg, Atom):
mypkg = Atom(mypkg)
return mypkg == mypkg.cp
except InvalidAtom:
pass
for x in mypkg.split('-')[-2:]:
if ververify(x):
return False
return True
def isspecific(mypkg):
"""
Checks to see if a package is in =category/package-version or
package-version format.
Example usage:
>>> isspecific('media-libs/test')
False
>>> isspecific('=media-libs/test-3.0')
True
@param mypkg: The package depstring to check against
@type mypkg: String
@rtype: Boolean
@return: One of the following:
1) False if the package string is not specific
2) True if it is
"""
try:
if not isinstance(mypkg, Atom):
mypkg = Atom(mypkg)
return mypkg != mypkg.cp
except InvalidAtom:
pass
# Fall back to legacy code for backward compatibility.
return not isjustname(mypkg)
def dep_getkey(mydep):
"""
Return the category/package-name of a depstring.
Example usage:
>>> dep_getkey('=media-libs/test-3.0')
'media-libs/test'
@param mydep: The depstring to retrieve the category/package-name of
@type mydep: String
@rtype: String
@return: The package category/package-name
"""
if not isinstance(mydep, Atom):
mydep = Atom(mydep, allow_wildcard=True, allow_repo=True)
return mydep.cp
def match_to_list(mypkg, mylist):
"""
Searches list for entries that matches the package.
@param mypkg: The package atom to match
@type mypkg: String
@param mylist: The list of package atoms to compare against
@param mylist: List
@rtype: List
@return: A unique list of package atoms that match the given package atom
"""
matches = set()
result = []
pkgs = [mypkg]
for x in mylist:
if x not in matches and match_from_list(x, pkgs):
matches.add(x)
result.append(x)
return result
def best_match_to_list(mypkg, mylist):
"""
Returns the most specific entry that matches the package given.
@param mypkg: The package atom to check
@type mypkg: String
@param mylist: The list of package atoms to check against
@type mylist: List
@rtype: String
@return: The package atom which best matches given the following ordering:
- =cpv 6
- ~cpv 5
- =cpv* 4
- cp:slot 3
- >cpv 2
- <cpv 2
- >=cpv 2
- <=cpv 2
- cp 1
- cp:slot with extended syntax 0
- cp with extended syntax -1
"""
operator_values = {'=':6, '~':5, '=*':4,
'>':2, '<':2, '>=':2, '<=':2, None:1}
maxvalue = -99
bestm = None
mypkg_cpv = None
for x in match_to_list(mypkg, mylist):
if x.extended_syntax:
if x.operator == '=*':
if maxvalue < 0:
maxvalue = 0
bestm = x
elif x.slot is not None:
if maxvalue < -1:
maxvalue = -1
bestm = x
else:
if maxvalue < -2:
maxvalue = -2
bestm = x
continue
if dep_getslot(x) is not None:
if maxvalue < 3:
maxvalue = 3
bestm = x
op_val = operator_values[x.operator]
if op_val > maxvalue:
maxvalue = op_val
bestm = x
elif op_val == maxvalue and op_val == 2:
# For >, <, >=, and <=, the one with the version
# closest to mypkg is the best match.
if mypkg_cpv is None:
try:
mypkg_cpv = mypkg.cpv
except AttributeError:
mypkg_cpv = _pkg_str(remove_slot(mypkg))
if bestm.cpv == mypkg_cpv or bestm.cpv == x.cpv:
pass
elif x.cpv == mypkg_cpv:
bestm = x
else:
# Sort the cpvs to find the one closest to mypkg_cpv
cpv_list = [bestm.cpv, mypkg_cpv, x.cpv]
def cmp_cpv(cpv1, cpv2):
return vercmp(cpv1.version, cpv2.version)
cpv_list.sort(key=cmp_sort_key(cmp_cpv))
if cpv_list[0] is mypkg_cpv or cpv_list[-1] is mypkg_cpv:
if cpv_list[1] is x.cpv:
bestm = x
else:
# TODO: handle the case where mypkg_cpv is in the middle
pass
return bestm
def match_from_list(mydep, candidate_list):
"""
Searches list for entries that matches the package.
