Lichen

Annotated translator.py

1029:b4d8e43dad4a
5 months ago Paul Boddie Merged changes from the trailing-data branch. value-replacement
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#!/usr/bin/env python
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"""
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Translate programs.
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Copyright (C) 2015, 2016, 2017, 2018, 2023 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 AccessLocation, CommonModule, CommonOutput, Location, \
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                   first, get_builtin_class, init_item, is_newer, \
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                   predefined_constants
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from encoders import encode_access_instruction, encode_access_instruction_arg, \
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                     encode_function_pointer, encode_literal_instantiator, \
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                     encode_instantiator_pointer, encode_path, encode_symbol, \
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                     encode_type_attribute, is_type_attribute, \
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                     type_ops, typename_ops
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from errors import InspectError, TranslateError
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from os.path import exists, join
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from os import makedirs
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from referencing import Reference, combine_types
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from results import Result
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from transresults import TrConstantValueRef, TrInstanceRef, \
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                         TrLiteralSequenceRef, TrResolvedNameRef, \
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                         AliasResult, AttrResult, Expression, InstantiationResult, \
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                         InvocationResult, LogicalOperationResult, \
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                         LogicalResult, NegationResult, PredefinedConstantRef, \
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                         ReturnRef
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from StringIO import StringIO
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import compiler
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import sys
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class Translator(CommonOutput):
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    "A program translator."
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    def __init__(self, importer, deducer, optimiser, output):
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        self.importer = importer
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        self.deducer = deducer
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        self.optimiser = optimiser
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        self.output = output
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    def to_output(self, reset=False, debug=False, gc_sections=False):
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        "Write a program to the configured output directory."
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        # Make a directory for the final sources.
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        output = join(self.output, "src")
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        if not exists(output):
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            makedirs(output)
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        # Clean the output directory of irrelevant data.
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        self.check_output("debug=%r gc_sections=%r" % (debug, gc_sections))
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        for module in self.importer.modules.values():
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            output_filename = join(output, "%s.c" % module.name)
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            # Do not generate modules in the native package. They are provided
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            # by native functionality source files.
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            parts = module.name.split(".")
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            if parts[0] != "native" and \
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               (reset or is_newer(module.filename, output_filename)):
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                tm = TranslatedModule(module.name, self.importer, self.deducer, self.optimiser)
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                tm.translate(module.filename, output_filename)
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def make_expression(expr):
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    "Make a new expression from the existing 'expr'."
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    if isinstance(expr, Result):
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        return expr
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    else:
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        return Expression(str(expr))
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# The actual translation process itself.
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class TranslatedModule(CommonModule):
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    "A module translator."
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    def __init__(self, name, importer, deducer, optimiser):
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        CommonModule.__init__(self, name, importer)
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        self.deducer = deducer
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        self.optimiser = optimiser
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        # Output stream.
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        self.out_toplevel = self.out = None
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        self.indent = 0
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        self.tabstop = "    "
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        # Recorded namespaces.
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        self.namespaces = []
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        self.in_conditional = False
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        self.in_parameter_list = False
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        # Exception raising adjustments.
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        self.in_try_finally = False
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        self.in_try_except = False
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        # Attribute access and accessor counting.
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        self.attr_accesses = {}
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        self.attr_accessors = {}
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        # Special variable usage.
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        self.temp_usage = {}
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        # Initialise some data used for attribute access generation.
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        self.init_substitutions()
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    def __repr__(self):
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        return "TranslatedModule(%r, %r)" % (self.name, self.importer)
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    def translate(self, filename, output_filename):
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        """
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        Parse the file having the given 'filename', writing the translation to
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        the given 'output_filename'.
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        """
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        self.parse_file(filename)
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        # Collect function namespaces for separate processing.
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        self.record_namespaces(self.astnode)
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        # Reset the lambda naming (in order to obtain the same names again) and
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        # translate the program.
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        self.reset_lambdas()
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        self.out_toplevel = self.out = open(output_filename, "w")
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        try:
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            self.start_output()
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            # Process namespaces, writing the translation.
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            for path, node in self.namespaces:
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                self.process_namespace(path, node)
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            # Process the module namespace including class namespaces.
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            self.process_namespace([], self.astnode)
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        finally:
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            self.out.close()
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    def have_object(self):
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        "Return whether a namespace is a recorded object."
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        return self.importer.objects.get(self.get_namespace_path())
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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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        return self.importer.get_object(get_builtin_class(name))
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    def is_method(self, path):
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        "Return whether 'path' is a method."
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        class_name, method_name = path.rsplit(".", 1)
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        return self.importer.classes.has_key(class_name) and class_name or None
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    def in_method(self):
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        "Return whether the current namespace provides a method."
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        return self.in_function and self.is_method(self.get_namespace_path())
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    # Namespace recording.
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    def record_namespaces(self, node):
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        "Process the program structure 'node', recording namespaces."
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        for n in node.getChildNodes():
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            self.record_namespaces_in_node(n)
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    def record_namespaces_in_node(self, node):
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        "Process the program structure 'node', recording namespaces."
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        # Function namespaces within modules, classes and other functions.
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        # Functions appearing within conditional statements are given arbitrary
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        # names.
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        if isinstance(node, compiler.ast.Function):
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            self.record_function_node(node, (self.in_conditional or self.in_function) and self.get_lambda_name() or node.name)
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        elif isinstance(node, compiler.ast.Lambda):
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            self.record_function_node(node, self.get_lambda_name())
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        # Classes are visited, but may be ignored if inside functions.
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        elif isinstance(node, compiler.ast.Class):
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            self.enter_namespace(node.name)
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            if self.have_object():
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                self.record_namespaces(node)
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            self.exit_namespace()
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        # Conditional nodes are tracked so that function definitions may be
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        # handled. Since "for" loops are converted to "while" loops, they are
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        # included here.
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        elif isinstance(node, (compiler.ast.For, compiler.ast.If, compiler.ast.While)):
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            in_conditional = self.in_conditional
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            self.in_conditional = True
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            self.record_namespaces(node)
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            self.in_conditional = in_conditional
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        # All other nodes are processed depth-first.
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        else:
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            self.record_namespaces(node)
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    def record_function_node(self, n, name):
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        """
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        Record the given function, lambda, if expression or list comprehension
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        node 'n' with the given 'name'.
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        """
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        self.in_function = True
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        self.enter_namespace(name)
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        if self.have_object():
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            # Record the namespace path and the node itself.
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            self.namespaces.append((self.namespace_path[:], n))
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            self.record_namespaces_in_node(n.code)
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        self.exit_namespace()
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        self.in_function = False
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    # Constant referencing.
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    def get_literal_instance(self, n, name=None):
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        """
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        For node 'n', return a reference for the type of the given 'name', or if
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        'name' is not specified, deduce the type from the value.
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        """
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        # Handle stray None constants (Sliceobj seems to produce them).
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        if name is None and n.value is None:
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            return self.process_name_node(compiler.ast.Name("None"))
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        if name in ("dict", "list", "tuple"):
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            ref = self.get_builtin_class(name)
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            return self.process_literal_sequence_node(n, name, ref, TrLiteralSequenceRef)
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        else:
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            value, typename, encoding = self.get_constant_value(n.value, n.literals)
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            ref = self.get_builtin_class(typename)
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            value_type = ref.get_origin()
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            path = self.get_namespace_path()
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            # Obtain the local numbering of the constant and thus the
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            # locally-qualified name.
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            local_number = self.importer.all_constants[path][(value, value_type, encoding)]
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            constant_name = "$c%d" % local_number
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            objpath = self.get_object_path(constant_name)
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            # Obtain the unique identifier for the constant.
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            number = self.optimiser.constant_numbers[objpath]
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            return TrConstantValueRef(constant_name, ref.instance_of(), value, number)
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    # Namespace translation.
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    def process_namespace(self, path, node):
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        """
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        Process the namespace for the given 'path' defined by the given 'node'.
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        """
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        self.namespace_path = path
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        if isinstance(node, (compiler.ast.Function, compiler.ast.Lambda)):
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            self.in_function = True
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            self.process_function_body_node(node)
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        else:
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            self.in_function = False
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            self.reset_temp_limits()
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            self.start_module()
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            self.process_structure(node)
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            self.end_module()
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    def process_structure(self, node):
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        "Process the given 'node' or result."
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        # Handle processing requests on results.
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        if isinstance(node, Result):
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            return node
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        # Handle processing requests on nodes.
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        else:
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            l = CommonModule.process_structure(self, node)
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            # Return indications of return statement usage.
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            if l and isinstance(l[-1], ReturnRef):
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                return l[-1]
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            else:
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                return None
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    def process_statement_node(self, node, is_lambda=False):
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        "Process the given statement 'node'."
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        self.reset_temp_counters()
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        if is_lambda:
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            self.result_target_name = "__result"
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        return CommonModule.process_statement_node(self, node)
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    def process_structure_node(self, n):
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        "Process the individual node 'n'."
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        # Plain statements emit their expressions.
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        if isinstance(n, compiler.ast.Discard):
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            expr = self.process_structure_node(n.expr)
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            self.statement(expr)
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        # Module import declarations.
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        elif isinstance(n, compiler.ast.From):
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            self.process_from_node(n)
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        # Nodes using operator module functions.
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        elif isinstance(n, compiler.ast.Operator):
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            return self.process_operator_node(n)
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        elif isinstance(n, compiler.ast.AugAssign):
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            self.process_augassign_node(n)
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        elif isinstance(n, compiler.ast.Compare):
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            return self.process_compare_node(n)
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        elif isinstance(n, compiler.ast.Slice):
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            return self.process_slice_node(n)
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        elif isinstance(n, compiler.ast.Sliceobj):
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            return self.process_sliceobj_node(n)
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        elif isinstance(n, compiler.ast.Subscript):
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            return self.process_subscript_node(n)
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        # Classes are visited, but may be ignored if inside functions.
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        elif isinstance(n, compiler.ast.Class):
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            self.process_class_node(n)
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        # Functions within namespaces have any dynamic defaults initialised.
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        elif isinstance(n, compiler.ast.Function):
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            self.process_function_node(n)
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        # Lambdas are replaced with references to separately-generated
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        # functions.
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        elif isinstance(n, compiler.ast.Lambda):
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            return self.process_lambda_node(n)
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        # Assignments.
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        elif isinstance(n, compiler.ast.Assign):
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            # Handle each assignment node.
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            for node in n.nodes:
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                self.process_assignment_node(node, n.expr)
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        # Accesses.
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        elif isinstance(n, compiler.ast.Getattr):
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            return self.process_attribute_access(n)
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        # Names.
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        elif isinstance(n, compiler.ast.Name):
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            return self.process_name_node(n)
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        # Loops and conditionals.
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        elif isinstance(n, compiler.ast.For):
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            self.process_for_node(n)
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        elif isinstance(n, compiler.ast.While):
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            self.process_while_node(n)
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        elif isinstance(n, compiler.ast.If):
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            self.process_if_node(n)
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        elif isinstance(n, (compiler.ast.And, compiler.ast.Or)):
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            return self.process_logical_node(n)
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        elif isinstance(n, compiler.ast.Not):
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            return self.process_not_node(n)
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        # Exception control-flow tracking.
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        elif isinstance(n, compiler.ast.TryExcept):
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            self.process_try_node(n)
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        elif isinstance(n, compiler.ast.TryFinally):
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            self.process_try_finally_node(n)
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        # Control-flow modification statements.
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        elif isinstance(n, compiler.ast.Break):
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            self.writestmt("break;")
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        elif isinstance(n, compiler.ast.Continue):
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            self.writestmt("continue;")
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        elif isinstance(n, compiler.ast.Raise):
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            self.process_raise_node(n)
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        elif isinstance(n, compiler.ast.Return):
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            return self.process_return_node(n)
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        # Print statements.
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        elif isinstance(n, (compiler.ast.Print, compiler.ast.Printnl)):
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            self.statement(self.process_print_node(n))
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        # Invocations.
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        elif isinstance(n, compiler.ast.CallFunc):
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            return self.process_invocation_node(n)
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        elif isinstance(n, compiler.ast.Keyword):
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            return self.process_structure_node(n.expr)
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        # Constant usage.
