Lichen

Annotated modules.py

336:8c75cdf1a764
2016-12-06 Paul Boddie Introduced stream classes employing C-level FILE pointers, changing the sys stdin, stdout and stderr objects to be instances of these stream classes. Added fread and fwrite support to the native functions. Added support for raising EOFError.
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#!/usr/bin/env python
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"""
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Module abstractions.
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Copyright (C) 2007, 2008, 2009, 2010, 2011, 2012, 2013,
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              2014, 2015, 2016 Paul Boddie <paul@boddie.org.uk>
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This program is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free Software
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Foundation; either version 3 of the License, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
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details.
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You should have received a copy of the GNU General Public License along with
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this program.  If not, see <http://www.gnu.org/licenses/>.
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"""
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from common import init_item, remove_items, CommonModule
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from encoders import decode_modifier_term, decode_usage, encode_modifiers, encode_usage
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from referencing import decode_reference, Reference
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from results import ResolvedNameRef
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import sys
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class BasicModule(CommonModule):
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    "The basic module information."
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    def __init__(self, name, importer):
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        CommonModule.__init__(self, name, importer)
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        # Import details, primarily for cache output.
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        self.imports = set()
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        self.required = set()
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        self.deferred = []
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        # Global name information.
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        self.objects = {}
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        self.special = {}
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        # Class relationships.
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        self.classes = {}
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        # Attributes.
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        self.class_attrs = {}
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        self.instance_attrs = {}
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        self.instance_attr_constants = {}
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        self.module_attrs = set()
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        # Names used in each namespace.
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        self.names_used = {}
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        # Function details.
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        self.function_parameters = {}
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        self.function_defaults = {}
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        self.function_locals = {}
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        self.scope_globals = {}
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        # Invocation details.
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        self.function_targets = {}
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        self.function_arguments = {}
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        # Attribute usage at module and function levels.
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        self.attr_usage = {}
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        self.name_initialisers = {}
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        # General attribute access expressions.
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        self.attr_accesses = {}
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        self.const_accesses = {}
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        # Attribute accessor definition details.
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        self.attr_accessors = {}
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        # Assignment details for accesses.
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        self.attr_access_modifiers = {}
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        # Name resolution details.
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        self.name_references = {} # references to globals
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        # Initialisation-related details.
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        self.initialised_names = {}
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        self.aliased_names = {}
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    def __repr__(self):
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        return "BasicModule(%r, %r)" % (self.name, self.importer)
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    # Derived information methods.
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    def propagate(self):
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        "Finalise and propagate module information."
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        self.propagate_attrs()
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        self.propagate_name_references()
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        self.propagate_attr_accesses()
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        self.propagate_constants()
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    def unpropagate(self):
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        """
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        Retract information from the importer including information about this
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        module derived by the importer.
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        """
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        del self.importer.all_module_attrs[self.name]
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        for name in self.classes.keys():
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            del self.importer.classes[name]
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            del self.importer.all_class_attrs[name]
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            del self.importer.all_instance_attrs[name]
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            del self.importer.all_instance_attr_constants[name]
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            for name, bases in self.classes.items():
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                for base in bases:
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                    # Get the identity of the class from the reference.
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                    base = base.get_origin()
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                    try:
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                        self.importer.subclasses[base].remove(name)
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                    except (KeyError, ValueError):
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                        pass
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        remove_items(self.importer.all_name_references, self.name_references)
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        remove_items(self.importer.all_initialised_names, self.initialised_names)
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        remove_items(self.importer.all_aliased_names, self.aliased_names)
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        remove_items(self.importer.all_attr_accesses, self.attr_accesses)
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        remove_items(self.importer.all_const_accesses, self.const_accesses)
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        remove_items(self.importer.all_attr_access_modifiers, self.attr_access_modifiers)
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        remove_items(self.importer.all_constants, self.constants)
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        remove_items(self.importer.all_constant_values, self.constant_values)
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        # Remove this module's objects from the importer. Objects are
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        # automatically propagated when defined.
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        ref = self.importer.objects.get(self.name)
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        if ref and ref.has_kind("<module>"):
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            del self.importer.objects[self.name]
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        for name, ref in self.objects.items():
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            if not ref.has_kind("<module>"):
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                del self.importer.objects[name]
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    def collect(self):
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        "Collect removed objects."
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        for name, ref in self.objects.items():
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            if not self.importer.objects.has_key(ref.get_origin()) and self.importer.objects.has_key(name):
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                del self.importer.objects[name]
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    def propagate_attrs(self):
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        "Derive attributes from the class and module member details."
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        # Initialise class attribute records for all classes.
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        for name in self.classes.keys():
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            self.importer.all_class_attrs[name] = self.class_attrs[name] = {}
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        # Separate the objects into module and class attributes.