@param mydep: The package atom to match
@type mydep: String
@param candidate_list: The list of package atoms to compare against
@param candidate_list: List
@rtype: List
@return: A list of package atoms that match the given package atom
"""
if not candidate_list:
return []
if "!" == mydep[:1]:
if "!" == mydep[1:2]:
mydep = mydep[2:]
else:
mydep = mydep[1:]
if not isinstance(mydep, Atom):
mydep = Atom(mydep, allow_wildcard=True, allow_repo=True)
mycpv = mydep.cpv
mycpv_cps = catpkgsplit(mycpv) # Can be None if not specific
slot = mydep.slot
if not mycpv_cps:
cat, pkg = catsplit(mycpv)
ver = None
rev = None
else:
cat, pkg, ver, rev = mycpv_cps
if mydep == mycpv:
raise KeyError(_("Specific key requires an operator"
" (%s) (try adding an '=')") % (mydep))
if ver and rev:
operator = mydep.operator
if not operator:
writemsg(_("!!! Invalid atom: %s\n") % mydep, noiselevel=-1)
return []
else:
operator = None
mylist = []
if mydep.extended_syntax:
for x in candidate_list:
cp = getattr(x, "cp", None)
if cp is None:
mysplit = catpkgsplit(remove_slot(x))
if mysplit is not None:
cp = mysplit[0] + '/' + mysplit[1]
if cp is None:
continue
if cp == mycpv or extended_cp_match(mydep.cp, cp):
mylist.append(x)
if mylist and mydep.operator == "=*":
candidate_list = mylist
mylist = []
# Currently, only \*\w+\* is supported.
ver = mydep.version[1:-1]
for x in candidate_list:
x_ver = getattr(x, "version", None)
if x_ver is None:
xs = catpkgsplit(remove_slot(x))
if xs is None:
continue
x_ver = "-".join(xs[-2:])
if ver in x_ver:
mylist.append(x)
elif operator is None:
for x in candidate_list:
cp = getattr(x, "cp", None)
if cp is None:
mysplit = catpkgsplit(remove_slot(x))
if mysplit is not None:
cp = mysplit[0] + '/' + mysplit[1]
if cp is None:
continue
if cp == mydep.cp:
mylist.append(x)
elif operator == "=": # Exact match
for x in candidate_list:
xcpv = getattr(x, "cpv", None)
if xcpv is None:
xcpv = remove_slot(x)
if not cpvequal(xcpv, mycpv):
continue
mylist.append(x)
elif operator == "=*": # glob match
# XXX: Nasty special casing for leading zeros
# Required as =* is a literal prefix match, so can't
# use vercmp
myver = mycpv_cps[2].lstrip("0")
if not myver or not myver[0].isdigit():
myver = "0"+myver
mycpv_cmp = mycpv_cps[0] + "/" + mycpv_cps[1] + "-" + myver
for x in candidate_list:
xs = getattr(x, "cpv_split", None)
if xs is None:
xs = catpkgsplit(remove_slot(x))
myver = xs[2].lstrip("0")
if not myver or not myver[0].isdigit():
myver = "0"+myver
xcpv = xs[0]+"/"+xs[1]+"-"+myver
if xcpv.startswith(mycpv_cmp):
mylist.append(x)
elif operator == "~": # version, any revision, match
for x in candidate_list:
xs = getattr(x, "cpv_split", None)
if xs is None:
xs = catpkgsplit(remove_slot(x))
if xs is None:
raise InvalidData(x)
if not cpvequal(xs[0]+"/"+xs[1]+"-"+xs[2], mycpv_cps[0]+"/"+mycpv_cps[1]+"-"+mycpv_cps[2]):
continue
if xs[2] != ver:
continue
mylist.append(x)
elif operator in [">", ">=", "<", "<="]:
for x in candidate_list:
if hasattr(x, 'cp'):
pkg = x
else:
try:
pkg = _pkg_str(remove_slot(x))
except InvalidData:
continue
if pkg.cp != mydep.cp:
continue
try:
result = vercmp(pkg.version, mydep.version)
except ValueError: # pkgcmp may return ValueError during int() conversion
writemsg(_("\nInvalid package name: %s\n") % x, noiselevel=-1)
raise
if result is None:
continue
elif operator == ">":
if result > 0:
mylist.append(x)
elif operator == ">=":
if result >= 0:
mylist.append(x)
elif operator == "<":
if result < 0:
mylist.append(x)
elif operator == "<=":
if result <= 0:
mylist.append(x)
else:
raise KeyError(_("Unknown operator: %s") % mydep)
else:
raise KeyError(_("Unknown operator: %s") % mydep)
if mydep.slot is not None:
candidate_list = mylist
mylist = []
for x in candidate_list:
x_pkg = None
try:
x.cpv
except AttributeError:
xslot = dep_getslot(x)
if xslot is not None:
try:
x_pkg = _pkg_str(remove_slot(x), slot=xslot)
except InvalidData:
continue
else:
x_pkg = x
if x_pkg is None:
mylist.append(x)
else:
try:
x_pkg.slot
except AttributeError:
mylist.append(x)
else:
if _match_slot(mydep, x_pkg):
mylist.append(x)
if mydep.unevaluated_atom.use:
candidate_list = mylist
mylist = []
for x in candidate_list:
use = getattr(x, "use", None)
