Lichen

resolving.py

701:7edcb1489c58
2017-03-11 Paul Boddie Fixed resolution of local and undetermined name references for initialisers.
     1 #!/usr/bin/env python     2      3 """     4 Name resolution.     5      6 Copyright (C) 2016, 2017 Paul Boddie <paul@boddie.org.uk>     7      8 This program is free software; you can redistribute it and/or modify it under     9 the terms of the GNU General Public License as published by the Free Software    10 Foundation; either version 3 of the License, or (at your option) any later    11 version.    12     13 This program is distributed in the hope that it will be useful, but WITHOUT    14 ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS    15 FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more    16 details.    17     18 You should have received a copy of the GNU General Public License along with    19 this program.  If not, see <http://www.gnu.org/licenses/>.    20 """    21     22 from common import init_item    23 from results import AccessRef, InstanceRef, InvocationRef, LocalNameRef, \    24                     NameRef, ResolvedNameRef    25 from referencing import Reference    26 import sys    27     28 class NameResolving:    29     30     "Resolving names mix-in for inspected modules."    31     32     # Post-inspection resolution activities.    33     34     def resolve(self):    35     36         "Resolve dependencies and complete definitions."    37     38         self.resolve_class_bases()    39         self.check_special()    40         self.check_names_used()    41         self.check_invocations()    42         self.resolve_initialisers()    43         self.resolve_literals()    44     45     def resolve_class_bases(self):    46     47         "Resolve all class bases since some of them may have been deferred."    48     49         for name, bases in self.classes.items():    50             resolved = []    51             bad = []    52     53             for base in bases:    54                 ref = self.importer.identify(base.get_origin())    55     56                 # Obtain the origin of the base class reference.    57     58                 if not ref or not ref.has_kind("<class>"):    59                     bad.append(base)    60                     break    61     62                 resolved.append(ref)    63     64             if bad:    65                 print >>sys.stderr, "Bases of class %s were not classes: %s" % (name, ", ".join(map(str, bad)))    66             else:    67                 self.importer.classes[name] = self.classes[name] = resolved    68     69     def check_special(self):    70     71         "Check special names."    72     73         for name, value in self.special.items():    74             ref, paths = value    75             self.special[name] = self.importer.identify(ref.get_origin()), paths    76     77     def check_names_used(self):    78     79         "Check the external names used by each scope."    80     81         for key, ref in self.name_references.items():    82             path, name = key.rsplit(".", 1)    83             self.resolve_accesses(path, name, ref)    84     85     def check_invocations(self):    86     87         "Find invocations amongst module data and replace their results."    88     89         # Find members and replace invocation results with values. This is    90         # effectively the same as is done for initialised names, but refers to    91         # any unchanging value after initialisation.    92     93         for key, ref in self.objects.items():    94             if ref.has_kind("<invoke>"):    95                 ref = self.convert_invocation(ref)    96                 self.importer.objects[key] = self.objects[key] = ref    97     98         # Convert name references.    99    100         for key, ref in self.name_references.items():   101             if ref.has_kind("<invoke>"):   102                 ref = self.convert_invocation(ref)   103                 self.importer.all_name_references[key] = self.name_references[key] = ref   104    105         # Convert function defaults, which are effectively extra members of the   106         # module, and function locals.   107    108         for fname, parameters in self.function_defaults.items():   109             l = []   110             for pname, ref in parameters:   111                 if ref.has_kind("<invoke>"):   112                     ref = self.convert_invocation(ref)   113                 l.append((pname, ref))   114             self.importer.function_defaults[fname] = self.function_defaults[fname] = l   115    116         # Convert function locals referencing invocations.   117    118         for fname, names in self.function_locals.items():   119             for name, ref in names.items():   120                 if ref.has_kind("<invoke>"):   121                     ref = self.convert_invocation(ref)   122                     names[name] = ref   123    124     def convert_invocation(self, ref):   125    126         "Convert the given invocation 'ref', handling instantiation."   127    128         alias = ref.get_name()   129         ref = self.importer.identify(ref.get_origin())   130         ref = ref and ref.has_kind("<class>") and ref.instance_of() or Reference("<var>")   131         return ref and ref.alias(alias) or None   132    133     def resolve_accesses(self, path, name, ref):   134    135         """   136         Resolve any unresolved accesses in the function at the given 'path'   137         for the given 'name' corresponding to the indicated 'ref'. Note that   138         this mechanism cannot resolve things like inherited methods because   139         they are not recorded as program objects in their inherited locations.   