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        elif isinstance(n, compiler.ast.Const):
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            return self.get_literal_instance(n)
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        elif isinstance(n, compiler.ast.Dict):
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            return self.get_literal_instance(n, "dict")
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        elif isinstance(n, compiler.ast.List):
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            return self.get_literal_instance(n, "list")
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        elif isinstance(n, compiler.ast.Tuple):
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            return self.get_literal_instance(n, "tuple")
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        # All other nodes are processed depth-first.
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        else:
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            return self.process_structure(n)
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    def process_assignment_node(self, n, expr):
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        "Process the individual node 'n' to be assigned the contents of 'expr'."
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        # Names and attributes are assigned the entire expression.
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        if isinstance(n, compiler.ast.AssName):
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            name_ref = self.process_name_node(n, expr, True)
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            self.statement(name_ref)
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            # Employ guards after assignments if required.
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            if expr and name_ref.is_name():
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                self.generate_guard(name_ref.name)
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        elif isinstance(n, compiler.ast.AssAttr):
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            in_assignment = self.in_assignment
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            self.result_target_name = "*__get_attr_ref(%d)" % self.attribute_ref_index
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            self.in_assignment = self.process_structure_node(expr)
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            self.statement(self.process_attribute_access(n))
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            self.in_assignment = in_assignment
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        # Lists and tuples are matched against the expression and their
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        # items assigned to expression items.
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        elif isinstance(n, (compiler.ast.AssList, compiler.ast.AssTuple)):
paul@113 522
            self.process_assignment_node_items(n, expr)
paul@113 523
paul@113 524
        # Slices and subscripts are permitted within assignment nodes.
paul@113 525
paul@113 526
        elif isinstance(n, compiler.ast.Slice):
paul@113 527
            self.statement(self.process_slice_node(n, expr))
paul@113 528
paul@113 529
        elif isinstance(n, compiler.ast.Subscript):
paul@113 530
            self.statement(self.process_subscript_node(n, expr))
paul@113 531
paul@124 532
    def process_attribute_access(self, n):
paul@113 533
paul@368 534
        "Process the given attribute access node 'n'."
paul@113 535
paul@113 536
        # Obtain any completed chain and return the reference to it.
paul@113 537
paul@113 538
        attr_expr = self.process_attribute_chain(n)
paul@113 539
        if self.have_access_expression(n):
paul@113 540
            return attr_expr
paul@113 541
paul@113 542
        # Where the start of the chain of attributes has been reached, process
paul@113 543
        # the complete access.
paul@113 544
paul@113 545
        name_ref = attr_expr and attr_expr.is_name() and attr_expr
paul@603 546
        name = name_ref and self.get_name_for_tracking(name_ref.name, name_ref) or None
paul@113 547
paul@553 548
        location = self.get_access_location(name, self.attrs)
paul@113 549
        refs = self.get_referenced_attributes(location)
paul@113 550
paul@113 551
        # Generate access instructions.
paul@113 552
paul@113 553
        subs = {
paul@491 554
            "<expr>" : attr_expr,
paul@757 555
            "<name>" : attr_expr,
paul@491 556
            "<assexpr>" : self.in_assignment,
paul@482 557
            }
paul@482 558
paul@593 559
        subs.update(self.temp_subs)
paul@593 560
        subs.update(self.op_subs)
paul@482 561
paul@113 562
        output = []
paul@482 563
        substituted = set()
paul@482 564
paul@591 565
        # The context set or retrieved will be that used by any enclosing
paul@591 566
        # invocation.
paul@591 567
paul@858 568
        accessor_index = self.accessor_index
paul@989 569
        attribute_ref_index = self.attribute_ref_index
paul@828 570
        context_index = self.context_index
paul@618 571
        context_identity = None
paul@776 572
        context_identity_verified = False
paul@752 573
        final_identity = None
paul@828 574
        accessor_test = False
paul@858 575
        accessor_stored = False
paul@989 576
        attribute_ref_stored = False
paul@591 577
paul@482 578
        # Obtain encoded versions of each instruction, accumulating temporary
paul@482 579
        # variables.
paul@113 580
paul@653 581
        for instruction in self.deducer.access_instructions[location]:
paul@618 582
paul@618 583
            # Intercept a special instruction identifying the context.
paul@618 584
paul@776 585
            if instruction[0] in ("<context_identity>", "<context_identity_verified>"):
paul@858 586
                context_identity, _substituted = \
paul@858 587
                    encode_access_instruction_arg(instruction[1], subs, instruction[0],
paul@989 588
                                                  accessor_index, context_index,
paul@989 589
                                                  attribute_ref_index)
paul@776 590
                context_identity_verified = instruction[0] == "<context_identity_verified>"
paul@618 591
                continue
paul@618 592
paul@752 593
            # Intercept a special instruction identifying the target. The value
paul@752 594
            # is not encoded since it is used internally.
paul@752 595
paul@776 596
            elif instruction[0] == "<final_identity>":
paul@752 597
                final_identity = instruction[1]
paul@752 598
                continue
paul@752 599
paul@828 600
            # Modify test instructions.
paul@828 601
paul@828 602
            elif instruction[0] in typename_ops or instruction[0] in type_ops:
paul@828 603
                instruction = ("__to_error", instruction)
paul@828 604
                accessor_test = True
paul@828 605
paul@858 606
            # Intercept accessor storage.
paul@858 607
paul@858 608
            elif instruction[0] == "<set_accessor>":
paul@858 609
                accessor_stored = True
paul@858 610
paul@989 611
            # Intercept attribute reference storage.
paul@989 612
paul@989 613
            elif instruction[0] == "<set_attr_ref>":
paul@989 614
                attribute_ref_stored = True
paul@989 615
                self.next_attribute_ref()
paul@989 616
paul@618 617
            # Collect the encoded instruction, noting any temporary variables
paul@618 618
            # required by it.
paul@618 619
paul@858 620
            encoded, _substituted = encode_access_instruction(instruction, subs,
paul@989 621
                                        accessor_index, context_index,
paul@989 622
                                        attribute_ref_index)
paul@482 623
            output.append(encoded)
paul@482 624
            substituted.update(_substituted)
paul@482 625
paul@482 626
        # Record temporary name usage.
paul@482 627
paul@482 628
        for sub in substituted:
paul@593 629
            if self.temp_subs.has_key(sub):
paul@593 630
                self.record_temp(self.temp_subs[sub])
paul@482 631
paul@752 632
        # Get full final identity details.
paul@752 633
paul@752 634
        if final_identity and not refs:
paul@843 635
            refs = set([self.importer.identify(final_identity)])
paul@752 636
paul@113 637
        del self.attrs[0]
paul@858 638
        return AttrResult(output, refs, location,
paul@858 639
                          context_identity, context_identity_verified,
paul@989 640
                          accessor_test, accessor_stored, attribute_ref_stored)
paul@113 641
paul@593 642
    def init_substitutions(self):
paul@593 643
paul@593 644
        """
paul@593 645
        Initialise substitutions, defining temporary variable mappings, some of
paul@593 646
        which are also used as substitutions, together with operation mappings
paul@593 647
        used as substitutions in instructions defined by the optimiser.
paul@593 648
        """
paul@593 649
paul@593 650
        self.temp_subs = {
paul@593 651
paul@593 652
            # Substitutions used by instructions.
paul@593 653
paul@593 654
            "<private_context>" : "__tmp_private_context",
paul@593 655
            "<target_accessor>" : "__tmp_target_value",
paul@593 656
paul@593 657
            # Mappings to be replaced by those given below.
paul@593 658
paul@858 659
            "<accessor>" : "__tmp_values",
paul@989 660
            "<attr_ref>" : "__tmp_attr_refs",
paul@593 661
            "<context>" : "__tmp_contexts",
paul@601 662
            "<test_context_revert>" : "__tmp_contexts",
paul@595 663
            "<test_context_static>" : "__tmp_contexts",
paul@593 664
            "<set_context>" : "__tmp_contexts",
paul@593 665
            "<set_private_context>" : "__tmp_private_context",
paul@858 666
            "<set_accessor>" : "__tmp_values",
paul@989 667
            "<set_attr_ref>" : "__tmp_attr_refs",
paul@593 668
            "<set_target_accessor>" : "__tmp_target_value",
paul@593 669
            }
paul@593 670
paul@593 671
        self.op_subs = {
paul@858 672
            "<accessor>" : "__get_accessor",
paul@989 673
            "<attr_ref>" : "__get_attr_ref",
paul@593 674
            "<context>" : "__get_context",
paul@601 675
            "<test_context_revert>" : "__test_context_revert",
paul@595 676
            "<test_context_static>" : "__test_context_static",
paul@593 677
            "<set_context>" : "__set_context",
paul@593 678
            "<set_private_context>" : "__set_private_context",
paul@593 679
            "<set_accessor>" : "__set_accessor",
paul@989 680
            "<set_attr_ref>" : "__set_attr_ref",
paul@593 681
            "<set_target_accessor>" : "__set_target_accessor",
paul@593 682
            }
paul@593 683
paul@113 684
    def get_referenced_attributes(self, location):
paul@113 685
paul@113 686
        """
paul@113 687
        Convert 'location' to the form used by the deducer and retrieve any
paul@553 688
        identified attributes.
paul@113 689
        """
paul@113 690
paul@747 691
        # Determine whether any deduced references refer to the accessed
paul@747 692
        # attribute.
paul@747 693
paul@791 694
        attrnames = location.attrnames
paul@747 695
        attrnames = attrnames and attrnames.split(".")
paul@747 696
        remaining = attrnames and len(attrnames) > 1
paul@747 697
paul@751 698
        access_location = self.deducer.const_accesses.get(location)
paul@751 699
paul@747 700
        if remaining and not access_location:
paul@843 701
            return set()
paul@843 702
paul@843 703
        return self.deducer.get_references_for_access(access_location or location)
paul@113 704
paul@553 705
    def get_referenced_attribute_invocations(self, location):
paul@553 706
paul@553 707
        """
paul@553 708
        Convert 'location' to the form used by the deducer and retrieve any
paul@553 709
        identified attribute invocation details.
paul@553 710
        """
paul@553 711
paul@553 712
        access_location = self.deducer.const_accesses.get(location)
paul@553 713
        return self.deducer.reference_invocations_unsuitable.get(access_location or location)
paul@553 714
paul@736 715
    def get_accessor_kinds(self, location):
paul@736 716
paul@736 717
        "Return the accessor kinds for 'location'."
paul@736 718
paul@736 719
        return self.deducer.accessor_kinds.get(location)
paul@234 720
paul@553 721
    def get_access_location(self, name, attrnames=None):
paul@113 722
paul@113 723
        """
paul@553 724
        Using the current namespace, the given 'name', and the 'attrnames'
paul@553 725
        employed in an access, return the access location.
paul@113 726
        """
paul@113 727
paul@113 728
        path = self.get_path_for_access()
paul@113 729
paul@113 730
        # Get the location used by the deducer and optimiser and find any
paul@113 731
        # recorded access.
paul@113 732
paul@553 733
        attrnames = attrnames and ".".join(self.attrs)
paul@113 734
        access_number = self.get_access_number(path, name, attrnames)
paul@113 735
        self.update_access_number(path, name, attrnames)
paul@791 736
        return AccessLocation(path, name, attrnames, access_number)
paul@113 737
paul@113 738
    def get_access_number(self, path, name, attrnames):
paul@113 739
        access = name, attrnames
paul@113 740
        if self.attr_accesses.has_key(path) and self.attr_accesses[path].has_key(access):
paul@113 741
            return self.attr_accesses[path][access]
paul@113 742
        else:
paul@113 743
            return 0
paul@113 744
paul@113 745
    def update_access_number(self, path, name, attrnames):
paul@113 746
        access = name, attrnames
paul@113 747
        if name:
paul@113 748
            init_item(self.attr_accesses, path, dict)
paul@144 749
            init_item(self.attr_accesses[path], access, lambda: 0)
paul@144 750
            self.attr_accesses[path][access] += 1
paul@113 751
paul@237 752
    def get_accessor_location(self, name):
paul@237 753
paul@237 754
        """
paul@237 755
        Using the current namespace and the given 'name', return the accessor
paul@237 756
        location.