if use is not None:
if mydep.unevaluated_atom.use and \
not x.iuse.is_valid_flag(
mydep.unevaluated_atom.use.required):
continue
if mydep.use:
is_valid_flag = x.iuse.is_valid_flag
missing_enabled = frozenset(flag for flag in
mydep.use.missing_enabled if not is_valid_flag(flag))
missing_disabled = frozenset(flag for flag in
mydep.use.missing_disabled if not is_valid_flag(flag))
if mydep.use.enabled:
if any(f in mydep.use.enabled for f in missing_disabled):
continue
need_enabled = mydep.use.enabled.difference(use.enabled)
if need_enabled:
if any(f not in missing_enabled for f in need_enabled):
continue
if mydep.use.disabled:
if any(f in mydep.use.disabled for f in missing_enabled):
continue
need_disabled = mydep.use.disabled.intersection(use.enabled)
if need_disabled:
if any(f not in missing_disabled for f in need_disabled):
continue
mylist.append(x)
if mydep.repo:
candidate_list = mylist
mylist = []
for x in candidate_list:
repo = getattr(x, "repo", False)
if repo is False:
repo = dep_getrepo(x)
if repo is not None and repo != _unknown_repo and \
repo != mydep.repo:
continue
mylist.append(x)
return mylist
def human_readable_required_use(required_use):
return required_use.replace("^^", "exactly-one-of").replace("||", "any-of").replace("??", "at-most-one-of")
def get_required_use_flags(required_use, eapi=None):
"""
Returns a set of use flags that are used in the given REQUIRED_USE string
@param required_use: REQUIRED_USE string
@type required_use: String
@rtype: Set
@return: Set of use flags that are used in the given REQUIRED_USE string
"""
eapi_attrs = _get_eapi_attrs(eapi)
if eapi_attrs.required_use_at_most_one_of:
valid_operators = ("||", "^^", "??")
else:
valid_operators = ("||", "^^")
mysplit = required_use.split()
level = 0
stack = [[]]
need_bracket = False
used_flags = set()
def register_token(token):
if token.endswith("?"):
token = token[:-1]
if token.startswith("!"):
token = token[1:]
used_flags.add(token)
for token in mysplit:
if token == "(":
need_bracket = False
stack.append([])
level += 1
elif token == ")":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
if level > 0:
level -= 1
l = stack.pop()
ignore = False
if stack[level]:
if stack[level][-1] in valid_operators or \
(not isinstance(stack[level][-1], bool) and \
stack[level][-1][-1] == "?"):
ignore = True
stack[level].pop()
stack[level].append(True)
if l and not ignore:
stack[level].append(all(x for x in l))
else:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
elif token in valid_operators:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
need_bracket = True
stack[level].append(token)
else:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
if token[-1] == "?":
need_bracket = True
stack[level].append(token)
else:
stack[level].append(True)
register_token(token)
if level != 0 or need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
return frozenset(used_flags)
class _RequiredUseLeaf(object):
__slots__ = ('_satisfied', '_token')
def __init__(self, token, satisfied):
self._token = token
self._satisfied = satisfied
def tounicode(self):
return self._token
class _RequiredUseBranch(object):
__slots__ = ('_children', '_operator', '_parent', '_satisfied')
def __init__(self, operator=None, parent=None):
self._children = []
self._operator = operator
self._parent = parent
self._satisfied = False
def __bool__(self):
return self._satisfied
def tounicode(self):
include_parens = self._parent is not None
tokens = []
if self._operator is not None:
tokens.append(self._operator)
if include_parens:
tokens.append("(")
complex_nesting = False
node = self
while node != None and not complex_nesting:
if node._operator in ("||", "^^", "??"):
complex_nesting = True
else:
node = node._parent
if complex_nesting:
for child in self._children:
tokens.append(child.tounicode())
else:
for child in self._children:
if not child._satisfied:
tokens.append(child.tounicode())
if include_parens:
tokens.append(")")
return " ".join(tokens)
if sys.hexversion < 0x3000000:
__nonzero__ = __bool__
def check_required_use(required_use, use, iuse_match, eapi=None):
"""
Checks if the use flags listed in 'use' satisfy all
constraints specified in 'constraints'.
