# deps.py -- Portage dependency resolution functions # Copyright 2003-2004 Gentoo Foundation # Distributed under the terms of the GNU General Public License v2 # $Id$ # DEPEND SYNTAX: # # 'use?' only affects the immediately following word! # Nesting is the only legal way to form multiple '[!]use?' requirements. # # Where: 'a' and 'b' are use flags, and 'z' is a depend atom. # # "a? z" -- If 'a' in [use], then b is valid. # "a? ( z )" -- Syntax with parenthesis. # "a? b? z" -- Deprecated. # "a? ( b? z )" -- Valid # "a? ( b? ( z ) ) -- Valid # import re, sys import warnings from itertools import chain import portage.exception from portage.exception import InvalidData, InvalidAtom from portage.localization import _ from portage.versions import catpkgsplit, catsplit, \ pkgcmp, pkgsplit, ververify, _cp, _cpv import portage.cache.mappings if sys.hexversion >= 0x3000000: basestring = str 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 @returns: 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 """ split1 = catpkgsplit(cpv1) split2 = catpkgsplit(cpv2) if not split1 or not split2: raise portage.exception.PortageException(_("Invalid data '%s, %s', parameter was not a CPV") % (cpv1, cpv2)) if split1[0] != split2[0]: return False return (pkgcmp(split1[1:], split2[1:]) == 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 """ return [x for x in myarr if x] _paren_whitespace_re = re.compile(r'\S(\(|\))|(\(|\))\S') def paren_reduce(mystr,tokenize=1): """ Take a string and convert all paren enclosed entities into sublists, optionally futher splitting the list elements by spaces. Example usage: >>> paren_reduce('foobar foo ( bar baz )',1) ['foobar', 'foo', ['bar', 'baz']] >>> paren_reduce('foobar foo ( bar baz )',0) ['foobar foo ', [' bar baz ']] @param mystr: The string to reduce @type mystr: String @param tokenize: Split on spaces to produces further list breakdown @type tokenize: Integer @rtype: Array @return: The reduced string in an array """ global _dep_check_strict, _paren_whitespace_re if _dep_check_strict: m = _paren_whitespace_re.search(mystr) if m is not None: raise portage.exception.InvalidDependString( _("missing space by parenthesis: '%s'") % m.group(0)) mylist = [] while mystr: left_paren = mystr.find("(") has_left_paren = left_paren != -1 right_paren = mystr.find(")") has_right_paren = right_paren != -1 if not has_left_paren and not has_right_paren: freesec = mystr subsec = None tail = "" elif mystr[0] == ")": return [mylist,mystr[1:]] elif has_left_paren and not has_right_paren: raise portage.exception.InvalidDependString( _("missing right parenthesis: '%s'") % mystr) elif has_left_paren and left_paren < right_paren: freesec,subsec = mystr.split("(",1) sublist = paren_reduce(subsec, tokenize=tokenize) if len(sublist) != 2: raise portage.exception.InvalidDependString( _("malformed syntax: '%s'") % mystr) subsec, tail = sublist else: subsec,tail = mystr.split(")",1) if tokenize: subsec = strip_empty(subsec.split(" ")) return [mylist+subsec,tail] return mylist+[subsec],tail if not isinstance(tail, basestring): raise portage.exception.InvalidDependString( _("malformed syntax: '%s'") % mystr) mystr = tail if freesec: if tokenize: mylist = mylist + strip_empty(freesec.split(" ")) else: mylist = mylist + [freesec] if subsec is not None: mylist = mylist + [subsec] return mylist 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): 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 == '||': x = self._zap_parens(next(i), [], disjunction=True) if len(x) == 1: dest.append(x[0]) else: dest.append("||") dest.append(x) 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): """ 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): mystrparts.append("( "+paren_enclose(x)+" )") else: mystrparts.append(x) return " ".join(mystrparts) # This is just for use by emerge so that it can enable a backward compatibility # mode in order to gracefully deal with installed packages that have invalid # atoms or dep syntax. For backward compatibility with api consumers, strict # behavior will be explicitly enabled as necessary. _dep_check_strict = False def use_reduce(deparray, uselist=[], masklist=[], matchall=0, excludeall=[]): """ Takes a paren_reduce'd array and reduces the use? conditionals out leaving an array with subarrays @param deparray: paren_reduce'd list of deps @type deparray: List @param uselist: List of use flags @type uselist: List @param masklist: List of masked flags @type masklist: List @param matchall: Resolve all conditional deps unconditionally. Used by repoman @type matchall: Integer @rtype: List @return: The use reduced depend array """ # Quick validity checks for x, y in enumerate(deparray): if y == '||': if len(deparray) - 1 == x or not isinstance(deparray[x+1], list): raise portage.exception.InvalidDependString(_('%(dep)s missing atom list in "%(deparray)s"') % {"dep": deparray[x], "deparray": paren_enclose(deparray)}) if deparray and deparray[-1] and deparray[-1][-1] == "?": raise portage.exception.InvalidDependString(_('Conditional without target in "%s"') % paren_enclose(deparray)) global _dep_check_strict mydeparray = deparray[:] rlist = [] while mydeparray: head = mydeparray.pop(0) if not isinstance(head, basestring): additions = use_reduce(head, uselist, masklist, matchall, excludeall) if additions: rlist.append(additions) elif rlist and rlist[-1] == "||": #XXX: Currently some DEPEND strings have || lists without default atoms. # raise portage.exception.InvalidDependString("No default atom(s) in \""+paren_enclose(deparray)+"\"") rlist.append([]) else: if head[-1:] == "?": # Use reduce next group on fail. # Pull any other use conditions and the following atom or list into a separate array newdeparray = [head] while isinstance(newdeparray[-1], basestring) and \ newdeparray[-1][-1:] == "?": if mydeparray: newdeparray.append(mydeparray.pop(0)) else: raise ValueError(_("Conditional with no target.")) # Deprecation checks warned = 0 if len(newdeparray[-1]) == 0: sys.stderr.write(_("Note: Empty target in string. (Deprecated)\n")) warned = 1 if len(newdeparray) != 2: sys.stderr.write(_("Note: Nested use flags without parenthesis (Deprecated)\n")) warned = 1 if warned: sys.stderr.write(" --> "+" ".join(map(str,[head]+newdeparray))+"\n") # Check that each flag matches ismatch = True missing_flag = False for head in newdeparray[:-1]: head = head[:-1] if not head: missing_flag = True break if head.startswith("!"): head_key = head[1:] if not head_key: missing_flag = True break if not matchall and head_key in uselist or \ head_key in excludeall: ismatch = False break elif head not in masklist: if not matchall and head not in uselist: ismatch = False break else: ismatch = False if missing_flag: raise portage.exception.InvalidDependString( _('Conditional without flag: "') + \ paren_enclose([head+"?", newdeparray[-1]])+"\"") # If they all match, process the target if ismatch: target = newdeparray[-1] if isinstance(target, list): additions = use_reduce(target, uselist, masklist, matchall, excludeall) if additions: rlist.append(additions) elif not _dep_check_strict: # The old deprecated behavior. rlist.append(target) else: raise portage.exception.InvalidDependString( _("Conditional without parenthesis: '%s?'") % head) else: rlist += [head] return rlist 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 """ retlist = [] x = 0 while x != len(deplist): if isinstance(deplist[x], list): retlist.append(dep_opconvert(deplist[x])) elif deplist[x] == "||" or deplist[x] == "&&": retlist.append([deplist[x]] + dep_opconvert(deplist[x+1])) x += 1 else: retlist.append(deplist[x]) x += 1 return retlist class _use_dep(object): __slots__ = ("__weakref__", "conditional", "disabled", "enabled", "tokens", "required") _conditionals_class = portage.cache.mappings.slot_dict_class( ("disabled", "enabled", "equal", "not_equal"), prefix="") _valid_use_re = re.compile(r'^[^-?!=][^?!