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        for name in self.objects.keys():
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            if "." in name:
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                parent, attrname = name.rsplit(".", 1)
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                if self.classes.has_key(parent):
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                    self.class_attrs[parent][attrname] = name
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                elif parent == self.name:
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                    self.module_attrs.add(attrname)
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        # Propagate the module attributes.
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        self.importer.all_module_attrs[self.name] = self.module_attrs
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    def propagate_name_references(self):
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        "Propagate name references for the module."
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        self.importer.all_initialised_names.update(self.initialised_names)
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        self.importer.all_aliased_names.update(self.aliased_names)
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    def propagate_attr_accesses(self):
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        "Propagate attribute accesses for the module."
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        self.importer.all_attr_accesses.update(self.attr_accesses)
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        self.importer.all_const_accesses.update(self.const_accesses)
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        self.importer.all_attr_access_modifiers.update(self.attr_access_modifiers)
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    def propagate_constants(self):
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        "Propagate constant values and aliases for the module."
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        self.importer.all_constants.update(self.constants)
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        self.importer.all_constant_values.update(self.constant_values)
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        for name in self.classes.keys():
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            self.importer.all_instance_attrs[name] = self.instance_attrs.get(name) or {}
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            self.importer.all_instance_attr_constants[name] = self.instance_attr_constants.get(name) or {}
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    def set_object(self, name, value=None):
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        "Set an object with the given 'name' and the given 'value'."
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        # Decode any string value, with a new reference being returned even
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        # given a provided reference.
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        ref = decode_reference(value, name)
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        self.add_deferred(ref)
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        self._set_object(name, ref)
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    def _set_object(self, name, ref):
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        # Determine how the object properties will be defined.
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        multiple = self.objects.has_key(name) and self.objects[name] != ref
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        self.importer.objects[name] = self.objects[name] = multiple and ref.as_var() or ref
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    def queue_module(self, name, required=False):
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        """
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        Queue the module with the given 'name'. If 'required' is true (it is
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        false by default), indicate that the module is required in the final
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        program.
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        """
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        self.importer.queue_module(name, self, required)
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        if required:
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            self.required.add(name)
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        self.imports.add(name)
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class InspectionNaming:
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    "Name operations related to inspection."
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    # Module-relative naming.
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    def is_global(self, name):
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        """
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        Return whether 'name' is registered as a global in the current
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        namespace.
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        """
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        path = self.get_namespace_path()
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        return name in self.scope_globals.get(path, [])
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    def get_global(self, name):
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        """
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        Get the global of the given 'name' from this module, returning a
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        reference incorporating the original definition details.
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        """
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        path = self.get_global_path(name)
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        return self.objects.get(path)
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    # Name definition discovery.
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    def get_global_or_builtin(self, name):
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        """
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        Return a reference for the given 'name' found in this module or in the
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        __builtins__.
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        """
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        return self.get_global(name) or self.get_builtin(name)
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    def get_builtin(self, name):
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        "Return a reference to the built-in with the given 'name'."
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        self.queue_module("__builtins__")
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        ref = Reference("<depends>", "__builtins__.%s" % name)
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        self.deferred.append(ref)
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        return ref
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    def get_builtin_class(self, name):
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        "Return a reference to the actual object providing 'name'."
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        # NOTE: This makes assumptions about the __builtins__ structure.
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        modname = name == "string" and "str" or name
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        module_name = "__builtins__.%s" % modname
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        if self.name != module_name:
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            self.queue_module(module_name, True)
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        return Reference("<class>", "__builtins__.%s.%s" % (modname, name))
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    def get_object(self, path, defer=True):
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        """
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        Get the details of an object with the given 'path'. Where the object
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        cannot be resolved, an unresolved reference is returned if 'defer' is
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        set to a true value (the default). Otherwise, None is returned.
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        """
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        if self.objects.has_key(path):
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            return self.objects[path]
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        elif defer:
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            ref = Reference("<depends>", path)
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            self.deferred.append(ref)
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            return ref
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        else:
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            return None
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    def import_name_from_module(self, name, module_name):
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        "Import 'name' from the module having the given 'module_name'."
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        if module_name != self.name:
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            self.queue_module(module_name)
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        ref = Reference("<depends>", "%s.%s" % (module_name, name))
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        self.deferred.append(ref)
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        return ref
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    def add_deferred(self, ref):
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        "Record 'ref' as a deferred reference."
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        if ref.has_kind("<depends>"):
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            self.deferred.append(ref)
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class CachedModule(BasicModule):
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    "A cached module."
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    def __repr__(self):
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        return "CachedModule(%r, %r)" % (self.name, self.importer)
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    def set_object(self, name, value=None):
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        "Set an object with the given 'name' and the given 'value'."
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        # Decode any string value, with a new reference being returned even
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        # given a provided reference.
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        ref = decode_reference(value, name)
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        self._set_object(name, ref)
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    def to_cache(self, filename):
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        "Not actually writing the module back to 'filename'."