paul@237 757
        """
paul@237 758
paul@237 759
        path = self.get_path_for_access()
paul@237 760
paul@237 761
        # Get the location used by the deducer and optimiser and find any
paul@237 762
        # recorded accessor.
paul@237 763
paul@791 764
        version = self.get_accessor_number(path, name)
paul@237 765
        self.update_accessor_number(path, name)
paul@791 766
        return Location(path, name, None, version)
paul@237 767
paul@237 768
    def get_accessor_number(self, path, name):
paul@237 769
        if self.attr_accessors.has_key(path) and self.attr_accessors[path].has_key(name):
paul@237 770
            return self.attr_accessors[path][name]
paul@237 771
        else:
paul@237 772
            return 0
paul@237 773
paul@237 774
    def update_accessor_number(self, path, name):
paul@237 775
        if name:
paul@237 776
            init_item(self.attr_accessors, path, dict)
paul@237 777
            init_item(self.attr_accessors[path], name, lambda: 0)
paul@237 778
            self.attr_accessors[path][name] += 1
paul@237 779
paul@113 780
    def process_class_node(self, n):
paul@113 781
paul@113 782
        "Process the given class node 'n'."
paul@113 783
paul@320 784
        class_name = self.get_object_path(n.name)
paul@320 785
paul@320 786
        # Where a class is set conditionally or where the name may refer to
paul@320 787
        # different values, assign the name.
paul@320 788
paul@320 789
        ref = self.importer.identify(class_name)
paul@320 790
paul@320 791
        if not ref.static():
paul@626 792
            self.process_assignment_for_object(n.name,
paul@626 793
                make_expression("__ATTRVALUE(&%s)" % encode_path(class_name)))
paul@320 794
paul@113 795
        self.enter_namespace(n.name)
paul@113 796
paul@113 797
        if self.have_object():
paul@113 798
            self.write_comment("Class: %s" % class_name)
paul@113 799
paul@257 800
            self.initialise_inherited_members(class_name)
paul@257 801
paul@113 802
            self.process_structure(n)
paul@257 803
            self.write_comment("End class: %s" % class_name)
paul@113 804
paul@113 805
        self.exit_namespace()
paul@113 806
paul@257 807
    def initialise_inherited_members(self, class_name):
paul@257 808
paul@257 809
        "Initialise members of 'class_name' inherited from its ancestors."
paul@257 810
paul@257 811
        for name, path in self.importer.all_class_attrs[class_name].items():
paul@257 812
            target = "%s.%s" % (class_name, name)
paul@257 813
paul@257 814
            # Ignore attributes with definitions.
paul@257 815
paul@257 816
            ref = self.importer.identify(target)
paul@257 817
            if ref:
paul@257 818
                continue
paul@257 819
paul@320 820
            # Ignore special type attributes.
paul@320 821
paul@320 822
            if is_type_attribute(name):
paul@320 823
                continue
paul@320 824
paul@257 825
            # Reference inherited attributes.
paul@257 826
paul@257 827
            ref = self.importer.identify(path)
paul@257 828
            if ref and not ref.static():
paul@257 829
                parent, attrname = path.rsplit(".", 1)
paul@257 830
paul@989 831
                self.writestmt("__store_via_attr_ref(__get_object_attr_ref(&%s, %s), __load_via_object(&%s, %s));" % (
paul@624 832
                    encode_path(class_name), name,
paul@624 833
                    encode_path(parent), attrname
paul@257 834
                    ))
paul@257 835
paul@314 836
    def process_from_node(self, n):
paul@314 837
paul@314 838
        "Process the given node 'n', importing from another module."
paul@314 839
paul@314 840
        path = self.get_namespace_path()
paul@314 841
paul@314 842
        # Attempt to obtain the referenced objects.
paul@314 843
paul@314 844
        for name, alias in n.names:
paul@314 845
            if name == "*":
paul@314 846
                raise InspectError("Only explicitly specified names can be imported from modules.", path, n)
paul@314 847
paul@314 848
            # Obtain the path of the assigned name.
paul@314 849
paul@314 850
            objpath = self.get_object_path(alias or name)
paul@314 851
paul@314 852
            # Obtain the identity of the name.
paul@314 853
paul@314 854
            ref = self.importer.identify(objpath)
paul@314 855
paul@314 856
            # Where the name is not static, assign the value.
paul@314 857
paul@314 858
            if ref and not ref.static() and ref.get_name():
paul@314 859
                self.writestmt("%s;" % 
paul@314 860
                    TrResolvedNameRef(alias or name, Reference("<var>", None, objpath),
paul@314 861
                                      expr=TrResolvedNameRef(name, ref)))
paul@314 862
paul@113 863
    def process_function_body_node(self, n):
paul@113 864
paul@113 865
        """
paul@113 866
        Process the given function, lambda, if expression or list comprehension
paul@113 867
        node 'n', generating the body.
paul@113 868
        """
paul@113 869
paul@113 870
        function_name = self.get_namespace_path()
paul@113 871
        self.start_function(function_name)
paul@113 872
paul@113 873
        # Process the function body.
paul@113 874
paul@113 875
        in_conditional = self.in_conditional
paul@113 876
        self.in_conditional = False
paul@972 877
paul@989 878
        # Reset temporary storage counters and limits.
paul@972 879
paul@972 880
        self.reset_temp_limits()
paul@972 881
paul@972 882
        # Reset result target storage details. To be effective, storage
paul@972 883
        # locations are not reused between statements.
paul@972 884
paul@972 885
        self.max_result_target = 0
paul@971 886
        self.result_target = 0
paul@113 887
paul@670 888
        # Volatile locals for exception handling.
paul@670 889
paul@670 890
        self.volatile_locals = set()
paul@670 891
paul@237 892
        # Process any guards defined for the parameters.
paul@237 893
paul@237 894
        for name in self.importer.function_parameters.get(function_name):
paul@238 895
            self.generate_guard(name)
paul@237 896
paul@816 897
        # Also support self in methods, since some mix-in methods may only work
paul@816 898
        # with certain descendant classes.
paul@816 899
paul@816 900
        if self.in_method():
paul@816 901
            self.generate_guard("self")
paul@816 902
paul@819 903
        # Make assignments for .name entries in the parameters, provided this is
paul@819 904
        # a method.
paul@819 905
paul@819 906
        if self.in_method():
paul@819 907
            for name in self.importer.function_attr_initialisers.get(function_name) or []:
paul@989 908
paul@989 909
                # Treat each assignment as a separate statement.
paul@989 910
paul@989 911
                self.reset_temp_counters()
paul@989 912
paul@819 913
                self.process_assignment_node(
paul@819 914
                    compiler.ast.AssAttr(compiler.ast.Name("self"), name, "OP_ASSIGN"),
paul@819 915
                    compiler.ast.Name(name))
paul@819 916
paul@237 917
        # Produce the body and any additional return statement.
paul@237 918
paul@999 919
        is_lambda = isinstance(n, compiler.ast.Lambda)
paul@999 920
paul@999 921
        expr = self.process_statement_node(n.code, is_lambda) or \
paul@669 922
               self.in_method() and \
paul@669 923
                   function_name.rsplit(".", 1)[-1] == "__init__" and \
paul@669 924
                   TrResolvedNameRef("self", self.importer.function_locals[function_name]["self"]) or \
paul@669 925
               PredefinedConstantRef("None")
paul@669 926
paul@144 927
        if not isinstance(expr, ReturnRef):
paul@128 928
            self.writestmt("return %s;" % expr)
paul@113 929
paul@113 930
        self.in_conditional = in_conditional
paul@113 931
paul@144 932
        self.end_function(function_name)
paul@113 933
paul@238 934
    def generate_guard(self, name):
paul@238 935
paul@238 936
        """
paul@238 937
        Get the accessor details for 'name', found in the current namespace, and
paul@238 938
        generate any guards defined for it.
paul@238 939
        """
paul@238 940
paul@238 941
        # Obtain the location, keeping track of assignment versions.
paul@238 942
paul@238 943
        location = self.get_accessor_location(name)
paul@238 944
        test = self.deducer.accessor_guard_tests.get(location)
paul@238 945
paul@238 946
        # Generate any guard from the deduced information.
paul@238 947
paul@238 948
        if test:
paul@238 949
            guard, guard_type = test
paul@238 950
paul@238 951
            if guard == "specific":
paul@238 952
                ref = first(self.deducer.accessor_all_types[location])
paul@238 953
                argstr = "&%s" % encode_path(ref.get_origin())
paul@238 954
            elif guard == "common":
paul@238 955
                ref = first(self.deducer.accessor_all_general_types[location])
paul@624 956
                argstr = encode_path(encode_type_attribute(ref.get_origin()))
paul@238 957
            else:
paul@238 958
                return
paul@238 959
paul@238 960
            # Write a test that raises a TypeError upon failure.
paul@238 961
paul@757 962
            self.writestmt("if (!__test_%s_%s(__VALUE(%s), %s)) __raise_type_error();" % (
paul@763 963
                guard, guard_type, encode_path(name), argstr))
paul@238 964
paul@113 965
    def process_function_node(self, n):
paul@113 966
paul@113 967
        """
paul@113 968
        Process the given function, lambda, if expression or list comprehension
paul@113 969
        node 'n', generating any initialisation statements.
paul@113 970
        """
paul@113 971
paul@113 972
        # Where a function is declared conditionally, use a separate name for
paul@113 973
        # the definition, and assign the definition to the stated name.
paul@113 974
paul@196 975
        original_name = n.name
paul@196 976
paul@113 977
        if self.in_conditional or self.in_function:
paul@113 978
            name = self.get_lambda_name()
paul@113 979
        else:
paul@113 980
            name = n.name
paul@113 981
paul@196 982
        objpath = self.get_object_path(name)
paul@196 983
paul@113 984
        # Obtain details of the defaults.
paul@113 985
paul@285 986
        defaults = self.process_function_defaults(n, name, objpath)
paul@113 987
        if defaults:
paul@113 988
            for default in defaults:
paul@113 989
                self.writeline("%s;" % default)
paul@113 990
paul@196 991
        # Where a function is set conditionally or where the name may refer to
paul@196 992
        # different values, assign the name.
paul@196 993
paul@196 994
        ref = self.importer.identify(objpath)
paul@113 995
paul@196 996
        if self.in_conditional or self.in_function:
paul@320 997
            self.process_assignment_for_object(original_name, compiler.ast.Name(name))
paul@196 998
        elif not ref.static():
paul@267 999
            context = self.is_method(objpath)
paul@267 1000
paul@320 1001
            self.process_assignment_for_object(original_name,
paul@626 1002
                make_expression("__ATTRVALUE(&%s)" % encode_path(objpath)))
paul@113 1003
paul@285 1004
    def process_function_defaults(self, n, name, objpath, instance_name=None):
paul@113 1005
paul@113 1006
        """
paul@113 1007
        Process the given function or lambda node 'n', initialising defaults
paul@113 1008
        that are dynamically set. The given 'name' indicates the name of the
paul@285 1009
        function. The given 'objpath' indicates the origin of the function.
paul@285 1010
        The given 'instance_name' indicates the name of any separate instance
paul@285 1011
        of the function created to hold the defaults.
paul@113 1012
paul@113 1013
        Return a list of operations setting defaults on a function instance.
