Lichen

Annotated encoders.py

335:9e4234566d99
2016-12-06 Paul Boddie Properly fixed the buffer allocation.
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#!/usr/bin/env python
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"""
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Encoder functions, producing representations of program objects.
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Copyright (C) 2016 Paul Boddie <paul@boddie.org.uk>
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This program is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free Software
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Foundation; either version 3 of the License, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but WITHOUT
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ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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FOR A PARTICULAR PURPOSE.  See the GNU General Public License for more
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details.
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You should have received a copy of the GNU General Public License along with
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this program.  If not, see <http://www.gnu.org/licenses/>.
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"""
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from common import first
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# Output encoding and decoding for the summary files.
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def encode_attrnames(attrnames):
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    "Encode the 'attrnames' representing usage."
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    return ", ".join(attrnames) or "{}"
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def encode_constrained(constrained):
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    "Encode the 'constrained' status for program summaries."
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    return constrained and "constrained" or "deduced"
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def encode_usage(usage):
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    "Encode attribute details from 'usage'."
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    all_attrnames = []
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    for t in usage:
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        attrname, invocation, assignment = t
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        all_attrnames.append("%s%s" % (attrname, invocation and "!" or assignment and "=" or ""))
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    return ", ".join(all_attrnames) or "{}"
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def decode_usage(s):
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    "Decode attribute details from 's'."
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    all_attrnames = set()
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    for attrname_str in s.split(", "):
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        all_attrnames.add((attrname_str.rstrip("!="), attrname_str.endswith("!"), attrname_str.endswith("=")))
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    all_attrnames = list(all_attrnames)
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    all_attrnames.sort()
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    return tuple(all_attrnames)
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def encode_access_location(t):
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    "Encode the access location 't'."
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    path, name, attrname, version = t
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    return "%s %s %s:%d" % (path, name or "{}", attrname, version)
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def encode_location(t):
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    "Encode the general location 't' in a concise form."
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    path, name, attrname, version = t
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    if name is not None and version is not None:
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        return "%s %s:%d" % (path, name, version)
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    elif name is not None:
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        return "%s %s" % (path, name)
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    else:
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        return "%s :%s" % (path, attrname)
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def encode_modifiers(modifiers):
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    "Encode assignment details from 'modifiers'."
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    all_modifiers = []
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    for t in modifiers:
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        all_modifiers.append(encode_modifier_term(t))
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    return "".join(all_modifiers)
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def encode_modifier_term(t):
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    "Encode modifier 't' representing assignment status."
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    assignment, invocation = t
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    return assignment and "=" or invocation and "!" or "_"
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def decode_modifier_term(s):
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    "Decode modifier term 's' representing assignment status."
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    return (s == "=", s == "!")
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# Test generation functions.
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def get_kinds(all_types):
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    """ 
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    Return object kind details for 'all_types', being a collection of
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    references for program types.
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    """
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    return map(lambda ref: ref.get_kind(), all_types)
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def test_label_for_kind(kind):
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    "Return the label used for 'kind' in test details."
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    return kind == "<instance>" and "instance" or "type"
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def test_label_for_type(ref):
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    "Return the label used for 'ref' in test details."
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    return test_label_for_kind(ref.get_kind())
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# Instruction representation encoding.
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def encode_instruction(instruction):
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    """
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    Encode the 'instruction' - a sequence starting with an operation and
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    followed by arguments, each of which may be an instruction sequence or a
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    plain value - to produce a function call string representation.
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    """
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    op = instruction[0]
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    args = instruction[1:]
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    if args:
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        a = []
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        for arg in args:
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            if isinstance(arg, tuple):
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                a.append(encode_instruction(arg))
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            else:
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                a.append(arg or "{}")
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        argstr = "(%s)" % ", ".join(a)
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        return "%s%s" % (op, argstr)
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    else:
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        return op
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# Output program encoding.
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attribute_loading_ops = (
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    "__load_via_class", "__load_via_object", "__get_class_and_load",
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    )
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attribute_ops = attribute_loading_ops + (
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    "__store_via_object",
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    )
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checked_loading_ops = (
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    "__check_and_load_via_class", "__check_and_load_via_object", "__check_and_load_via_any",
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    )
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checked_ops = checked_loading_ops + (
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    "__check_and_store_via_class", "__check_and_store_via_object", "__check_and_store_via_any",
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    )
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typename_ops = (
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    "__test_common_instance", "__test_common_object", "__test_common_type",
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    )
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static_ops = (
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    "__load_static",
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    )
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reference_acting_ops = attribute_ops + checked_ops + typename_ops
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attribute_producing_ops = attribute_loading_ops + checked_loading_ops
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def encode_access_instruction(instruction, subs):
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    """
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    Encode the 'instruction' - a sequence starting with an operation and
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    followed by arguments, each of which may be an instruction sequence or a
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    plain value - to produce a function call string representation.
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    The 'subs' parameter defines a mapping of substitutions for special values
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    used in instructions.
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    """
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    op = instruction[0]
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    args = instruction[1:]
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    if not args:
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        argstr = ""
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    else:
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        # Encode the arguments.
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        a = []
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        converting_op = op
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        for arg in args:
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            a.append(encode_access_instruction_arg(arg, subs, converting_op))
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            converting_op = None
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        # Modify certain arguments.
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        # Convert attribute name arguments to position symbols.
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        if op in attribute_ops:
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            arg = a[1]
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            a[1] = encode_symbol("pos", arg)
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        # Convert attribute name arguments to position and code symbols.