=]*$') def __init__(self, use): enabled_flags = [] disabled_flags = [] conditional = self._conditionals_class() for k in conditional.allowed_keys: conditional[k] = [] for x in use: last_char = x[-1:] first_char = x[:1] if "?" == last_char: if "!" == first_char: conditional.disabled.append( self._validate_flag(x, x[1:-1])) else: conditional.enabled.append( self._validate_flag(x, x[:-1])) elif "=" == last_char: if "!" == first_char: conditional.not_equal.append( self._validate_flag(x, x[1:-1])) else: conditional.equal.append( self._validate_flag(x, x[:-1])) else: if "-" == first_char: disabled_flags.append(self._validate_flag(x, x[1:])) else: enabled_flags.append(self._validate_flag(x, x)) self.tokens = use if not isinstance(self.tokens, tuple): self.tokens = tuple(self.tokens) self.required = frozenset(chain( enabled_flags, disabled_flags, *conditional.values() )) self.enabled = frozenset(enabled_flags) self.disabled = frozenset(disabled_flags) self.conditional = None for v in conditional.values(): if v: for k, v in conditional.items(): conditional[k] = frozenset(v) self.conditional = conditional break def _validate_flag(self, token, flag): if self._valid_use_re.match(flag) is None: raise InvalidAtom(_("Invalid use dep: '%s'") % (token,)) return flag 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),) 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] ) """ tokens = [] conditional = self.conditional tokens.extend(self.enabled) tokens.extend("-" + x for x in self.disabled) tokens.extend(x for x in conditional.enabled if x in use) tokens.extend("-" + x for x in conditional.disabled if x not in use) tokens.extend(x for x in conditional.equal if x in use) tokens.extend("-" + x for x in conditional.equal if x not in use) tokens.extend("-" + x for x in conditional.not_equal if x in use) tokens.extend(x for x in conditional.not_equal if x not in use) return _use_dep(tokens) 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. """ tokens = [] conditional = self.conditional tokens.extend(self.enabled) tokens.extend("-" + x for x in self.disabled) tokens.extend(x for x in conditional.enabled if x not in use_mask) tokens.extend("-" + x for x in conditional.disabled if x not in use_force) tokens.extend(x for x in conditional.equal if x not in use_mask) tokens.extend("-" + x for x in conditional.equal if x not in use_force) tokens.extend("-" + x for x in conditional.not_equal if x not in use_mask) tokens.extend(x for x in conditional.not_equal if x not in use_force) return _use_dep(tokens) if sys.hexversion < 0x3000000: _atom_base = unicode else: _atom_base = str class Atom(_atom_base): """ 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 __init__(self, s): 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") % \ (_atom_base, type(s))) _atom_base.__init__(s) if "!" == s[:1]: blocker = self._blocker(forbid_overlap=("!" == s[1:2])) if blocker.overlap.forbid: s = s[2:] else: s = s[1:] else: blocker = False self.__dict__['blocker'] = blocker m = _atom_re.match(s) if m is None: raise InvalidAtom(self) if 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) 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) 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) 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 self.__dict__['cpv'] = cpv self.__dict__['slot'] = m.group(_atom_re.groups - 1) self.__dict__['operator'] = op use_str = m.group(_atom_re.groups) if use_str is not None: use = _use_dep(dep_getusedeps(s)) without_use = Atom(m.group('without_use')) else: use = None without_use = self self.__dict__['use'] = use self.__dict__['without_use'] = without_use 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 __copy__(self): """Immutable, so returns self.""" return self def __deepcopy__(self, memo=None): """Immutable, so returns self.""" memo[id(self)] = self return self 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 isinstance(mydep, Atom): return mydep.operator try: return Atom(mydep).operator except InvalidAtom: pass # Fall back to legacy code for backward compatibility. warnings.warn(_("%s is deprecated, use %s instead") % \ ('portage.dep.get_operator()', 'portage.dep.Atom.operator'), DeprecationWarning) operator = None if mydep: mydep = remove_slot(mydep) if not mydep: return None if mydep[0] == "~": operator = "~" elif mydep[0] == "=": if mydep[-1] == "*": operator = "=*" else: operator = "=" elif mydep[0] in "><": if len(mydep) > 1 and mydep[1] == "=": operator = mydep[0:2] else: operator = mydep[0] else: operator = None return 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 isinstance(mydep, Atom): return