140         """   141    142         attr_accesses = self.global_attr_accesses.get(path)   143         all_attrnames = attr_accesses and attr_accesses.get(name)   144    145         if not all_attrnames:   146             return   147    148         # Insist on constant accessors.   149    150         if not ref.has_kind(["<class>", "<module>"]):   151             return   152    153         found_attrnames = set()   154    155         for attrnames in all_attrnames:   156    157             # Start with the resolved name, adding attributes.   158    159             attrs = ref.get_path()   160             remaining = attrnames.split(".")   161             last_ref = ref   162    163             # Add each component, testing for a constant object.   164    165             while remaining:   166                 attrname = remaining[0]   167                 attrs.append(attrname)   168                 del remaining[0]   169    170                 # Find any constant object reference.   171    172                 attr_ref = self.get_resolved_object(".".join(attrs))   173    174                 # Non-constant accessors terminate the traversal.   175    176                 if not attr_ref or not attr_ref.has_kind(["<class>", "<module>", "<function>"]):   177    178                     # Provide the furthest constant accessor unless the final   179                     # access can be resolved.   180    181                     if remaining:   182                         remaining.insert(0, attrs.pop())   183                     else:   184                         last_ref = attr_ref   185                     break   186    187                 # Follow any reference to a constant object.   188                 # Where the given name refers to an object in another location,   189                 # switch to the other location in order to be able to test its   190                 # attributes.   191    192                 last_ref = attr_ref   193                 attrs = attr_ref.get_path()   194    195             # Record a constant accessor only if an object was found   196             # that is different from the namespace involved.   197    198             if last_ref:   199                 objpath = ".".join(attrs)   200                 if objpath != path:   201    202                     if last_ref.has_kind("<invoke>"):   203                         last_ref = self.convert_invocation(last_ref)   204    205                     # Establish a constant access.   206    207                     init_item(self.const_accesses, path, dict)   208                     self.const_accesses[path][(name, attrnames)] = (objpath, last_ref, ".".join(remaining))   209    210                     if len(attrs) > 1:   211                         found_attrnames.add(attrs[1])   212    213         # Remove any usage records for the name.   214    215         if found_attrnames:   216    217             # NOTE: Should be only one name version.   218    219             versions = []   220             for version in self.attr_usage[path][name]:   221                 new_usage = set()   222                 for usage in version:   223                     if found_attrnames.intersection(usage):   224                         new_usage.add(tuple(set(usage).difference(found_attrnames)))   225                     else:   226                         new_usage.add(usage)   227                 versions.append(new_usage)   228    229             self.attr_usage[path][name] = versions   230    231     def resolve_initialisers(self):   232    233         "Resolve initialiser values for names."   234    235         # Get the initialisers in each namespace.   236    237         for path, name_initialisers in self.name_initialisers.items():   238             const_accesses = self.const_accesses.get(path)   239    240             # Resolve values for each name in a scope.   241    242             for name, values in name_initialisers.items():   243                 initialised_names = {}   244                 aliased_names = {}   245    246                 for i, name_ref in enumerate(values):   247    248                     # Unwrap invocations.   249    250                     if isinstance(name_ref, InvocationRef):   251                         invocation = True   252                         name_ref = name_ref.name_ref   253                     else:   254                         invocation = False   255    256                     # Obtain a usable reference from names or constants.   257    258                     if isinstance(name_ref, ResolvedNameRef):   259                         if not name_ref.reference():   260                             continue   261                         ref = name_ref.reference()   262    263                     # Obtain a reference from instances.   264    265                     elif isinstance(name_ref, InstanceRef):   266                         if not name_ref.reference():   267                             continue   268                         ref = name_ref.reference()   269    270                     # Resolve accesses that employ constants.   