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        elif op in checked_ops:
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            arg = a[1]
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            a[1] = encode_symbol("pos", arg)
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            a.insert(2, encode_symbol("code", arg))
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        # Convert type name arguments to position and code symbols.
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        elif op in typename_ops:
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            arg = encode_type_attribute(a[1])
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            a[1] = encode_symbol("pos", arg)
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            a.insert(2, encode_symbol("code", arg))
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        # Obtain addresses of static objects.
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        elif op in static_ops:
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            a[0] = "&%s" % a[0]
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            a[1] = "&%s" % a[1]
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        argstr = "(%s)" % ", ".join(a)
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    # Substitute the first element of the instruction, which may not be an
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    # operation at all.
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    if subs.has_key(op):
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        op = subs[op]
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    elif not args:
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        op = "&%s" % encode_path(op)
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    return "%s%s" % (op, argstr)
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def encode_access_instruction_arg(arg, subs, op):
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    "Encode 'arg' using 'subs' to define substitutions."
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    if isinstance(arg, tuple):
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        encoded = encode_access_instruction(arg, subs)
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        # Convert attribute results to references where required.
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        if op and op in reference_acting_ops and arg[0] in attribute_producing_ops:
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            return "%s.value" % encoded
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        else:
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            return encoded
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    # Special values only need replacing, not encoding.
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    elif subs.has_key(arg):
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        return subs.get(arg)
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    # Convert static references to the appropriate type.
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    elif op and op in reference_acting_ops and arg != "<accessor>":
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        return "&%s" % encode_path(arg)
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    # Other values may need encoding.
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    else:
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        return encode_path(arg)
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def encode_bound_reference(path):
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    "Encode 'path' as a bound method name."
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    return "__bound_%s" % encode_path(path)
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def encode_function_pointer(path):
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    "Encode 'path' as a reference to an output program function."
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    return "__fn_%s" % encode_path(path)
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def encode_initialiser_pointer(path):
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    "Encode 'path' as a reference to an initialiser function structure."
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    return encode_path("%s.__init__" % path)
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def encode_instantiator_pointer(path):
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    "Encode 'path' as a reference to an output program instantiator."
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    return "__new_%s" % encode_path(path)
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def encode_literal_constant(n):
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    "Encode a name for the literal constant with the number 'n'."
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    return "__const%d" % n
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def encode_literal_constant_member(value):
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    "Encode the member name for the 'value' in the final program."
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    return "%svalue" % value.__class__.__name__
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def encode_literal_constant_value(value):
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    "Encode the given 'value' in the final program."
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    if isinstance(value, (int, float)):
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        return str(value)
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    else:
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        return '"%s"' % str(value).replace('"', '\\"').replace("\n", "\\n").replace("\t", "\\t").replace("\r", "\\r")
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def encode_literal_data_initialiser(style):
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    """
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    Encode a reference to a function populating the data for a literal having
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    the given 'style' ("mapping" or "sequence").
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    """
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    return "__newdata_%s" % style
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def encode_literal_instantiator(path):
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    """
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    Encode a reference to an instantiator for a literal having the given 'path'.
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    """
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    return "__newliteral_%s" % encode_path(path)
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def encode_literal_reference(n):
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    "Encode a reference to a literal constant with the number 'n'."
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    return "__constvalue%d" % n
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def encode_path(path):
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    "Encode 'path' as an output program object, translating special symbols."
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    if path in reserved_words:
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        return "__%s" % path
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    else:
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        return path.replace("#", "__").replace("$", "__").replace(".", "_")
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def encode_predefined_reference(path):
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    "Encode a reference to a predefined constant value for 'path'."
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    return "__predefined_%s" % encode_path(path)
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def encode_size(kind, path=None):
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    """
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    Encode a structure size reference for the given 'kind' of structure, with
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    'path' indicating a specific structure name.
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    """
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    return "__%ssize%s" % (structure_size_prefixes.get(kind, kind), path and "_%s" % encode_path(path) or "")
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def encode_symbol(symbol_type, path=None):
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    "Encode a symbol with the given 'symbol_type' and optional 'path'."
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    return "__%s%s" % (symbol_type, path and "_%s" % encode_path(path) or "")
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def encode_tablename(kind, path):
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    """
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    Encode a table reference for the given 'kind' of table structure, indicating
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    a 'path' for the specific object concerned.
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    """
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    return "__%sTable_%s" % (table_name_prefixes[kind], encode_path(path))
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def encode_type_attribute(path):
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    "Encode the special type attribute for 'path'."
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    return "#%s" % path
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def decode_type_attribute(s):
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    "Decode the special type attribute 's'."
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    return s[1:]
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def is_type_attribute(s):
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    "Return whether 's' is a type attribute name."
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    return s.startswith("#")
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# A mapping from kinds to structure size reference prefixes.
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structure_size_prefixes = {
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    "<class>" : "c",
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    "<module>" : "m",
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    "<instance>" : "i"
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    }
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# A mapping from kinds to table name prefixes.
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table_name_prefixes = {
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    "<class>" : "Class",
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    "<function>" : "Function",
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    "<module>" : "Module",
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    "<instance>" : "Instance"
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    }
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# Output language reserved words.
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reserved_words = [
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    "break", "char", "const", "continue",
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    "default", "double", "else",
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    "float", "for",
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    "if", "int", "long",
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    "NULL",
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    "return", "struct",
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    "typedef",
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    "void", "while",
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    ]
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# vim: tabstop=4 expandtab shiftwidth=4