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        pass
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    def from_cache(self, filename):
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        """
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        Read a module's details from the file with the given 'filename' as
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        described in the to_cache method of InspectedModule.
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        """
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        f = open(filename)
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        try:
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            self.filename = f.readline().rstrip()
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            f.readline() # (empty line)
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            self._get_imports(f)
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            self._get_special(f)
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            self._get_members(f)
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            self._get_class_relationships(f)
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            self._get_instance_attrs(f)
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            self._get_instance_attr_constants(f)
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            self.from_lines(f, self.names_used)     # "names used:"
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            self._get_name_references(f)
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            self._get_initialised_names(f)
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            self._get_aliased_names(f)
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            self._get_function_parameters(f)
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            self._get_function_defaults(f)
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            self._get_function_locals(f)
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            self.from_lines(f, self.scope_globals)  # "scope globals:"
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            self._get_function_targets(f)
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            self._get_function_arguments(f)
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            self._get_attribute_usage(f)
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            self._get_attr_accesses(f)
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            self._get_const_accesses(f)
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            self._get_attr_accessors(f)
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            self._get_attr_access_modifiers(f)
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            self._get_constant_literals(f)
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            self._get_constant_values(f)
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        finally:
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            f.close()
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    def complete(self):
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        self.propagate()
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    def _get_imports(self, f):
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        f.readline() # "imports:"
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        line = f.readline().strip()
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        self.required = line != "{}" and set(line.split(", ")) or set()
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        line = f.readline().strip()
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        self.imports = line != "{}" and set(line.split(", ")) or set()
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        f.readline()
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        for name in self.required:
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            self.queue_module(name, True)
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        for name in self.imports:
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            self.queue_module(name)
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    def _get_special(self, f):
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        f.readline() # "special:"
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        line = f.readline().rstrip()
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        while line:
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            name, ref = line.split(" ", 1)
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            self.special[name] = decode_reference(ref)
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            line = f.readline().rstrip()
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    def _get_members(self, f):
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        f.readline() # "members:"
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        line = f.readline().rstrip()
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        while line:
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            name, ref = line.split(" ", 1)
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            self.set_object(name, ref)
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            line = f.readline().rstrip()
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    def _get_class_relationships(self, f):
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        f.readline() # "class relationships:"
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        line = f.readline().rstrip()
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        while line:
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            name, value = self._get_fields(line)
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            values = value and value.split(", ") or []
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            self.importer.classes[name] = self.classes[name] = map(decode_reference, values)
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            self.importer.subclasses[name] = set()