mydep.cpv try: return Atom(mydep).cpv except InvalidAtom: pass # Fall back to legacy code for backward compatibility. warnings.warn(_("%s is deprecated, use %s instead") % \ ('portage.dep.dep_getcpv()', 'portage.dep.Atom.cpv'), DeprecationWarning) mydep_orig = mydep if mydep: mydep = remove_slot(mydep) if mydep and mydep[0] == "*": mydep = mydep[1:] if mydep and mydep[-1] == "*": mydep = mydep[:-1] if mydep and mydep[0] == "!": if mydep[1:2] == "!": mydep = mydep[2:] else: mydep = mydep[1:] if mydep[:2] in [">=", "<="]: mydep = mydep[2:] elif mydep[:1] in "=<>~": mydep = mydep[1:] return mydep 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 colon = mydep.find(":") if colon != -1: bracket = mydep.find("[", colon) if bracket == -1: return mydep[colon+1:] else: return mydep[colon+1:bracket] return None def remove_slot(mydep): """ Removes dep components from the right side of an atom: * slot * use * repo """ colon = mydep.find(":") 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) # \w is [a-zA-Z0-9_] # 2.1.3 A slot name may contain any of the characters [A-Za-z0-9+_.-]. # It must not begin with a hyphen or a dot. _slot = r'([\w+][\w+.-]*)' _slot_re = re.compile('^' + _slot + '$', re.VERBOSE) _use = r'\[.*\]' _op = r'([=~]|[><]=?)' _atom_re = re.compile('^(?P(?:' + '(?P' + _op + _cpv + ')|' + '(?P=' + _cpv + r'\*)|' + '(?P' + _cp + '))(:' + _slot + ')?)(' + _use + ')?$', re.VERBOSE) def isvalidatom(atom, allow_blockers=False): """ 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 """ try: if not isinstance(atom, Atom): atom = Atom(atom) 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 isinstance(mydep, Atom): return mydep.cp try: return Atom(mydep).cp except InvalidAtom: try: return Atom('=' + mydep).cp except InvalidAtom: pass # Fall back to legacy code for backward compatibility. warnings.warn(_("%s is deprecated, use %s instead") % \ ('portage.dep.dep_getkey()', 'portage.dep.Atom.cp'), DeprecationWarning) mydep = dep_getcpv(mydep) if mydep and isspecific(mydep): mysplit = catpkgsplit(mydep) if not mysplit: return mydep return mysplit[0] + "/" + mysplit[1] else: return mydep 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 """ return [ x for x in set(mylist) if match_from_list(x, [mypkg]) ] 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 - cp 1 """ operator_values = {'=':6, '~':5, '=*':4, '>':2, '<':2, '>=':2, '<=':2, None:1} maxvalue = 0 bestm = None for x in match_to_list(mypkg, mylist): 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 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 [] from portage.util import writemsg if "!" == mydep[:1]: mydep = mydep[1:] if not isinstance(mydep, Atom): mydep = Atom(mydep) 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 operator is None: for x in candidate_list: cp = getattr(x, "cp", None) if cp is None: cp = dep_getkey(x) if cp != mycpv: continue 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 mysplit = catpkgsplit(mycpv) myver = mysplit[2].lstrip("0") if not myver or not myver[0].isdigit(): myver = "0"+myver mycpv = mysplit[0]+"/"+mysplit[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): 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 [">", ">=", "<", "<="]: mysplit = ["%s/%s" % (cat, pkg), ver, rev] for x in candidate_list: xs = getattr(x, "cpv_split", None) if xs is None: xs = catpkgsplit(remove_slot(x)) xcat, xpkg, xver, xrev = xs xs = ["%s/%s" % (xcat, xpkg), xver, xrev] try: result = pkgcmp(xs, mysplit) 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 slot is not None: candidate_list = mylist mylist = [] for x in candidate_list: xslot = getattr(x, "slot", False) if xslot is False: xslot = dep_getslot(x) if xslot is not None and xslot != slot: continue mylist.append(x) if mydep.use: candidate_list = mylist mylist = [] for x in candidate_list: use = getattr(x, "use", None) if use is not None: regex = x.iuse.regex missing_iuse = False for y in mydep.use.required: if regex.match(y) is None: missing_iuse = True break if missing_iuse: continue if mydep.use.enabled.difference(use.enabled): continue if mydep.use.disabled.intersection(use.enabled): continue mylist.append(x) return mylist