@param required_use: REQUIRED_USE string
@type required_use: String
@param use: Enabled use flags
@param use: List
@param iuse_match: Callable that takes a single flag argument and returns
True if the flag is matched, false otherwise,
@param iuse_match: Callable
@rtype: Bool
@return: Indicates if REQUIRED_USE constraints are satisfied
"""
eapi_attrs = _get_eapi_attrs(eapi)
if eapi_attrs.required_use_at_most_one_of:
valid_operators = ("||", "^^", "??")
else:
valid_operators = ("||", "^^")
def is_active(token):
if token.startswith("!"):
flag = token[1:]
is_negated = True
else:
flag = token
is_negated = False
if not flag or not iuse_match(flag):
if not eapi_attrs.required_use_at_most_one_of and flag == "?":
msg = _("Operator '??' is not supported with EAPI '%s'") \
% (eapi,)
e = InvalidData(msg, category='EAPI.incompatible')
raise InvalidDependString(msg, errors=(e,))
msg = _("USE flag '%s' is not in IUSE") \
% (flag,)
e = InvalidData(msg, category='IUSE.missing')
raise InvalidDependString(msg, errors=(e,))
return (flag in use and not is_negated) or \
(flag not in use and is_negated)
def is_satisfied(operator, argument):
if not argument:
#|| ( ) -> True
return True
if operator == "||":
return (True in argument)
elif operator == "^^":
return (argument.count(True) == 1)
elif operator == "??":
return (argument.count(True) <= 1)
elif operator[-1] == "?":
return (False not in argument)
mysplit = required_use.split()
level = 0
stack = [[]]
tree = _RequiredUseBranch()
node = tree
need_bracket = False
for token in mysplit:
if token == "(":
if not need_bracket:
child = _RequiredUseBranch(parent=node)
node._children.append(child)
node = child
need_bracket = False
stack.append([])
level += 1
elif token == ")":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
if level > 0:
level -= 1
l = stack.pop()
op = None
if stack[level]:
if stack[level][-1] in valid_operators:
op = stack[level].pop()
satisfied = is_satisfied(op, l)
stack[level].append(satisfied)
node._satisfied = satisfied
elif not isinstance(stack[level][-1], bool) and \
stack[level][-1][-1] == "?":
op = stack[level].pop()
if is_active(op[:-1]):
satisfied = is_satisfied(op, l)
stack[level].append(satisfied)
node._satisfied = satisfied
else:
node._satisfied = True
last_node = node._parent._children.pop()
if last_node is not node:
raise AssertionError(
"node is not last child of parent")
node = node._parent
continue
if op is None:
satisfied = False not in l
node._satisfied = satisfied
if l:
stack[level].append(satisfied)
if len(node._children) <= 1 or \
node._parent._operator not in valid_operators:
last_node = node._parent._children.pop()
if last_node is not node:
raise AssertionError(
"node is not last child of parent")
for child in node._children:
node._parent._children.append(child)
if isinstance(child, _RequiredUseBranch):
child._parent = node._parent
elif not node._children:
last_node = node._parent._children.pop()
if last_node is not node:
raise AssertionError(
"node is not last child of parent")
elif len(node._children) == 1 and op in valid_operators:
last_node = node._parent._children.pop()
if last_node is not node:
raise AssertionError(
"node is not last child of parent")
node._parent._children.append(node._children[0])
if isinstance(node._children[0], _RequiredUseBranch):
node._children[0]._parent = node._parent
node = node._children[0]
if node._operator is None and \
node._parent._operator not in valid_operators:
last_node = node._parent._children.pop()
if last_node is not node:
raise AssertionError(
"node is not last child of parent")
for child in node._children:
node._parent._children.append(child)
if isinstance(child, _RequiredUseBranch):
child._parent = node._parent
node = node._parent
else:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
elif token in valid_operators:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
need_bracket = True
stack[level].append(token)
child = _RequiredUseBranch(operator=token, parent=node)
node._children.append(child)
node = child
else:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
if token[-1] == "?":
need_bracket = True
stack[level].append(token)
child = _RequiredUseBranch(operator=token, parent=node)
node._children.append(child)
node = child
else:
satisfied = is_active(token)
stack[level].append(satisfied)
node._children.append(_RequiredUseLeaf(token, satisfied))
if level != 0 or need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % required_use)
tree._satisfied = False not in stack[0]
return tree
def extract_affecting_use(mystr, atom, eapi=None):
"""
Take a dep string and an atom and return the use flags
that decide if the given atom is in effect.