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            line = f.readline().rstrip()
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    def _get_instance_attrs(self, f):
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        f.readline() # "instance attributes:"
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        line = f.readline().rstrip()
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        while line:
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            name, value = self._get_fields(line)
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            self.importer.all_instance_attrs[name] = self.instance_attrs[name] = set(value and value.split(", ") or [])
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            line = f.readline().rstrip()
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    def _get_instance_attr_constants(self, f):
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        f.readline() # "instance attribute constants:"
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        line = f.readline().rstrip()
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        while line:
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            name, attrname, ref = self._get_fields(line, 3)
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            init_item(self.instance_attr_constants, name, dict)
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            self.instance_attr_constants[name][attrname] = decode_reference(ref)
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            line = f.readline().rstrip()
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    def _get_name_references(self, f):
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        f.readline() # "name references:"
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        line = f.readline().rstrip()
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        while line:
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            name, ref = self._get_fields(line)
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            self.importer.all_name_references[name] = self.name_references[name] = decode_reference(ref)
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            line = f.readline().rstrip()
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    def _get_initialised_names(self, f):
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        f.readline() # "initialised names:"
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        line = f.readline().rstrip()
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        while line:
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            name, version, value = self._get_fields(line, 3)
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            init_item(self.initialised_names, name, dict)
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            self.initialised_names[name][int(version)] = decode_reference(value)
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            line = f.readline().rstrip()
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    def _get_aliased_names(self, f):
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        f.readline() # "aliased names:"
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        line = f.readline().rstrip()
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        while line:
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            name, version, original_name, attrnames, number = self._get_fields(line, 5)
paul@0 487
            init_item(self.aliased_names, name, dict)
paul@0 488
            if number == "{}": number = None
paul@0 489
            else: number = int(number)
paul@0 490
            self.aliased_names[name][int(version)] = (original_name, attrnames != "{}" and attrnames or None, number)
paul@0 491
            line = f.readline().rstrip()
paul@0 492
paul@0 493
    def _get_function_parameters(self, f):
paul@0 494
        f.readline() # "function parameters:"
paul@0 495
        line = f.readline().rstrip()
paul@0 496
        while line:
paul@0 497
            function, names = self._get_fields(line)
paul@0 498
            self.importer.function_parameters[function] = \
paul@49 499
                self.function_parameters[function] = names != "{}" and names.split(", ") or []
paul@0 500
            line = f.readline().rstrip()
paul@0 501
paul@0 502
    def _get_function_defaults(self, f):
paul@0 503
        f.readline() # "function default parameters:"
paul@0 504
        line = f.readline().rstrip()
paul@0 505
        while line:
paul@0 506
            function, defaults = self._get_fields(line)
paul@0 507
            self.importer.function_defaults[function] = \
paul@0 508
                self.function_defaults[function] = l = []
paul@0 509
            if defaults != "{}":
paul@0 510
                for value in defaults.split(", "):
paul@0 511
                    name, default = value.split("=")
paul@0 512
                    default = decode_reference(default)
paul@0 513
                    l.append((name, default))
paul@0 514
            line = f.readline().rstrip()
paul@0 515
paul@0 516
    def _get_function_locals(self, f):
paul@0 517
        f.readline() # "function locals:"
paul@0 518
        line = f.readline().rstrip()
paul@0 519
        while line:
paul@0 520
            function, name, value = self._get_fields(line, 3)
paul@0 521
            init_item(self.function_locals, function, dict)
paul@115 522
            init_item(self.importer.function_locals, function, dict)
paul@0 523
            if name != "{}":
paul@115 524
                self.importer.function_locals[function][name] = \
paul@109 525
                    self.function_locals[function][name] = decode_reference(value)
paul@0 526
            line = f.readline().rstrip()
paul@0 527
paul@0 528
    def _get_function_targets(self, f):
paul@0 529
        f.readline() # "function targets:"
paul@0 530
        line = f.readline().rstrip()
paul@0 531
        while line:
paul@0 532
            function, n = self._get_fields(line)
paul@0 533
            self.importer.function_targets[function] = \
paul@0 534
                self.function_targets[function] = int(n)
paul@0 535
            line = f.readline().rstrip()
paul@0 536
paul@0 537
    def _get_function_arguments(self, f):