paul@113 1014
        """
paul@113 1015
paul@113 1016
        function_name = self.get_object_path(name)
paul@113 1017
        function_defaults = self.importer.function_defaults.get(function_name)
paul@113 1018
        if not function_defaults:
paul@113 1019
            return None
paul@113 1020
paul@113 1021
        # Determine whether any unidentified defaults are involved.
paul@113 1022
paul@285 1023
        for argname, default in function_defaults:
paul@285 1024
            if not default.static():
paul@285 1025
                break
paul@285 1026
        else:
paul@113 1027
            return None
paul@113 1028
paul@285 1029
        # Handle bound methods.
paul@285 1030
paul@285 1031
        if not instance_name:
paul@523 1032
            instance_name = "&%s" % encode_path(objpath)
paul@757 1033
        else:
paul@757 1034
            instance_name = "__VALUE(%s)" % instance_name
paul@285 1035
paul@113 1036
        # Where defaults are involved but cannot be identified, obtain a new
paul@113 1037
        # instance of the lambda and populate the defaults.
paul@113 1038
paul@113 1039
        defaults = []
paul@113 1040
paul@113 1041
        # Join the original defaults with the inspected defaults.
paul@113 1042
paul@113 1043
        original_defaults = [(argname, default) for (argname, default) in compiler.ast.get_defaults(n) if default]
paul@113 1044
paul@113 1045
        for i, (original, inspected) in enumerate(map(None, original_defaults, function_defaults)):
paul@113 1046
paul@113 1047
            # Obtain any reference for the default.
paul@113 1048
paul@113 1049
            if original:
paul@113 1050
                argname, default = original
paul@113 1051
                name_ref = self.process_structure_node(default)
paul@113 1052
            elif inspected:
paul@113 1053
                argname, default = inspected
paul@113 1054
                name_ref = TrResolvedNameRef(argname, default)
paul@113 1055
            else:
paul@113 1056
                continue
paul@113 1057
paul@338 1058
            # Generate default initialisers except when constants are employed.
paul@338 1059
            # Constants should be used when populating the function structures.
paul@338 1060
paul@338 1061
            if name_ref and not isinstance(name_ref, TrConstantValueRef):
paul@285 1062
                defaults.append("__SETDEFAULT(%s, %s, %s)" % (instance_name, i, name_ref))
paul@113 1063
paul@113 1064
        return defaults
paul@113 1065
paul@113 1066
    def process_if_node(self, n):
paul@113 1067
paul@113 1068
        """
paul@113 1069
        Process the given "if" node 'n'.
paul@113 1070
        """
paul@113 1071
paul@113 1072
        first = True
paul@113 1073
        for test, body in n.tests:
paul@986 1074
            test_ref = self.process_statement_node(test)
paul@113 1075
            self.start_if(first, test_ref)
paul@113 1076
paul@113 1077
            in_conditional = self.in_conditional
paul@113 1078
            self.in_conditional = True
paul@986 1079
            self.process_statement_node(body)
paul@113 1080
            self.in_conditional = in_conditional
paul@113 1081
paul@113 1082
            self.end_if()
paul@113 1083
            first = False
paul@113 1084
paul@113 1085
        if n.else_:
paul@113 1086
            self.start_else()
paul@986 1087
            self.process_statement_node(n.else_)
paul@113 1088
            self.end_else()
paul@113 1089
paul@634 1090
        print >>self.out
paul@634 1091
paul@113 1092
    def process_invocation_node(self, n):
paul@113 1093
paul@113 1094
        "Process the given invocation node 'n'."
paul@113 1095
paul@590 1096
        # Process the expression.
paul@590 1097
paul@113 1098
        expr = self.process_structure_node(n.node)
paul@590 1099
paul@590 1100
        # Obtain details of the invocation expression.
paul@590 1101
paul@113 1102
        objpath = expr.get_origin()
paul@554 1103
        location = expr.access_location()
paul@745 1104
        refs = expr.references()
paul@552 1105
paul@552 1106
        # Identified target details.
paul@552 1107
paul@118 1108
        target = None
paul@407 1109
        target_structure = None
paul@552 1110
paul@552 1111
        # Specific function target information.
paul@552 1112
paul@242 1113
        function = None
paul@552 1114
paul@552 1115
        # Instantiation involvement.
paul@552 1116
paul@317 1117
        instantiation = False
paul@159 1118
        literal_instantiation = False
paul@552 1119
paul@552 1120
        # Invocation requirements.
paul@552 1121
paul@312 1122
        context_required = True
paul@587 1123
        have_access_context = isinstance(expr, AttrResult)
paul@852 1124
paul@852 1125
        # The context identity is merely the thing providing the context.
paul@852 1126
        # A verified context is one that does not need further testing for
paul@852 1127
        # suitability.
paul@852 1128
paul@618 1129
        context_identity = have_access_context and expr.context()
paul@776 1130
        context_verified = have_access_context and expr.context_verified()
paul@852 1131
paul@852 1132
        # The presence of any test operations in the accessor expression.
paul@852 1133
        # With such operations present, the expression cannot be eliminated.
paul@852 1134
paul@828 1135
        tests_accessor = have_access_context and expr.tests_accessor()
paul@858 1136
        stores_accessor = have_access_context and expr.stores_accessor()
paul@852 1137
paul@852 1138
        # Parameter details and parameter list dimensions.
paul@852 1139
paul@552 1140
        parameters = None
paul@753 1141
        num_parameters = None
paul@753 1142
        num_defaults = None
paul@552 1143
paul@552 1144
        # Obtain details of the callable and of its parameters.
paul@113 1145
paul@159 1146
        # Literals may be instantiated specially.
paul@159 1147
paul@159 1148
        if expr.is_name() and expr.name.startswith("$L") and objpath:
paul@317 1149
            instantiation = literal_instantiation = objpath
paul@159 1150
            target = encode_literal_instantiator(objpath)
paul@312 1151
            context_required = False
paul@159 1152
paul@159 1153
        # Identified targets employ function pointers directly.
paul@159 1154
paul@159 1155
        elif objpath:
paul@113 1156
            parameters = self.importer.function_parameters.get(objpath)
paul@749 1157
            function_defaults = self.importer.function_defaults.get(objpath)
paul@753 1158
            num_parameters = parameters and len(parameters) or 0
paul@753 1159
            num_defaults = function_defaults and len(function_defaults) or 0
paul@234 1160
paul@234 1161
            # Class invocation involves instantiators.
paul@234 1162
paul@118 1163
            if expr.has_kind("<class>"):
paul@317 1164
                instantiation = objpath
paul@118 1165
                target = encode_instantiator_pointer(objpath)
paul@540 1166
                init_ref = self.importer.all_class_attrs[objpath]["__init__"]
paul@540 1167
                target_structure = "&%s" % encode_path(init_ref)
paul@312 1168
                context_required = False
paul@234 1169
paul@234 1170
            # Only plain functions and bound methods employ function pointers.
paul@234 1171
paul@118 1172
            elif expr.has_kind("<function>"):
paul@242 1173
                function = objpath
paul@234 1174
paul@234 1175
                # Test for functions and methods.
paul@234 1176
paul@407 1177
                context_required = self.is_method(objpath)
paul@685 1178
paul@736 1179
                accessor_kinds = location and self.get_accessor_kinds(location)
paul@685 1180
paul@312 1181
                instance_accessor = accessor_kinds and \
paul@312 1182
                                    len(accessor_kinds) == 1 and \
paul@312 1183
                                    first(accessor_kinds) == "<instance>"
paul@234 1184
paul@407 1185
                # Only identify certain bound methods or functions.
paul@407 1186
paul@407 1187
                if not context_required or instance_accessor:
paul@234 1188
                    target = encode_function_pointer(objpath)
paul@407 1189
paul@407 1190
                # Access bound method defaults even if it is not clear whether
paul@407 1191
                # the accessor is appropriate.
paul@407 1192
paul@523 1193
                target_structure = "&%s" % encode_path(objpath)
paul@312 1194
paul@749 1195
        # Other targets are retrieved at run-time.
paul@749 1196
paul@749 1197
        else:
paul@749 1198
            if location:
paul@791 1199
                attrnames = location.attrnames
paul@749 1200
                attrname = attrnames and attrnames.rsplit(".", 1)[-1]
paul@749 1201
paul@830 1202
                # Determine common aspects of any identifiable targets.
paul@830 1203
paul@830 1204
                if attrname or refs:
paul@749 1205
                    all_params = set()
paul@749 1206
                    all_defaults = set()
paul@753 1207
                    min_params = set()
paul@753 1208
                    max_params = set()
paul@830 1209
paul@830 1210
                    # Employ references from the expression or find all
paul@830 1211
                    # possible attributes for the given attribute name.
paul@830 1212
paul@830 1213
                    refs = refs or self.get_attributes_for_attrname(attrname)
paul@749 1214
paul@749 1215
                    # Obtain parameters and defaults for each possible target.
paul@749 1216
paul@830 1217
                    for ref in refs:
paul@749 1218
                        origin = ref.get_origin()
paul@749 1219
                        params = self.importer.function_parameters.get(origin)
paul@753 1220
paul@749 1221
                        defaults = self.importer.function_defaults.get(origin)
paul@753 1222
                        if defaults is not None:
paul@749 1223
                            all_defaults.add(tuple(defaults))
paul@749 1224
paul@753 1225
                        if params is not None:
paul@753 1226
                            all_params.add(tuple(params))
paul@753 1227
                            min_params.add(len(params) - (defaults and len(defaults) or 0))
paul@753 1228
                            max_params.add(len(params))
paul@753 1229
                        else:
paul@753 1230
                            refs = set()
paul@753 1231
                            break
paul@753 1232
paul@749 1233
                    # Where the parameters and defaults are always the same,
paul@749 1234
                    # permit populating them in advance.
paul@749 1235
paul@753 1236
                    if refs:
paul@753 1237
                        if self.uses_keyword_arguments(n):
paul@753 1238
                            if len(all_params) == 1 and (not all_defaults or len(all_defaults) == 1):
paul@753 1239
                                parameters = first(all_params)
paul@753 1240
                                function_defaults = all_defaults and first(all_defaults) or []
paul@753 1241
                                num_parameters = parameters and len(parameters) or 0
paul@753 1242
                                num_defaults = function_defaults and len(function_defaults) or 0
paul@753 1243
                        else:
paul@753 1244
                            if len(min_params) == 1 and len(max_params) == 1:
paul@753 1245
                                num_parameters = first(max_params)
paul@753 1246
                                num_defaults = first(max_params) - first(min_params)
paul@749 1247
paul@749 1248
            # Some information about the target may be available and be used to
paul@749 1249
            # provide warnings about argument compatibility.
paul@749 1250
paul@749 1251
            if self.importer.give_warning("args"):
paul@749 1252
                unsuitable = self.get_referenced_attribute_invocations(location)
paul@749 1253
paul@749 1254
                if unsuitable:
paul@749 1255
                    for ref in unsuitable:
paul@749 1256
                        _objpath = ref.get_origin()
paul@749 1257
                        print >>sys.stderr, \
paul@749 1258
                            "In %s, at line %d, inappropriate number of " \
paul@749 1259
                            "arguments given. Need %d arguments to call %s." % (
paul@753 1260
                            self.get_namespace_path(), n.lineno,
paul@753 1261
                            len(self.importer.function_parameters[_objpath]),
paul@749 1262
                            _objpath)
paul@113 1263
paul@828 1264
        # Logical statement about available parameter information.
paul@828 1265
paul@828 1266
        known_parameters = num_parameters is not None
paul@828 1267
paul@828 1268
        # The source of context information: target or temporary.
paul@828 1269
paul@828 1270
        need_context_target = context_required and not have_access_context
paul@828 1271
paul@828 1272
        need_context_stored = context_required and context_identity and \
paul@828 1273
                              context_identity.startswith("__get_context")