Example usage:
>>> extract_affecting_use('sasl? ( dev-libs/cyrus-sasl ) \
!minimal? ( cxx? ( dev-libs/cyrus-sasl ) )', 'dev-libs/cyrus-sasl')
{'cxx', 'minimal', 'sasl'}
@param mystr: The dependency string
@type mystr: String
@param atom: The atom to get into effect
@type atom: String
@rtype: Set of strings
@return: Set of use flags affecting given atom
"""
useflag_re = _get_useflag_re(eapi)
mysplit = mystr.split()
level = 0
stack = [[]]
need_bracket = False
affecting_use = set()
def flag(conditional):
if conditional[0] == "!":
flag = conditional[1:-1]
else:
flag = conditional[:-1]
if useflag_re.match(flag) is None:
raise InvalidDependString(
_("invalid use flag '%s' in conditional '%s'") % \
(flag, conditional))
return flag
for token in mysplit:
if token == "(":
need_bracket = False
stack.append([])
level += 1
elif token == ")":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
if level > 0:
level -= 1
l = stack.pop()
is_single = (len(l) == 1 or (len(l)==2 and (l[0] == "||" or l[0][-1] == "?")))
def ends_in_any_of_dep(k):
return k>=0 and stack[k] and stack[k][-1] == "||"
def ends_in_operator(k):
return k>=0 and stack[k] and (stack[k][-1] == "||" or stack[k][-1][-1] == "?")
def special_append():
"""
Use extend instead of append if possible. This kills all redundant brackets.
"""
if is_single and (not stack[level] or not stack[level][-1][-1] == "?"):
if len(l) == 1 and isinstance(l[0], list):
# l = [[...]]
stack[level].extend(l[0])
else:
stack[level].extend(l)
else:
stack[level].append(l)
if l:
if not ends_in_any_of_dep(level-1) and not ends_in_operator(level):
#Optimize: ( ( ... ) ) -> ( ... ). Make sure there is no '||' hanging around.
stack[level].extend(l)
elif not stack[level]:
#An '||' in the level above forces us to keep to brackets.
special_append()
elif len(l) == 1 and ends_in_any_of_dep(level):
#Optimize: || ( A ) -> A
stack[level].pop()
special_append()
elif len(l) == 2 and (l[0] == "||" or l[0][-1] == "?") and stack[level][-1] in (l[0], "||"):
#Optimize: || ( || ( ... ) ) -> || ( ... )
# foo? ( foo? ( ... ) ) -> foo? ( ... )
# || ( foo? ( ... ) ) -> foo? ( ... )
stack[level].pop()
special_append()
if l[0][-1] == "?":
affecting_use.add(flag(l[0]))
else:
if stack[level] and stack[level][-1][-1] == "?":
affecting_use.add(flag(stack[level][-1]))
special_append()
else:
if stack[level] and (stack[level][-1] == "||" or stack[level][-1][-1] == "?"):
stack[level].pop()
else:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
elif token == "||":
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
need_bracket = True
stack[level].append(token)
else:
if need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
if token[-1] == "?":
need_bracket = True
stack[level].append(token)
elif token == atom:
stack[level].append(token)
if level != 0 or need_bracket:
raise InvalidDependString(
_("malformed syntax: '%s'") % mystr)
return affecting_use
def extract_unpack_dependencies(src_uri, unpackers):
"""
Return unpack dependencies string for given SRC_URI string.
@param src_uri: SRC_URI string
@type src_uri: String
@param unpackers: Dictionary mapping archive suffixes to dependency strings
@type unpackers: Dictionary
@rtype: String
@return: Dependency string specifying packages required to unpack archives.
"""
src_uri = src_uri.split()
depend = []
for i in range(len(src_uri)):
if src_uri[i][-1] == "?" or src_uri[i] in ("(", ")"):
depend.append(src_uri[i])
elif (i+1 < len(src_uri) and src_uri[i+1] == "->") or src_uri[i] == "->":
continue
else:
for suffix in sorted(unpackers, key=lambda x: len(x), reverse=True):
suffix = suffix.lower()
if src_uri[i].lower().endswith(suffix):
depend.append(unpackers[suffix])
break
while True:
cleaned_depend = depend[:]
for i in range(len(cleaned_depend)):
if cleaned_depend[i] is None:
continue
elif cleaned_depend[i] == "(" and cleaned_depend[i+1] == ")":
cleaned_depend[i] = None
cleaned_depend[i+1] = None
elif cleaned_depend[i][-1] == "?" and cleaned_depend[i+1] == "(" and cleaned_depend[i+2] == ")":
cleaned_depend[i] = None
cleaned_depend[i+1] = None
cleaned_depend[i+2] = None
if depend == cleaned_depend:
break
else:
depend = [x for x in cleaned_depend if x is not None]
return " ".join(depend)
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