271    272                     elif isinstance(name_ref, AccessRef):   273                         ref = None   274    275                         if const_accesses:   276                             resolved_access = const_accesses.get((name_ref.original_name, name_ref.attrnames))   277                             if resolved_access:   278                                 objpath, ref, remaining_attrnames = resolved_access   279                                 if remaining_attrnames:   280                                     ref = None   281    282                         # Accesses that do not employ constants cannot be resolved,   283                         # but they may be resolvable later.   284    285                         if not ref:   286                             if not invocation:   287    288                                 # Record the path used for tracking purposes   289                                 # alongside original name, attribute and access   290                                 # number details.   291    292                                 aliased_names[i] = path, name_ref.original_name, name_ref.attrnames, name_ref.number   293    294                             continue   295    296                     # Attempt to resolve a plain name reference.   297    298                     elif isinstance(name_ref, LocalNameRef):   299                         key = "%s.%s" % (path, name_ref.name)   300                         ref = self.name_references.get(key)   301    302                         # Accesses that do not refer to known static objects   303                         # cannot be resolved, but they may be resolvable later.   304    305                         if not ref:   306                             if not invocation:   307    308                                 # Record the path used for tracking purposes   309                                 # alongside original name, attribute and access   310                                 # number details.   311    312                                 aliased_names[i] = path, name_ref.name, None, name_ref.number   313    314                             continue   315    316                         ref = self.get_resolved_object(ref.get_origin())   317                         if not ref:   318                             continue   319    320                     elif isinstance(name_ref, NameRef):   321                         key = "%s.%s" % (path, name_ref.name)   322                         ref = self.name_references.get(key)   323    324                         ref = ref and self.get_resolved_object(ref.get_origin())   325                         if not ref:   326                             continue   327    328                     else:   329                         continue   330    331                     # Resolve any hidden dependencies involving external objects   332                     # or unresolved names referring to globals or built-ins.   333    334                     if ref.has_kind("<depends>"):   335                         ref = self.importer.identify(ref.get_origin())   336    337                     # Convert class invocations to instances.   338    339                     if ref and invocation:   340                         ref = self.convert_invocation(ref)   341    342                     if ref and not ref.has_kind("<var>"):   343                         initialised_names[i] = ref   344    345                 if initialised_names:   346                     self.initialised_names[(path, name)] = initialised_names   347                 if aliased_names:   348                     self.aliased_names[(path, name)] = aliased_names   349    350     def resolve_literals(self):   351    352         "Resolve constant value types."   353    354         # Get the constants defined in each namespace.   355    356         for path, constants in self.constants.items():   357             for constant, n in constants.items():   358                 objpath = "%s.$c%d" % (path, n)   359                 _constant, value_type, encoding = self.constant_values[objpath]   360                 self.initialised_names[(path, objpath)] = {0 : Reference("<instance>", value_type)}   361    362         # Get the literals defined in each namespace.   363    364         for path, literals in self.literals.items():   365             for n in range(0, literals):   366                 objpath = "%s.$C%d" % (path, n)   367                 value_type = self.literal_types[objpath]   368                 self.initialised_names[(path, objpath)] = {0 : Reference("<instance>", value_type)}   369    370     # Object resolution.   371    372     def get_resolved_object(self, path):   373    374         """   375         Get the details of an object with the given 'path' within this module.   376         Where the object has not been resolved, None is returned. This differs   377         from the get_object method used elsewhere in that it does not return an   378         unresolved object reference.   379         """   380    381         if self.objects.has_key(path):   382             ref = self.objects[path]   383             if ref.has_kind("<depends>"):   384                 return None   385             else:   386                 return ref   387         else:   388             return None   389    390 # vim: tabstop=4 expandtab shiftwidth=4