paul@828 1274
paul@619 1275
        # Determine any readily-accessible target identity.
paul@619 1276
paul@685 1277
        target_named = expr.is_name() and str(expr) or None
paul@828 1278
        target_identity = target or target_named
paul@828 1279
paul@828 1280
        # Use of target information to populate defaults.
paul@828 1281
paul@828 1282
        defaults_target_var = not (parameters and function_defaults is not None) and \
paul@828 1283
                              known_parameters and len(n.args) < num_parameters
paul@828 1284
paul@828 1285
        # Use of a temporary target variable in these situations:
paul@828 1286
        #
paul@828 1287
        # A target provided by an expression needed for defaults.
paul@828 1288
        #
paul@828 1289
        # A target providing the context but not using a name to do so.
paul@828 1290
        #
paul@828 1291
        # A target expression involving the definition of a context which may
paul@828 1292
        # then be evaluated and stored to ensure that the context is available
paul@828 1293
        # during argument evaluation.
paul@828 1294
        #
paul@828 1295
        # An expression featuring an accessor test.
paul@828 1296
paul@828 1297
        need_target_stored = defaults_target_var and not target_identity or \
paul@829 1298
                             need_context_target and not target_identity or \
paul@828 1299
                             need_context_stored or \
paul@828 1300
                             tests_accessor and not target
paul@828 1301
paul@828 1302
        # Define stored target details.
paul@828 1303
paul@685 1304
        target_stored = "__tmp_targets[%d]" % self.function_target
paul@828 1305
        target_var = need_target_stored and target_stored or target_identity
paul@828 1306
paul@828 1307
        if need_target_stored:
paul@619 1308
            self.record_temp("__tmp_targets")
paul@619 1309
paul@828 1310
        if need_context_stored:
paul@828 1311
            self.record_temp("__tmp_contexts")
paul@619 1312
paul@858 1313
        if stores_accessor:
paul@858 1314
            self.record_temp("__tmp_values")
paul@858 1315
paul@971 1316
        # Employ result targets only in functions.
paul@971 1317
paul@971 1318
        if self.in_function:
paul@971 1319
            if self.result_target_name:
paul@971 1320
                result_target = self.result_target_name
paul@971 1321
                self.result_target_name = None
paul@971 1322
            else:
paul@971 1323
                result_target = "__tmp_results[%d]" % self.result_target
paul@971 1324
                self.record_temp("__tmp_results")
paul@971 1325
                self.next_result()
paul@971 1326
        else:
paul@989 1327
            result_target = None
paul@971 1328
paul@122 1329
        # Arguments are presented in a temporary frame array with any context
paul@312 1330
        # always being the first argument. Where it would be unused, it may be
paul@312 1331
        # set to null.
paul@122 1332
paul@312 1333
        if context_required:
paul@587 1334
            if have_access_context:
paul@851 1335
                context_arg = context_identity
paul@587 1336
            else:
paul@851 1337
                context_arg = "__CONTEXT_AS_VALUE(%s)" % target_var
paul@312 1338
        else:
paul@851 1339
            context_arg = "__NULL"
paul@851 1340
paul@971 1341
        # Start with result target and context arguments for each invocation.
paul@971 1342
paul@989 1343
        args = [result_target or "__NULL", context_arg]
paul@982 1344
        reserved_args = 2
paul@312 1345
paul@552 1346
        # Complete the array with null values, permitting tests for a complete
paul@552 1347
        # set of arguments.
paul@552 1348
paul@753 1349
        args += [None] * (num_parameters is None and len(n.args) or num_parameters is not None and num_parameters or 0)
paul@122 1350
        kwcodes = []
paul@122 1351
        kwargs = []
paul@122 1352
paul@192 1353
        # Any invocations in the arguments will store target details in a
paul@192 1354
        # different location.
paul@192 1355
paul@676 1356
        function_target = self.function_target
paul@828 1357
        context_index = self.context_index
paul@858 1358
        accessor_index = self.accessor_index
paul@828 1359
paul@828 1360
        if need_target_stored:
paul@676 1361
            self.next_target()
paul@676 1362
paul@828 1363
        if need_context_stored:
paul@828 1364
            self.next_context()
paul@192 1365
paul@858 1366
        if stores_accessor:
paul@858 1367
            self.next_accessor()
paul@858 1368
paul@858 1369
        in_parameter_list = self.in_parameter_list
paul@858 1370
        self.in_parameter_list = True
paul@858 1371
paul@122 1372
        for i, arg in enumerate(n.args):
paul@122 1373
            argexpr = self.process_structure_node(arg)
paul@122 1374
paul@971 1375
            # Convert any attributes indicating value replacement.
paul@971 1376
paul@989 1377
            if isinstance(argexpr, InvocationResult) and argexpr.result_target:
paul@989 1378
                argexprstr = "__set_attr(&%s, %s)" % (argexpr.result_target, argexpr)
paul@971 1379
            else:
paul@971 1380
                argexprstr = str(argexpr)
paul@971 1381
paul@122 1382
            # Store a keyword argument, either in the argument list or
paul@122 1383
            # in a separate keyword argument list for subsequent lookup.
paul@122 1384
paul@122 1385
            if isinstance(arg, compiler.ast.Keyword):
paul@113 1386
paul@122 1387
                # With knowledge of the target, store the keyword
paul@122 1388
                # argument directly.
paul@122 1389
paul@122 1390
                if parameters:
paul@373 1391
                    try:
paul@373 1392
                        argnum = parameters.index(arg.name)
paul@373 1393
                    except ValueError:
paul@373 1394
                        raise TranslateError("Argument %s is not recognised." % arg.name,
paul@373 1395
                                             self.get_namespace_path(), n)
paul@982 1396
                    args[argnum + reserved_args] = argexprstr
paul@122 1397
paul@122 1398
                # Otherwise, store the details in a separate collection.
paul@122 1399
paul@122 1400
                else:
paul@971 1401
                    kwargs.append(argexprstr)
paul@122 1402
                    kwcodes.append("{%s, %s}" % (
paul@623 1403
                        encode_ppos(arg.name), encode_pcode(arg.name)))
paul@122 1404
paul@312 1405
            # Store non-keyword arguments in the argument list, rejecting
paul@312 1406
            # superfluous arguments.
paul@312 1407
paul@122 1408
            else:
paul@225 1409
                try:
paul@982 1410
                    args[i + reserved_args] = argexprstr
paul@225 1411
                except IndexError:
paul@225 1412
                    raise TranslateError("Too many arguments specified.",
paul@225 1413
                                         self.get_namespace_path(), n)
paul@113 1414
paul@192 1415
        # Reference the current target again.
paul@192 1416
paul@858 1417
        self.in_parameter_list = in_parameter_list
paul@858 1418
paul@858 1419
        if not self.in_parameter_list:
paul@858 1420
            self.function_target = function_target
paul@858 1421
            self.context_index = context_index
paul@858 1422
            self.accessor_index = accessor_index
paul@192 1423
paul@113 1424
        # Defaults are added to the frame where arguments are missing.
paul@113 1425
paul@803 1426
        if parameters and function_defaults is not None:
paul@753 1427
paul@753 1428
            # Visit each default and set any missing arguments. Where keyword
paul@753 1429
            # arguments have been used, the defaults must be inspected and, if
paul@753 1430
            # necessary, inserted into gaps in the argument list.
paul@749 1431
paul@749 1432
            for i, (argname, default) in enumerate(function_defaults):
paul@749 1433
                argnum = parameters.index(argname)
paul@957 1434
                if not args[argnum + reserved_args]:
paul@957 1435
                    args[argnum + reserved_args] = "__GETDEFAULT(%s, %d)" % (target_structure, i)
paul@149 1436
paul@753 1437
        elif known_parameters:
paul@753 1438
paul@753 1439
            # No specific parameter details are provided, but no keyword
paul@753 1440
            # arguments are used. Thus, defaults can be supplied using position
paul@753 1441
            # information only.
paul@753 1442
paul@753 1443
            i = len(n.args)
paul@753 1444
            pos = i - (num_parameters - num_defaults)
paul@753 1445
            while i < num_parameters:
paul@957 1446
                args[i + reserved_args] = "__GETDEFAULT(%s.value, %d)" % (target_var, pos)
paul@753 1447
                i += 1
paul@753 1448
                pos += 1
paul@753 1449
paul@173 1450
        # Test for missing arguments.
paul@173 1451
paul@173 1452
        if None in args:
paul@173 1453
            raise TranslateError("Not all arguments supplied.",
paul@173 1454
                                 self.get_namespace_path(), n)
paul@173 1455
paul@149 1456
        # Encode the arguments.
paul@122 1457
paul@669 1458
        # Where literal instantiation is occurring, add an argument indicating
paul@971 1459
        # the number of values. The result target and context are excluded.
paul@669 1460
paul@669 1461
        if literal_instantiation:
paul@957 1462
            argstr = "%d, %s" % (len(args) - reserved_args, ", ".join(args[reserved_args:]))
paul@669 1463
        else:
paul@669 1464
            argstr = ", ".join(args)
paul@669 1465
paul@122 1466
        kwargstr = kwargs and ("__ARGS(%s)" % ", ".join(kwargs)) or "0"
paul@122 1467
        kwcodestr = kwcodes and ("__KWARGS(%s)" % ", ".join(kwcodes)) or "0"
paul@122 1468
paul@156 1469
        # First, the invocation expression is presented.
paul@113 1470
paul@156 1471
        stages = []
paul@828 1472
        emit = stages.append
paul@828 1473
paul@828 1474
        # Assign and yield any stored target.
paul@828 1475
        # The context may be set in the expression.
paul@828 1476
paul@828 1477
        if need_target_stored:
paul@828 1478
            emit("%s = %s" % (target_var, expr))
paul@828 1479
            target_expr = target_var
paul@828 1480
paul@828 1481
        # Otherwise, retain the expression for later use.
paul@828 1482
paul@828 1483
        else:
paul@828 1484
            target_expr = str(expr)
paul@156 1485
paul@685 1486
        # Any specific callable is then obtained for invocation.
paul@156 1487
paul@163 1488
        if target:
paul@828 1489
paul@828 1490
            # An expression involving a test of the accessor providing the target.
paul@828 1491
            # This must be emitted in order to perform the test.
paul@828 1492
paul@828 1493
            if tests_accessor:
paul@828 1494
                emit(str(expr))
paul@828 1495
paul@828 1496
            emit(target)
paul@484 1497
paul@685 1498
        # Methods accessed via unidentified accessors are obtained for
paul@685 1499
        # invocation.
paul@484 1500
paul@242 1501
        elif function:
paul@523 1502
            if context_required:
paul@838 1503
paul@851 1504
                # Avoid further context testing if appropriate.
paul@851 1505
paul@851 1506
                if have_access_context and context_verified:
paul@838 1507
                    emit("__get_function_member(%s)" % target_expr)
paul@838 1508
paul@838 1509
                # Otherwise, test the context for the function/method.
paul@838 1510
paul@587 1511
                else:
paul@851 1512
                    emit("__get_function(%s, %s)" % (context_arg, target_expr))
paul@523 1513
            else:
paul@828 1514
                emit("_get_function_member(%s)" % target_expr)
paul@122 1515
paul@749 1516
        # With known parameters, the target can be tested.
paul@749 1517
paul@753 1518
        elif known_parameters:
paul@749 1519
            if self.always_callable(refs):
paul@851 1520
                if context_verified:
paul@828 1521
                    emit("__get_function_member(%s)" % target_expr)
paul@776 1522
                else:
paul@828 1523
                    emit("__get_function(%s, %s)" % (context_arg, target_expr))
paul@749 1524
            else:
paul@828 1525
                emit("__check_and_get_function(%s, %s)" % (context_arg, target_expr))
paul@749 1526
paul@122 1527
        # With a known target, the function is obtained directly and called.
paul@484 1528
        # By putting the invocation at the end of the final element in the
paul@484 1529
        # instruction sequence (the stages), the result becomes the result of
paul@484 1530
        # the sequence. Moreover, the parameters become part of the sequence
paul@484 1531
        # and thereby participate in a guaranteed evaluation order.
paul@122 1532
paul@753 1533
        if target or function or known_parameters:
paul@498 1534
            stages[-1] += "(%s)" % argstr
paul@498 1535
            if instantiation:
paul@498 1536
                return InstantiationResult(instantiation, stages)
paul@498 1537
            else:
paul@978 1538
                return InvocationResult(result_target, stages)
paul@113 1539
paul@122 1540
        # With unknown targets, the generic invocation function is applied to
paul@122 1541
        # the callable and argument collections.
paul@113 1542
paul@122 1543
        else:
paul@828 1544
            emit("__invoke(\n%s,\n%d, %d, %s, %s,\n%d, %s\n)" % (
paul@828 1545
                target_expr,
paul@745 1546
                self.always_callable(refs) and 1 or 0,
paul@122 1547
                len(kwargs), kwcodestr, kwargstr,
paul@664 1548
                len(args), "__ARGS(%s)" % argstr))
paul@978 1549
            return InvocationResult(result_target, stages)
paul@113 1550
paul@972 1551
    def reset_temp_counters(self):
paul@972 1552
paul@972 1553
        "Reset the target counters."