paul@0 538
        f.readline() # "function arguments:"
paul@0 539
        line = f.readline().rstrip()
paul@0 540
        while line:
paul@0 541
            function, n = self._get_fields(line)
paul@0 542
            self.importer.function_arguments[function] = \
paul@0 543
                self.function_arguments[function] = int(n)
paul@0 544
            line = f.readline().rstrip()
paul@0 545
paul@0 546
    def _get_attribute_usage(self, f):
paul@0 547
        f.readline() # "attribute usage:"
paul@0 548
        line = f.readline().rstrip()
paul@0 549
        while line:
paul@0 550
            unit, value = self._get_fields(line)
paul@0 551
            init_item(self.attr_usage, unit, dict)
paul@0 552
            self.usage_from_cache(value, self.attr_usage[unit])
paul@0 553
            line = f.readline().rstrip()
paul@0 554
paul@0 555
    def _get_attr_accesses(self, f):
paul@0 556
        f.readline() # "attribute accesses:"
paul@0 557
        line = f.readline().rstrip()
paul@0 558
        while line:
paul@0 559
            name, value = self._get_fields(line)
paul@0 560
            self.attr_accesses[name] = set(value.split(", "))
paul@0 561
            line = f.readline().rstrip()
paul@0 562
paul@0 563
    def _get_const_accesses(self, f):
paul@0 564
        f.readline() # "constant accesses:"
paul@0 565
        line = f.readline().rstrip()
paul@0 566
        while line:
paul@0 567
            name, original_name, attrnames, objpath, ref, remaining = self._get_fields(line, 6)
paul@0 568
            if attrnames == "{}": attrnames = None
paul@0 569
            init_item(self.const_accesses, name, dict)
paul@0 570
            self.const_accesses[name][(original_name, attrnames)] = (objpath, decode_reference(ref), remaining != "{}" and remaining or "")
paul@0 571
            line = f.readline().rstrip()
paul@0 572
paul@0 573
    def _get_attr_accessors(self, f):
paul@0 574
        f.readline() # "attribute access usage:"
paul@0 575
        line = f.readline().rstrip()
paul@0 576
        while line:
paul@0 577
            objpath, name, attrname, value = self._get_fields(line, 4)
paul@0 578
            if attrname == "{}": attrname = None
paul@0 579
            access = name, attrname
paul@0 580
            init_item(self.attr_accessors, objpath, dict)
paul@0 581
            init_item(self.attr_accessors[objpath], access, list)
paul@0 582
            positions = map(int, value.split(", "))
paul@0 583
            self.attr_accessors[objpath][access].append(positions)
paul@0 584
            line = f.readline().rstrip()
paul@0 585
paul@0 586
    def _get_attr_access_modifiers(self, f):
paul@0 587
        f.readline() # "attribute access modifiers:"
paul@0 588
        line = f.readline().rstrip()
paul@0 589
        while line:
paul@0 590
            objpath, name, attrnames, value = self._get_fields(line, 4)
paul@0 591
            if name == "{}": name = None
paul@0 592
            if attrnames == "{}": attrnames = None
paul@0 593
            access = name, attrnames
paul@0 594
            init_item(self.attr_access_modifiers, objpath, dict)
paul@0 595
            init_item(self.attr_access_modifiers[objpath], access, list)
paul@0 596
            modifiers = [decode_modifier_term(s) for s in value]
paul@0 597
            self.attr_access_modifiers[objpath][access] = modifiers
paul@0 598
            line = f.readline().rstrip()
paul@0 599
paul@0 600
    def _get_constant_literals(self, f):
paul@0 601
        f.readline() # "constant literals:"
paul@0 602
        line = f.readline().rstrip()
paul@0 603
        last_path = None
paul@0 604
        n = None
paul@0 605
        while line:
paul@0 606
            path, constant = self._get_fields(line)
paul@0 607
            if path != last_path:
paul@0 608
                n = 0
paul@0 609
                last_path = path
paul@0 610
            else:
paul@0 611
                n += 1
paul@0 612
            init_item(self.constants, path, dict)
paul@0 613
            self.constants[path][eval(constant)] = n
paul@0 614
            line = f.readline().rstrip()
paul@0 615
paul@0 616
    def _get_constant_values(self, f):
paul@0 617
        f.readline() # "constant values:"
paul@0 618
        line = f.readline().rstrip()
paul@0 619
        while line:
paul@0 620
            name, value_type, value = self._get_fields(line, 3)
paul@0 621
            self.constant_values[name] = eval(value), value_type
paul@0 622
            line = f.readline().rstrip()
paul@0 623
paul@0 624
    # Generic parsing methods.
paul@0 625
paul@0 626
    def from_lines(self, f, d):
paul@0 627
paul@0 628
        "Read lines from 'f', populating 'd'."
paul@0 629
paul@0 630
        f.readline() # section heading
paul@0 631
        line = f.readline().rstrip()
paul@0 632
        while line:
paul@0 633
            name, value = self._get_fields(line)
paul@0 634
            d[name] = set(value and value.split(", ") or [])
paul@0 635
            line = f.readline().rstrip()
paul@0 636
paul@0 637
    def usage_from_cache(self, value, mapping):
paul@0 638
paul@0 639
        """
paul@0 640
        Interpret the given 'value' containing name and usage information,
paul@0 641
        storing the information in the given 'mapping'.
paul@0 642
        """
paul@0 643
paul@0 644
        local, usage = self._get_fields(value)
paul@0 645
        init_item(mapping, local, list)
paul@0 646
        self._usage_from_cache(mapping[local], usage)
paul@0 647
paul@0 648
    def _usage_from_cache(self, d, usage):
paul@0 649
paul@0 650
        # Interpret descriptions of each version of the name.
paul@0 651
paul@0 652
        all_usages = set()
paul@0 653
        for attrnames in usage.split("; "):
paul@0 654
            if attrnames == "{}":
paul@0 655
                all_attrnames = ()
paul@0 656
            else:
paul@88 657
                all_attrnames = decode_usage(attrnames)
paul@88 658
            all_usages.add(all_attrnames)
paul@0 659
paul@0 660
        d.append(all_usages)
paul@0 661
paul@0 662
    def _get_fields(self, s, n=2):
paul@0 663
        result = s.split(" ", n-1)
paul@0 664
        if len(result) == n:
paul@0 665
            return result
paul@0 666
        else:
paul@0 667
            return tuple(result) + tuple([""] * (n - len(result)))
paul@0 668
paul@0 669
class CacheWritingModule:
paul@0 670
paul@0 671
    """
paul@0 672
    A mix-in providing cache-writing support, to be combined with BasicModule.