paul@972 1554
paul@972 1555
        self.function_target = 0
paul@972 1556
        self.context_index = 0
paul@972 1557
        self.accessor_index = 0
paul@989 1558
        self.attribute_ref_index = 0
paul@989 1559
        self.result_target_name = None
paul@972 1560
paul@972 1561
    def reset_temp_limits(self):
paul@972 1562
paul@972 1563
        "Reset the target counter limits."
paul@972 1564
paul@972 1565
        self.max_function_target = 0
paul@972 1566
        self.max_context_index = 0
paul@972 1567
        self.max_accessor_index = 0
paul@989 1568
        self.max_attribute_ref_index = 0
paul@972 1569
paul@971 1570
    def next_result(self):
paul@971 1571
paul@971 1572
        "Allocate the next result target storage."
paul@971 1573
paul@971 1574
        self.result_target += 1
paul@971 1575
        self.max_result_target = max(self.result_target, self.max_result_target)
paul@113 1576
paul@676 1577
    def next_target(self):
paul@676 1578
paul@676 1579
        "Allocate the next function target storage."
paul@676 1580
paul@676 1581
        self.function_target += 1
paul@828 1582
        self.max_function_target = max(self.function_target, self.max_function_target)
paul@828 1583
paul@828 1584
    def next_context(self):
paul@828 1585
paul@828 1586
        "Allocate the next context value storage."
paul@828 1587
paul@828 1588
        self.context_index += 1
paul@828 1589
        self.max_context_index = max(self.context_index, self.max_context_index)
paul@676 1590
paul@858 1591
    def next_accessor(self):
paul@858 1592
paul@858 1593
        "Allocate the next accessor value storage."
paul@858 1594
paul@858 1595
        self.accessor_index += 1
paul@858 1596
        self.max_accessor_index = max(self.accessor_index, self.max_accessor_index)
paul@858 1597
paul@989 1598
    def next_attribute_ref(self):
paul@989 1599
paul@989 1600
        "Allocate the next attribute reference value storage."
paul@989 1601
paul@989 1602
        self.attribute_ref_index += 1
paul@989 1603
        self.max_attribute_ref_index = max(self.attribute_ref_index, self.max_attribute_ref_index)
paul@989 1604
paul@113 1605
    def always_callable(self, refs):
paul@113 1606
paul@113 1607
        "Determine whether all 'refs' are callable."
paul@113 1608
paul@745 1609
        if not refs:
paul@745 1610
            return False
paul@745 1611
paul@113 1612
        for ref in refs:
paul@748 1613
            if not ref.has_kind("<function>") and not self.importer.get_attributes(ref, "__fn__"):
paul@113 1614
                return False
paul@748 1615
paul@113 1616
        return True
paul@113 1617
paul@113 1618
    def need_default_arguments(self, objpath, nargs):
paul@113 1619
paul@113 1620
        """
paul@113 1621
        Return whether any default arguments are needed when invoking the object
paul@113 1622
        given by 'objpath'.
paul@113 1623
        """
paul@113 1624
paul@113 1625
        parameters = self.importer.function_parameters.get(objpath)
paul@113 1626
        return nargs < len(parameters)
paul@113 1627
paul@753 1628
    def uses_keyword_arguments(self, n):
paul@753 1629
paul@753 1630
        "Return whether invocation node 'n' uses keyword arguments."
paul@753 1631
paul@753 1632
        for arg in enumerate(n.args):
paul@753 1633
            if isinstance(arg, compiler.ast.Keyword):
paul@753 1634
                return True
paul@753 1635
paul@753 1636
        return False
paul@753 1637
paul@749 1638
    def get_attributes_for_attrname(self, attrname):
paul@749 1639
paul@749 1640
        "Return a set of all attributes exposed by 'attrname'."
paul@749 1641
paul@749 1642
        usage = [(attrname, True, False)]
paul@749 1643
        class_types = self.deducer.get_class_types_for_usage(usage)
paul@749 1644
        instance_types = self.deducer.get_instance_types_for_usage(usage)
paul@749 1645
        module_types = self.deducer.get_module_types_for_usage(usage)
paul@749 1646
        attrs = set()
paul@749 1647
paul@749 1648
        for ref in combine_types(class_types, instance_types, module_types):
paul@749 1649
            attrs.update(self.importer.get_attributes(ref, attrname))
paul@749 1650
paul@749 1651
        return attrs
paul@749 1652
paul@113 1653
    def process_lambda_node(self, n):
paul@113 1654
paul@113 1655
        "Process the given lambda node 'n'."
paul@113 1656
paul@113 1657
        name = self.get_lambda_name()
paul@113 1658
        function_name = self.get_object_path(name)
paul@858 1659
        instance_name = "__get_accessor(%d)" % self.accessor_index
paul@858 1660
paul@858 1661
        defaults = self.process_function_defaults(n, name, function_name, instance_name)
paul@149 1662
paul@149 1663
        # Without defaults, produce an attribute referring to the function.
paul@149 1664
paul@113 1665
        if not defaults:
paul@626 1666
            return make_expression("__ATTRVALUE(&%s)" % encode_path(function_name))
paul@149 1667
paul@149 1668
        # With defaults, copy the function structure and set the defaults on the
paul@149 1669
        # copy.
paul@149 1670
paul@113 1671
        else:
paul@858 1672
            self.record_temp("__tmp_values")
paul@858 1673
            return make_expression("""\
paul@858 1674
(__set_accessor(%d, __ATTRVALUE(__COPY(&%s, sizeof(%s)))),
paul@858 1675
 %s,
paul@858 1676
 __get_accessor(%d))""" % (
paul@858 1677
                self.accessor_index,
paul@151 1678
                encode_path(function_name),
paul@151 1679
                encode_symbol("obj", function_name),
paul@858 1680
                ", ".join(defaults),
paul@858 1681
                self.accessor_index))
paul@113 1682
paul@113 1683
    def process_logical_node(self, n):
paul@113 1684
paul@631 1685
        "Process the given operator node 'n'."
paul@113 1686
paul@482 1687
        self.record_temp("__tmp_result")
paul@482 1688
paul@631 1689
        conjunction = isinstance(n, compiler.ast.And)
paul@141 1690
        results = []
paul@113 1691
paul@631 1692
        for node in n.nodes:
paul@631 1693
            results.append(self.process_structure_node(node))
paul@631 1694
paul@631 1695
        return LogicalOperationResult(results, conjunction)
paul@113 1696
paul@971 1697
    def process_name_node(self, n, expr=None, process_expr=False):
paul@113 1698
paul@113 1699
        "Process the given name node 'n' with the optional assignment 'expr'."
paul@113 1700
paul@113 1701
        # Determine whether the name refers to a static external entity.
paul@113 1702
paul@113 1703
        if n.name in predefined_constants:
paul@399 1704
            return PredefinedConstantRef(n.name, expr)
paul@113 1705
paul@173 1706
        # Convert literal references, operator function names, and print
paul@173 1707
        # function names to references.
paul@113 1708
paul@173 1709
        elif n.name.startswith("$L") or n.name.startswith("$op") or \
paul@835 1710
             n.name.startswith("$seq") or n.name.startswith("$print"):
paul@423 1711
paul@423 1712
            ref, paths = self.importer.get_module(self.name).special[n.name]
paul@113 1713
            return TrResolvedNameRef(n.name, ref)
paul@113 1714
paul@113 1715
        # Get the appropriate name for the name reference, using the same method
paul@113 1716
        # as in the inspector.
paul@113 1717
paul@250 1718
        path = self.get_namespace_path()
paul@250 1719
        objpath = self.get_object_path(n.name)
paul@250 1720
paul@250 1721
        # Determine any assigned globals.
paul@250 1722
paul@250 1723
        globals = self.importer.get_module(self.name).scope_globals.get(path)
paul@603 1724
paul@603 1725
        # Explicitly declared globals.
paul@603 1726
paul@250 1727
        if globals and n.name in globals:
paul@250 1728
            objpath = self.get_global_path(n.name)
paul@603 1729
            is_global = True
paul@603 1730
paul@603 1731
        # Implicitly referenced globals in functions.
paul@603 1732
paul@603 1733
        elif self.in_function:
paul@603 1734
            is_global = n.name not in self.importer.function_locals[path]
paul@603 1735
paul@603 1736
        # Implicitly referenced globals elsewhere.
paul@603 1737
paul@603 1738
        else:
paul@603 1739
            namespace = self.importer.identify(path)
paul@603 1740
            is_global = not self.importer.get_attributes(namespace, n.name)
paul@113 1741
paul@113 1742
        # Get the static identity of the name.
paul@113 1743
paul@250 1744
        ref = self.importer.identify(objpath)
paul@152 1745
        if ref and not ref.get_name():
paul@250 1746
            ref = ref.alias(objpath)
paul@113 1747
paul@113 1748
        # Obtain any resolved names for non-assignment names.
paul@113 1749
paul@113 1750
        if not expr and not ref and self.in_function:
paul@250 1751
            locals = self.importer.function_locals.get(path)
paul@113 1752
            ref = locals and locals.get(n.name)
paul@113 1753
paul@685 1754
        # Find any invocation or alias details.
paul@553 1755
paul@678 1756
        name = self.get_name_for_tracking(n.name, is_global=is_global)
paul@700 1757
        location = not expr and self.get_access_location(name) or None
paul@553 1758
paul@670 1759
        # Mark any local assignments as volatile in exception blocks.
paul@670 1760
paul@670 1761
        if expr and self.in_function and not is_global and self.in_try_except:
paul@670 1762
            self.make_volatile(n.name)
paul@670 1763
paul@989 1764
        # Set the replacement target. Note that this will not apply to all
paul@989 1765
        # objects, with only floats supporting replaceable values.
paul@989 1766
paul@989 1767
        if expr:
paul@1017 1768
            # Prevent parameters from becoming result targets. Otherwise, they
paul@1017 1769
            # may inadvertently cause the modification of the supplied object.
paul@1017 1770
paul@1017 1771
            parameters = self.importer.function_parameters.get(path)
paul@1017 1772
paul@1017 1773
            if not parameters or n.name not in parameters:
paul@1017 1774
                target_ref = TrResolvedNameRef(n.name, ref, is_global=is_global,
paul@1017 1775
                                               location=location)
paul@1017 1776
                self.result_target_name = str(target_ref)
paul@1017 1777
            else:
paul@1017 1778
                self.result_target_name = None
paul@971 1779
paul@971 1780
        # Expression processing is deferred until after any result target has
paul@971 1781
        # been set.
paul@971 1782
paul@971 1783
        if process_expr:
paul@971 1784
            expr = self.process_structure_node(expr)
paul@971 1785
paul@113 1786
        # Qualified names are used for resolved static references or for
paul@113 1787
        # static namespace members. The reference should be configured to return
paul@113 1788
        # such names.
paul@113 1789
paul@685 1790
        name_ref = TrResolvedNameRef(n.name, ref, expr=expr, is_global=is_global,
paul@686 1791
                                     location=location)
paul@989 1792
paul@734 1793
        return not expr and self.get_aliases(name_ref) or name_ref
paul@685 1794
paul@685 1795
    def get_aliases(self, name_ref):
paul@685 1796
paul@685 1797
        "Return alias references for the given 'name_ref'."
paul@685 1798
paul@685 1799
        location = name_ref.access_location()
paul@831 1800
        accessor_locations = self.deducer.access_index.get(location)
paul@831 1801
paul@831 1802
        if not accessor_locations:
paul@831 1803
            return None
paul@831 1804
paul@831 1805
        refs = set()
paul@831 1806
paul@831 1807
        for accessor_location in accessor_locations:
paul@831 1808
            alias_refs = self.deducer.referenced_objects.get(accessor_location)
paul@831 1809
            if alias_refs:
paul@831 1810
                refs.update(alias_refs)
paul@831 1811
paul@831 1812
        if refs:
paul@831 1813
            return AliasResult(name_ref, refs, location)
paul@831 1814
        else:
paul@831 1815
            return None
paul@113 1816
paul@670 1817
    def make_volatile(self, name):
paul@670 1818
paul@670 1819
        "Record 'name' as volatile in the current namespace."
paul@670 1820
paul@670 1821
        self.volatile_locals.add(name)
paul@670 1822
paul@113 1823
    def process_not_node(self, n):
paul@113 1824
paul@113 1825
        "Process the given operator node 'n'."
paul@113 1826
paul@638 1827
        return self.make_negation(self.process_structure_node(n.expr))
paul@144 1828
paul@144 1829
    def process_raise_node(self, n):
paul@144 1830
paul@144 1831
        "Process the given raise node 'n'."
paul@144 1832
paul@144 1833
        # NOTE: Determine which raise statement variants should be permitted.
paul@144 1834
paul@176 1835
        if n.expr1:
paul@467 1836
paul@467 1837
            # Names with accompanying arguments are treated like invocations.
paul@467 1838
paul@467 1839
            if n.expr2:
paul@467 1840
                call = compiler.ast.CallFunc(n.expr1, [n.expr2])
paul@467 1841
                exc = self.process_structure_node(call)
paul@467 1842
                self.writestmt("__Raise(%s);" % exc)
paul@317 1843
paul@317 1844
            # Raise instances, testing the kind at run-time if necessary and
paul@317 1845
            # instantiating any non-instance.
paul@317 1846
paul@317 1847
            else:
paul@467 1848
                exc = self.process_structure_node(n.expr1)
paul@467 1849
paul@979 1850
                if isinstance(exc, TrInstanceRef) or exc.is_well_defined_instance():
paul@467 1851
                    self.writestmt("__Raise(%s);" % exc)
paul@467 1852
                else:
paul@467 1853
                    self.writestmt("__Raise(__ensure_instance(%s));" % exc)
paul@176 1854
        else:
paul@346 1855
            self.writestmt("__Throw(__tmp_exc);")
paul@144 1856
paul@144 1857
    def process_return_node(self, n):
paul@144 1858
paul@144 1859
        "Process the given return node 'n'."
paul@144 1860
paul@971 1861
        if self.in_function:
paul@971 1862
            self.result_target_name = "__result"
paul@971 1863
paul@144 1864
        expr = self.process_structure_node(n.value) or PredefinedConstantRef("None")
paul@971 1865
paul@189 1866
        if self.in_try_finally or self.in_try_except:
paul@144 1867
            self.writestmt("__Return(%s);" % expr)
paul@144 1868
        else:
paul@144 1869
            self.writestmt("return %s;" % expr)
paul@144 1870
paul@144 1871
        return ReturnRef()
paul@113 1872
paul@113 1873
    def process_try_node(self, n):
paul@113 1874
paul@113 1875
        """
paul@113 1876
        Process the given "try...except" node 'n'.
paul@113 1877
        """
paul@113 1878
paul@189 1879
        in_try_except = self.in_try_except
paul@189 1880
        self.in_try_except = True
paul@189 1881
paul@144 1882
        # Use macros to implement exception handling.
paul@113 1883
paul@144 1884
        self.writestmt("__Try")
paul@113 1885
        self.writeline("{")
paul@113 1886
        self.indent += 1
paul@986 1887
        self.process_statement_node(n.body)
paul@144 1888
paul@144 1889
        # Put the else statement in another try block that handles any raised
paul@144 1890
        # exceptions and converts them to exceptions that will not be handled by
paul@144 1891
        # the main handling block.
paul@144 1892
paul@144 1893
        if n.else_:
paul@144 1894
            self.writestmt("__Try")
paul@144 1895
            self.writeline("{")
paul@144 1896
            self.indent += 1
paul@986 1897
            self.process_statement_node(n.else_)
paul@144 1898
            self.indent -= 1
paul@144 1899
            self.writeline("}")
paul@144 1900
            self.writeline("__Catch (__tmp_exc)")
paul@144 1901
            self.writeline("{")
paul@144 1902
            self.indent += 1
paul@144 1903
            self.writeline("if (__tmp_exc.raising) __RaiseElse(__tmp_exc.arg);")
paul@191 1904
            self.writeline("else if (__tmp_exc.completing) __Throw(__tmp_exc);")
paul@144 1905
            self.indent -= 1
paul@144 1906
            self.writeline("}")
paul@144 1907
paul@144 1908
        # Complete the try block and enter the finally block, if appropriate.
paul@144 1909
paul@144 1910
        if self.in_try_finally:
paul@144 1911
            self.writestmt("__Complete;")
paul@144 1912
paul@113 1913
        self.indent -= 1
paul@113 1914
        self.writeline("}")
paul@113 1915
paul@189 1916
        self.in_try_except = in_try_except
paul@189 1917
paul@144 1918
        # Handlers are tests within a common handler block.
paul@144 1919
paul@144 1920
        self.writeline("__Catch (__tmp_exc)")
paul@144 1921
        self.writeline("{")
paul@144 1922
        self.indent += 1
paul@144 1923
paul@189 1924
        # Introduce an if statement to handle the completion of a try block.
paul@189 1925
paul@189 1926
        self.process_try_completion()
paul@189 1927
paul@144 1928
        # Handle exceptions in else blocks converted to __RaiseElse, converting
paul@144 1929
        # them back to normal exceptions.
paul@144 1930
paul@144 1931
        if n.else_:
paul@189 1932
            self.writeline("else if (__tmp_exc.raising_else) __Raise(__tmp_exc.arg);")
paul@144 1933
paul@144 1934
        # Exception handling.
paul@144 1935
paul@113 1936
        for name, var, handler in n.handlers:
paul@144 1937
paul@144 1938
            # Test for specific exceptions.
paul@144 1939
paul@113 1940
            if name is not None:
paul@986 1941
                name_ref = self.process_statement_node(name)
paul@462 1942
                self.writeline("else if (__ISINSTANCE(__tmp_exc.arg, %s))" % name_ref)
paul@144 1943
            else:
paul@189 1944
                self.writeline("else if (1)")
paul@113 1945
paul@113 1946
            self.writeline("{")
paul@113 1947
            self.indent += 1
paul@113 1948
paul@113 1949
            # Establish the local for the handler.
paul@113 1950
paul@113 1951
            if var is not None:
paul@261 1952
                self.writestmt("%s;" % self.process_name_node(var, make_expression("__tmp_exc.arg")))
paul@113 1953
paul@113 1954
            if handler is not None:
paul@986 1955
                self.process_statement_node(handler)
paul@113 1956
paul@113 1957
            self.indent -= 1
paul@113 1958
            self.writeline("}")
paul@113 1959
paul@144 1960
        # Re-raise unhandled exceptions.
paul@144 1961
paul@189 1962
        self.writeline("else __Throw(__tmp_exc);")
paul@144 1963
paul@144 1964
        # End the handler block.
paul@144 1965
paul@144 1966
        self.indent -= 1
paul@144 1967
        self.writeline("}")
paul@634 1968
        print >>self.out
paul@113 1969
paul@113 1970
    def process_try_finally_node(self, n):
paul@113 1971
paul@113 1972
        """
paul@113 1973
        Process the given "try...finally" node 'n'.
paul@113 1974
        """
paul@113 1975
paul@144 1976
        in_try_finally = self.in_try_finally
paul@144 1977
        self.in_try_finally = True
paul@113 1978
paul@144 1979
        # Use macros to implement exception handling.
paul@144 1980
paul@144 1981
        self.writestmt("__Try")
paul@113 1982
        self.writeline("{")
paul@113 1983
        self.indent += 1
paul@986 1984
        self.process_statement_node(n.body)
paul@113 1985
        self.indent -= 1
paul@113 1986
        self.writeline("}")
paul@144 1987
paul@144 1988
        self.in_try_finally = in_try_finally
paul@144 1989
paul@144 1990
        # Finally clauses handle special exceptions.
paul@144 1991
paul@144 1992
        self.writeline("__Catch (__tmp_exc)")
paul@113 1993
        self.writeline("{")
paul@113 1994
        self.indent += 1
paul@986 1995
        self.process_statement_node(n.final)
paul@144 1996
paul@189 1997
        # Introduce an if statement to handle the completion of a try block.
paul@189 1998
paul@189 1999
        self.process_try_completion()
paul@189 2000
        self.writeline("else __Throw(__tmp_exc);")
paul@189 2001
paul@189 2002
        self.indent -= 1
paul@189 2003
        self.writeline("}")
paul@634 2004
        print >>self.out
paul@189 2005
paul@189 2006
    def process_try_completion(self):
paul@189 2007
paul@189 2008
        "Generate a test for the completion of a try block."
paul@144 2009
paul@144 2010
        self.writestmt("if (__tmp_exc.completing)")
paul@144 2011
        self.writeline("{")
paul@144 2012
        self.indent += 1
paul@189 2013
paul@316 2014
        # Do not return anything at the module level.
paul@316 2015
paul@316 2016
        if self.get_namespace_path() != self.name:
paul@189 2017
paul@316 2018
            # Only use the normal return statement if no surrounding try blocks
paul@316 2019
            # apply.
paul@316 2020
paul@316 2021
            if not self.in_try_finally and not self.in_try_except:
paul@316 2022
                self.writeline("if (!__ISNULL(__tmp_exc.arg)) return __tmp_exc.arg;")
paul@316 2023
            else:
paul@316 2024
                self.writeline("if (!__ISNULL(__tmp_exc.arg)) __Throw(__tmp_exc);")
paul@144 2025
paul@113 2026
        self.indent -= 1
paul@113 2027
        self.writeline("}")
paul@113 2028
paul@113 2029
    def process_while_node(self, n):
paul@113 2030
paul@113 2031
        "Process the given while node 'n'."
paul@113 2032
paul@113 2033
        self.writeline("while (1)")
paul@113 2034
        self.writeline("{")
paul@113 2035
        self.indent += 1
paul@986 2036
        test = self.process_statement_node(n.test)
paul@113 2037
paul@113 2038
        # Emit the loop termination condition unless "while <true value>" is
paul@113 2039
        # indicated.
paul@113 2040
paul@113 2041
        if not (isinstance(test, PredefinedConstantRef) and test.value):
paul@113 2042
paul@629 2043
            # Emit a negated test of the continuation condition.
paul@629 2044
paul@638 2045
            self.start_if(True, self.make_negation(test))
paul@113 2046
            if n.else_:
paul@986 2047
                self.process_statement_node(n.else_)
paul@128 2048
            self.writestmt("break;")
paul@629 2049
            self.end_if()
paul@113 2050
paul@113 2051
        in_conditional = self.in_conditional
paul@113 2052
        self.in_conditional = True
paul@986 2053
        self.process_statement_node(n.body)
paul@113 2054
        self.in_conditional = in_conditional
paul@113 2055
paul@113 2056
        self.indent -= 1
paul@113 2057
        self.writeline("}")
paul@634 2058
        print >>self.out
paul@113 2059
paul@482 2060
    # Special variable usage.
paul@482 2061
paul@637 2062
    def get_temp_path(self):
paul@637 2063
paul@637 2064
        """
paul@637 2065
        Return the appropriate namespace path for temporary names in the current
paul@637 2066
        namespace.
paul@637 2067
        """
paul@637 2068
paul@637 2069
        if self.in_function:
paul@637 2070
            return self.get_namespace_path()
paul@637 2071
        else:
paul@637 2072
            return self.name
paul@637 2073
paul@482 2074
    def record_temp(self, name):
paul@482 2075
paul@482 2076
        """
paul@482 2077
        Record the use of the temporary 'name' in the current namespace. At the
paul@482 2078
        class or module level, the temporary name is associated with the module,
paul@482 2079
        since the variable will then be allocated in the module's own main
paul@482 2080
        program.
paul@482 2081
        """
paul@482 2082
paul@637 2083
        path = self.get_temp_path()
paul@637 2084
paul@637 2085
        init_item(self.temp_usage, path, list)
paul@637 2086
        self.temp_usage[path].append(name)
paul@637 2087
paul@637 2088
    def remove_temps(self, names):
paul@637 2089
paul@637 2090
        """
paul@637 2091
        Remove 'names' from temporary storage allocations, each instance
paul@637 2092
        removing each request for storage.