paul@0 673
    """
paul@0 674
paul@0 675
    def to_cache(self, filename):
paul@0 676
paul@0 677
        """
paul@0 678
        Write a cached representation of the inspected module with the following
paul@0 679
        format to the file having the given 'filename':
paul@0 680
paul@0 681
        filename
paul@0 682
        (empty line)
paul@18 683
        "imports:"
paul@18 684
        required module names
paul@18 685
        possibly required module names
paul@134 686
        "special:"
paul@134 687
        zero or more: special name " " reference
paul@134 688
        (empty line)
paul@0 689
        "members:"
paul@0 690
        zero or more: qualified name " " reference
paul@0 691
        (empty line)
paul@0 692
        "class relationships:"
paul@0 693
        zero or more: qualified class name " " base class references
paul@0 694
        (empty line)
paul@0 695
        "instance attributes:"
paul@0 696
        zero or more: qualified class name " " instance attribute names
paul@0 697
        (empty line)
paul@0 698
        "instance attribute constants:"
paul@0 699
        zero or more: qualified class name " " attribute name " " reference
paul@0 700
        (empty line)
paul@0 701
        "names used:"
paul@0 702
        zero or more: qualified class/function/module name " " names
paul@0 703
        (empty line)
paul@0 704
        "names missing:"
paul@0 705
        zero or more: qualified class/function/module name " " names
paul@0 706
        (empty line)
paul@0 707
        "name references:"
paul@0 708
        zero or more: qualified name " " reference
paul@0 709
        (empty line)
paul@0 710
        "initialised names:"
paul@0 711
        zero or more: qualified name " " definition version " " reference
paul@0 712
        (empty line)
paul@0 713
        "aliased names:"
paul@0 714
        zero or more: qualified name " " definition version " " original name " " attribute names " " access number
paul@0 715
        (empty line)
paul@0 716
        "function parameters:"
paul@0 717
        zero or more: qualified function name " " parameter names
paul@0 718
        (empty line)
paul@0 719
        "function default parameters:"
paul@0 720
        zero or more: qualified function name " " parameter names with defaults
paul@0 721
        (empty line)
paul@0 722
        "function locals:"
paul@0 723
        zero or more: qualified function name " " local variable name " " reference
paul@0 724
        (empty line)
paul@0 725
        "scope globals:"
paul@0 726
        zero or more: qualified function name " " global variable names
paul@0 727
        (empty line)
paul@0 728
        "function targets:"
paul@0 729
        zero or more: qualified function name " " maximum number of targets allocated
paul@0 730
        (empty line)
paul@0 731
        "function arguments:"
paul@0 732
        zero or more: qualified function name " " maximum number of arguments allocated
paul@0 733
        (empty line)
paul@0 734
        "attribute usage:"
paul@0 735
        zero or more: qualified scope name " " local/global/qualified variable name " " usages
paul@0 736
        (empty line)
paul@0 737
        "attribute accesses:"
paul@0 738
        zero or more: qualified scope name " " attribute-chains
paul@0 739
        (empty line)
paul@0 740
        "constant accesses:"
paul@0 741
        zero or more: qualified function name " " attribute-chain " " reference " " remaining attribute-chain
paul@0 742
        (empty line)
paul@0 743
        "attribute access usage:"
paul@0 744
        zero or more: qualified function name " " local/global variable name " " attribute name " " definition versions
paul@0 745
        (empty line)
paul@0 746
        "attribute access modifiers:"
paul@0 747
        zero or more: qualified function name " " local/global variable name " " attribute name " " access modifiers
paul@0 748
        "constant literals:"
paul@0 749
        zero or more: qualified scope name " " constant literal
paul@0 750
        "constant values:"
paul@0 751
        zero or more: qualified name " " value type " " constant literal
paul@0 752
paul@0 753
        All collections of names are separated by ", " characters.
paul@0 754
paul@0 755
        References can be "<var>", a module name, or one of "<class>" or
paul@0 756
        "<function>" followed optionally by a ":" character and a qualified
paul@0 757
        name.
paul@0 758
paul@0 759
        Parameter names with defaults are separated by ", " characters, with
paul@0 760
        each name followed by "=" and then followed by a reference. If "{}" is
paul@0 761
        indicated, no defaults are defined for the function. Similarly, function
paul@0 762
        locals may be indicated as "{}" meaning that there are no locals.
paul@0 763
paul@0 764
        All usages (attribute usage sets) are separated by "; " characters, with
paul@0 765
        the special string "{}" representing an empty set.
paul@0 766
paul@0 767
        Each usage is a collection of names separated by ", " characters, with
paul@106 768
        invoked attribute names suffixed with a "!" character.
paul@0 769
paul@0 770
        Definition versions are separated by ", " characters and indicate the
paul@0 771
        name definition version associated with the access.
paul@0 772
paul@0 773
        Access modifiers are separated by ", " characters and indicate features
paul@0 774
        of each access, with multiple accesses described on a single line.