paul@637 2093
        """
paul@637 2094
paul@637 2095
        path = self.get_temp_path()
paul@637 2096
paul@637 2097
        for name in names:
paul@637 2098
            if self.uses_temp(path, name):
paul@637 2099
                self.temp_usage[path].remove(name)
paul@482 2100
paul@482 2101
    def uses_temp(self, path, name):
paul@482 2102
paul@482 2103
        """
paul@482 2104
        Return whether the given namespace 'path' employs a temporary variable
paul@482 2105
        with the given 'name'. Note that 'path' should only be a module or a
paul@482 2106
        function or method, not a class.
paul@482 2107
        """
paul@482 2108
paul@482 2109
        return self.temp_usage.has_key(path) and name in self.temp_usage[path]
paul@482 2110
paul@638 2111
    def make_negation(self, expr):
paul@638 2112
paul@638 2113
        "Return a negated form of 'expr'."
paul@638 2114
paul@638 2115
        result = NegationResult(expr)
paul@638 2116
paul@638 2117
        # Negation discards the temporary results of its operand.
paul@638 2118
paul@638 2119
        temps = expr.discards_temporary()
paul@638 2120
        if temps:
paul@638 2121
            self.remove_temps(temps)
paul@638 2122
paul@638 2123
        return result
paul@638 2124
paul@113 2125
    # Output generation.
paul@113 2126
paul@128 2127
    def start_output(self):
paul@159 2128
paul@159 2129
        "Write the declarations at the top of each source file."
paul@159 2130
paul@128 2131
        print >>self.out, """\
paul@128 2132
#include "types.h"
paul@144 2133
#include "exceptions.h"
paul@128 2134
#include "ops.h"
paul@128 2135
#include "progconsts.h"
paul@128 2136
#include "progops.h"
paul@128 2137
#include "progtypes.h"
paul@137 2138
#include "main.h"
paul@128 2139
"""
paul@128 2140
paul@482 2141
    def start_unit(self):
paul@482 2142
paul@482 2143
        "Record output within a generated function for later use."
paul@482 2144
paul@482 2145
        self.out = StringIO()
paul@482 2146
paul@670 2147
    def end_unit(self):
paul@670 2148
paul@670 2149
        "Restore the output stream."
paul@482 2150
paul@482 2151
        out = self.out
paul@482 2152
        self.out = self.out_toplevel
paul@670 2153
        return out
paul@670 2154
paul@670 2155
    def flush_unit(self, name, out):
paul@670 2156
paul@670 2157
        "Add declarations and generated code."
paul@482 2158
paul@482 2159
        self.write_temporaries(name)
paul@634 2160
        print >>self.out
paul@482 2161
        out.seek(0)
paul@482 2162
        self.out.write(out.read())
paul@482 2163
paul@113 2164
    def start_module(self):
paul@159 2165
paul@159 2166
        "Write the start of each module's main function."
paul@159 2167
paul@113 2168
        print >>self.out, "void __main_%s()" % encode_path(self.name)
paul@113 2169
        print >>self.out, "{"
paul@113 2170
        self.indent += 1
paul@561 2171
paul@561 2172
        # Define temporary variables, excluded from the module structure itself.
paul@561 2173
paul@561 2174
        tempnames = []
paul@561 2175
paul@561 2176
        for n in self.importer.all_module_attrs[self.name]:
paul@561 2177
            if n.startswith("$t"):
paul@561 2178
                tempnames.append(encode_path(n))
paul@561 2179
paul@561 2180
        if tempnames:
paul@561 2181
            tempnames.sort()
paul@561 2182
            self.writeline("__attr %s;" % ", ".join(tempnames))
paul@561 2183
paul@482 2184
        self.start_unit()
paul@113 2185
paul@113 2186
    def end_module(self):
paul@159 2187
paul@159 2188
        "End each module by closing its main function."
paul@159 2189
paul@670 2190
        out = self.end_unit()
paul@670 2191
        self.flush_unit(self.name, out)
paul@113 2192
paul@672 2193
        self.indent -= 1
paul@672 2194
        print >>self.out, "}"
paul@672 2195
paul@113 2196
    def start_function(self, name):
paul@159 2197
paul@159 2198
        "Start the function having the given 'name'."
paul@159 2199
paul@113 2200
        self.indent += 1
paul@113 2201
paul@670 2202
        self.start_unit()
paul@670 2203
paul@670 2204
    def end_function(self, name):
paul@670 2205
paul@670 2206
        "End the function having the given 'name'."
paul@670 2207
paul@670 2208
        out = self.end_unit()
paul@670 2209
paul@673 2210
        # Write the signature at the top indentation level.
paul@673 2211
paul@673 2212
        self.indent -= 1
paul@664 2213
        self.write_parameters(name)
paul@113 2214
        print >>self.out, "{"
paul@113 2215
paul@113 2216
        # Obtain local names from parameters.
paul@113 2217
paul@113 2218
        parameters = self.importer.function_parameters[name]
paul@144 2219
        locals = self.importer.function_locals[name].keys()
paul@113 2220
        names = []
paul@670 2221
        volatile_names = []
paul@113 2222
paul@113 2223
        for n in locals:
paul@113 2224
paul@113 2225
            # Filter out special names and parameters. Note that self is a local
paul@113 2226
            # regardless of whether it originally appeared in the parameters or
paul@113 2227
            # not.
paul@113 2228
paul@113 2229
            if n.startswith("$l") or n in parameters or n == "self":
paul@113 2230
                continue
paul@670 2231
            if n in self.volatile_locals:
paul@976 2232
                volatile_names.append("%s = __NULL" % encode_path(n))
paul@670 2233
            else:
paul@976 2234
                names.append("%s = __NULL" % encode_path(n))
paul@113 2235
paul@673 2236
        # Emit required local names at the function indentation level.
paul@673 2237
paul@673 2238
        self.indent += 1
paul@113 2239
paul@113 2240
        if names:
paul@113 2241
            names.sort()
paul@113 2242
            self.writeline("__attr %s;" % ", ".join(names))
paul@113 2243
paul@670 2244
        if volatile_names:
paul@670 2245
            volatile_names.sort()
paul@670 2246
            self.writeline("volatile __attr %s;" % ", ".join(volatile_names))
paul@670 2247
paul@670 2248
        self.flush_unit(name, out)
paul@672 2249
paul@672 2250
        self.indent -= 1
paul@672 2251
        print >>self.out, "}"
paul@144 2252
        print >>self.out
paul@144 2253
paul@664 2254
    def write_parameters(self, name):
paul@664 2255
paul@664 2256
        """
paul@664 2257
        For the function having the given 'name', write definitions of
paul@664 2258
        parameters found in the arguments array.
paul@664 2259
        """
paul@664 2260
paul@664 2261
        # Generate any self reference.
paul@664 2262
paul@664 2263
        l = []
paul@971 2264
        l.append("__attr __result")
paul@664 2265
paul@664 2266
        if self.is_method(name):
paul@664 2267
            l.append("__attr self")
paul@664 2268
        else:
paul@664 2269
            l.append("__attr __self")
paul@664 2270
paul@664 2271
        # Generate aliases for the parameters.
paul@664 2272
paul@664 2273
        for parameter in self.importer.function_parameters[name]:
paul@673 2274
            l.append("%s__attr %s" % (
paul@673 2275
                parameter in self.volatile_locals and "volatile " or "",
paul@673 2276
                encode_path(parameter)))
paul@664 2277
paul@664 2278
        self.writeline("__attr %s(%s)" % (
paul@664 2279
            encode_function_pointer(name), ", ".join(l)))
paul@664 2280
paul@482 2281
    def write_temporaries(self, name):
paul@482 2282
paul@482 2283
        "Write temporary storage employed by 'name'."
paul@482 2284
paul@858 2285
        # Provide space for the recorded number of temporary variables.
paul@591 2286
paul@482 2287
        if self.uses_temp(name, "__tmp_targets"):
paul@858 2288
            self.writeline("__attr __tmp_targets[%d];" % self.max_function_target)
paul@828 2289
paul@591 2290
        if self.uses_temp(name, "__tmp_contexts"):
paul@858 2291
            self.writeline("__attr __tmp_contexts[%d];" % self.max_context_index)
paul@858 2292
paul@858 2293
        if self.uses_temp(name, "__tmp_values"):
paul@858 2294
            self.writeline("__attr __tmp_values[%d];" % self.max_accessor_index)
paul@482 2295
paul@989 2296
        if self.uses_temp(name, "__tmp_attr_refs"):
paul@989 2297
            self.writeline("__attr *__tmp_attr_refs[%d];" % self.max_attribute_ref_index)
paul@482 2298
paul@971 2299
        if self.uses_temp(name, "__tmp_results"):
paul@971 2300
            self.writeline("__attr __tmp_results[%d] = {0};" % self.max_result_target)
paul@971 2301
paul@592 2302
        if self.uses_temp(name, "__tmp_private_context"):
paul@757 2303
            self.writeline("__attr __tmp_private_context;")
paul@482 2304
        if self.uses_temp(name, "__tmp_target_value"):
paul@757 2305
            self.writeline("__attr __tmp_target_value;")
paul@482 2306
        if self.uses_temp(name, "__tmp_result"):
paul@482 2307
            self.writeline("__attr __tmp_result;")
paul@479 2308
paul@479 2309
        module = self.importer.get_module(self.name)
paul@482 2310
paul@482 2311
        if name in module.exception_namespaces:
paul@479 2312
            self.writeline("__exc __tmp_exc;")
paul@149 2313
paul@631 2314
    def start_if(self, first, test_ref):
paul@629 2315
        statement = "%sif" % (not first and "else " or "")
paul@629 2316
paul@629 2317
        # Consume logical results directly.
paul@629 2318
paul@629 2319
        if isinstance(test_ref, LogicalResult):
paul@631 2320
            self.writeline("%s %s" % (statement, test_ref.apply_test()))
paul@637 2321
            temps = test_ref.discards_temporary()
paul@637 2322
            if temps:
paul@637 2323
                self.remove_temps(temps)
paul@629 2324
        else:
paul@631 2325
            self.writeline("%s (__BOOL(%s))" % (statement, test_ref))
paul@629 2326
paul@113 2327
        self.writeline("{")
paul@113 2328
        self.indent += 1
paul@113 2329
paul@113 2330
    def end_if(self):
paul@113 2331
        self.indent -= 1
paul@113 2332
        self.writeline("}")
paul@113 2333
paul@113 2334
    def start_else(self):
paul@113 2335
        self.writeline("else")
paul@113 2336
        self.writeline("{")
paul@113 2337
        self.indent += 1
paul@113 2338
paul@113 2339
    def end_else(self):
paul@113 2340
        self.indent -= 1
paul@113 2341
        self.writeline("}")
paul@113 2342
paul@113 2343
    def statement(self, expr):
paul@113 2344
        s = str(expr)
paul@113 2345
        if s:
paul@128 2346
            self.writestmt("%s;" % s)
paul@113 2347
paul@113 2348
    def statements(self, results):
paul@113 2349
        for result in results:
paul@113 2350
            self.statement(result)
paul@113 2351
paul@159 2352
    def writeline(self, s):
paul@159 2353
        print >>self.out, "%s%s" % (self.pad(), self.indenttext(s, self.indent + 1))
paul@159 2354
paul@159 2355
    def writestmt(self, s):
paul@159 2356
        self.writeline(s)
paul@159 2357
paul@159 2358
    def write_comment(self, s):
paul@159 2359
        self.writestmt("/* %s */" % s)
paul@159 2360
paul@113 2361
    def pad(self, extra=0):
paul@113 2362
        return (self.indent + extra) * self.tabstop
paul@113 2363
paul@113 2364
    def indenttext(self, s, levels):
paul@116 2365
        lines = s.split("\n")
paul@116 2366
        out = [lines[0]]
paul@116 2367
        for line in lines[1:]:
paul@116 2368
            out.append(levels * self.tabstop + line)
paul@116 2369
            if line.endswith("("):
paul@116 2370
                levels += 1
paul@122 2371
            elif line.startswith(")"):
paul@116 2372
                levels -= 1
paul@116 2373
        return "\n".join(out)
paul@113 2374
paul@113 2375
# vim: tabstop=4 expandtab shiftwidth=4