paul@0 775
        """
paul@0 776
paul@0 777
        f = open(filename, "w")
paul@0 778
        try:
paul@0 779
            print >>f, self.filename
paul@0 780
paul@0 781
            print >>f
paul@18 782
            print >>f, "imports:"
paul@18 783
            required = list(self.required)
paul@18 784
            required.sort()
paul@18 785
            print >>f, required and ", ".join(required) or "{}"
paul@18 786
            imports = list(self.imports)
paul@18 787
            imports.sort()
paul@18 788
            print >>f, imports and ", ".join(imports) or "{}"
paul@18 789
paul@18 790
            print >>f
paul@134 791
            print >>f, "special:"
paul@134 792
            names = self.special.keys()
paul@134 793
            names.sort()
paul@134 794
            for name in names:
paul@134 795
                print >>f, name, self.special[name]
paul@134 796
paul@134 797
            print >>f
paul@0 798
            print >>f, "members:"
paul@0 799
            objects = self.objects.keys()
paul@0 800
            objects.sort()
paul@0 801
            for name in objects:
paul@0 802
                print >>f, name, self.objects[name]
paul@0 803
paul@0 804
            print >>f
paul@0 805
            print >>f, "class relationships:"
paul@0 806
            classes = self.classes.keys()
paul@0 807
            classes.sort()
paul@0 808
            for class_ in classes:
paul@0 809
                bases = self.classes[class_]
paul@0 810
                if bases:
paul@0 811
                    print >>f, class_, ", ".join(map(str, bases))
paul@0 812
                else:
paul@0 813
                    print >>f, class_
paul@0 814
paul@0 815
            self.to_lines(f, "instance attributes:", self.instance_attrs)
paul@0 816
paul@0 817
            print >>f
paul@0 818
            print >>f, "instance attribute constants:"
paul@0 819
            classes = self.instance_attr_constants.items()
paul@0 820
            classes.sort()
paul@0 821
            for name, attrs in classes:
paul@0 822
                attrs = attrs.items()
paul@0 823
                attrs.sort()
paul@0 824
                for attrname, ref in attrs:
paul@0 825
                    print >>f, name, attrname, ref
paul@0 826
paul@0 827
            self.to_lines(f, "names used:", self.names_used)
paul@0 828
paul@0 829
            print >>f
paul@0 830
            print >>f, "name references:"
paul@0 831
            refs = self.name_references.items()
paul@0 832
            refs.sort()
paul@0 833
            for name, ref in refs:
paul@0 834
                print >>f, name, ref
paul@0 835
paul@0 836
            print >>f
paul@0 837
            print >>f, "initialised names:"
paul@0 838
            assignments = self.initialised_names.items()
paul@0 839
            assignments.sort()
paul@0 840
            for name, refs in assignments:
paul@0 841
                versions = refs.items()
paul@0 842
                versions.sort()
paul@0 843
                for version, ref in versions:
paul@0 844
                    print >>f, name, version, ref
paul@0 845
paul@0 846
            print >>f
paul@0 847
            print >>f, "aliased names:"
paul@0 848
            assignments = self.aliased_names.items()
paul@0 849
            assignments.sort()
paul@0 850
            for name, aliases in assignments:
paul@0 851
                versions = aliases.items()
paul@0 852
                versions.sort()
paul@0 853
                for version, alias in versions:
paul@0 854
                    original_name, attrnames, number = alias
paul@0 855
                    print >>f, name, version, original_name, attrnames or "{}", number is None and "{}" or number
paul@0 856
paul@0 857
            print >>f
paul@0 858
            print >>f, "function parameters:"
paul@0 859
            functions = self.function_parameters.keys()
paul@0 860
            functions.sort()
paul@0 861
            for function in functions:
paul@49 862
                parameters = self.function_parameters[function]
paul@49 863
                if parameters:
paul@49 864
                    print >>f, function, ", ".join(parameters)
paul@49 865
                else:
paul@49 866
                    print >>f, function, "{}"
paul@0 867
paul@0 868
            print >>f
paul@0 869
            print >>f, "function default parameters:"
paul@0 870
            functions = self.function_defaults.keys()
paul@0 871
            functions.sort()
paul@0 872
            for function in functions:
paul@0 873
                parameters = self.function_defaults[function]
paul@0 874
                if parameters:
paul@0 875
                    print >>f, function, ", ".join([("%s=%s" % (name, default)) for (name, default) in parameters])
paul@0 876
                else:
paul@0 877
                    print >>f, function, "{}"
paul@0 878
paul@0 879
            print >>f
paul@0 880
            print >>f, "function locals:"
paul@0 881
            functions = self.function_locals.keys()
paul@0 882
            functions.sort()
paul@0 883
            for function in functions:
paul@0 884
                names = self.function_locals[function].items()
paul@0 885
                if names:
paul@0 886
                    names.sort()
paul@0 887
                    for name, value in names:
paul@0 888
                        print >>f, function, name, value
paul@0 889
                else:
paul@0 890
                    print >>f, function, "{}"
paul@0 891
paul@0 892
            self.to_lines(f, "scope globals:", self.scope_globals)
paul@0 893
paul@0 894
            print >>f
paul@0 895
            print >>f, "function targets:"
paul@0 896
            functions = self.function_targets.keys()
paul@0 897
            functions.sort()
paul@0 898
            for function in functions:
paul@0 899
                print >>f, function, self.function_targets[function]
paul@0 900
paul@0 901
            print >>f
paul@0 902
            print >>f, "function arguments:"
paul@0 903
            functions = self.function_arguments.keys()
paul@0 904
            functions.sort()
paul@0 905
            for function in functions:
paul@0 906
                print >>f, function, self.function_arguments[function]
paul@0 907
paul@0 908
            print >>f
paul@0 909
            print >>f, "attribute usage:"
paul@0 910
            units = self.attr_usage.keys()
paul@0 911
            units.sort()
paul@0 912
            for unit in units:
paul@0 913
                d = self.attr_usage[unit]
paul@0 914
                self.usage_to_cache(d, f, unit)
paul@0 915
paul@0 916
            print >>f
paul@0 917
            print >>f, "attribute accesses:"
paul@0 918
            paths = self.attr_accesses.keys()
paul@0 919
            paths.sort()
paul@0 920
            for path in paths:
paul@0 921
                accesses = list(self.attr_accesses[path])
paul@0 922
                accesses.sort()
paul@0 923
                print >>f, path, ", ".join(accesses)
paul@0 924
paul@0 925
            print >>f
paul@0 926
            print >>f, "constant accesses:"
paul@0 927
            paths = self.const_accesses.keys()
paul@0 928
            paths.sort()
paul@0 929
            for path in paths:
paul@0 930
                accesses = self.const_accesses[path].items()
paul@0 931
                accesses.sort()
paul@0 932
                for (original_name, attrnames), (objpath, ref, remaining_attrnames) in accesses:
paul@0 933
                    print >>f, path, original_name, attrnames, objpath, ref, remaining_attrnames or "{}"
paul@0 934
paul@0 935
            print >>f
paul@0 936
            print >>f, "attribute access usage:"
paul@0 937
            paths = self.attr_accessors.keys()
paul@0 938
            paths.sort()
paul@0 939
            for path in paths:
paul@0 940
                all_accesses = self.attr_accessors[path].items()
paul@0 941
                all_accesses.sort()
paul@0 942
                for (name, attrname), accesses in all_accesses:
paul@0 943
                    for positions in accesses:
paul@0 944
                        positions = map(str, positions)
paul@0 945
                        print >>f, path, name, attrname or "{}", ", ".join(positions)
paul@0 946
paul@0 947
            print >>f
paul@0 948
            print >>f, "attribute access modifiers:"
paul@0 949
            paths = self.attr_access_modifiers.keys()
paul@0 950
            paths.sort()
paul@0 951
            for path in paths:
paul@0 952
                all_accesses = self.attr_access_modifiers[path].items()
paul@0 953
                all_accesses.sort()
paul@0 954
                for (name, attrnames), modifiers in all_accesses:
paul@0 955
                    print >>f, path, name or "{}", attrnames or "{}", encode_modifiers(modifiers)
paul@0 956
paul@0 957
            print >>f
paul@0 958
            print >>f, "constant literals:"
paul@0 959
            paths = self.constants.keys()
paul@0 960
            paths.sort()
paul@0 961
            for path in paths:
paul@0 962
                constants = [(v, k) for (k, v) in self.constants[path].items()]
paul@0 963
                constants.sort()
paul@0 964
                for n, constant in constants:
paul@0 965
                    print >>f, path, repr(constant)
paul@0 966
paul@0 967
            print >>f
paul@0 968
            print >>f, "constant values:"
paul@0 969
            names = self.constant_values.keys()
paul@0 970
            names.sort()
paul@0 971
            for name in names:
paul@0 972
                value, value_type = self.constant_values[name]
paul@0 973
                print >>f, name, value_type, repr(value)
paul@0 974
paul@0 975
        finally:
paul@0 976
            f.close()
paul@0 977
paul@0 978
    def to_lines(self, f, heading, d):
paul@0 979
paul@0 980
        "Write lines to 'f' with the given 'heading', using 'd'."
paul@0 981
paul@0 982
        print >>f
paul@0 983
        print >>f, heading
paul@0 984
        keys = d.keys()
paul@0 985
        keys.sort()
paul@0 986
        for key in keys:
paul@0 987
            attrs = list(d[key])
paul@0 988
            if attrs:
paul@0 989
                attrs.sort()
paul@0 990
                print >>f, key, ", ".join(attrs)
paul@0 991
paul@0 992
    def usage_to_cache(self, details, f, prefix):
paul@0 993
paul@0 994
        "Write the given namespace usage details to the cache."
paul@0 995
paul@0 996
        names = list(details.keys())
paul@0 997
        if names:
paul@0 998
            names.sort()
paul@0 999
            for name in names:
paul@0 1000
                if details[name]:
paul@0 1001
paul@0 1002
                    # Produce descriptions for each version of the name.
paul@0 1003
paul@0 1004
                    for version in details[name]:
paul@0 1005
                        all_usages = []
paul@0 1006
                        for usage in version:
paul@0 1007
                            all_usages.append(encode_usage(usage))
paul@0 1008
paul@0 1009
                        print >>f, "%s %s %s" % (prefix, name, "; ".join(all_usages))
paul@0 1010
paul@0 1011
# vim: tabstop=4 expandtab shiftwidth=4