352 lines
11 KiB
Python
352 lines
11 KiB
Python
"""
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Comparison utilities for STIX pattern comparison expressions.
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"""
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import base64
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import functools
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from stix2.patterns import (
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_ComparisonExpression, AndBooleanExpression, OrBooleanExpression,
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ListObjectPathComponent, IntegerConstant, FloatConstant, StringConstant,
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BooleanConstant, TimestampConstant, HexConstant, BinaryConstant,
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ListConstant
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)
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from stix2.equivalence.patterns.compare import generic_cmp, iter_lex_cmp
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_COMPARISON_OP_ORDER = (
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"=", "!=", "<>", "<", "<=", ">", ">=",
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"IN", "LIKE", "MATCHES", "ISSUBSET", "ISSUPERSET"
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)
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_CONSTANT_TYPE_ORDER = (
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# ints/floats come first, but have special handling since the types are
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# treated equally as a generic "number" type. So they aren't in this list.
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# See constant_cmp().
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StringConstant, BooleanConstant,
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TimestampConstant, HexConstant, BinaryConstant, ListConstant
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)
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def generic_constant_cmp(const1, const2):
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"""
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Generic comparator for most _Constant instances. They must have a "value"
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attribute whose value supports the builtin comparison operators.
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:param const1: The first _Constant instance
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:param const2: The second _Constant instance
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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return generic_cmp(const1.value, const2.value)
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def bool_cmp(value1, value2):
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"""
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Compare two boolean constants.
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:param value1: The first BooleanConstant instance
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:param value2: The second BooleanConstant instance
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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# unwrap from _Constant instances
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value1 = value1.value
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value2 = value2.value
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if (value1 and value2) or (not value1 and not value2):
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result = 0
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# Let's say... True < False?
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elif value1:
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result = -1
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else:
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result = 1
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return result
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def hex_cmp(value1, value2):
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"""
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Compare two STIX "hex" values. This decodes to bytes and compares that.
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It does *not* do a string compare on the hex representations.
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:param value1: The first HexConstant
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:param value2: The second HexConstant
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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bytes1 = bytes.fromhex(value1.value)
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bytes2 = bytes.fromhex(value2.value)
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return generic_cmp(bytes1, bytes2)
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def bin_cmp(value1, value2):
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"""
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Compare two STIX "binary" values. This decodes to bytes and compares that.
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It does *not* do a string compare on the base64 representations.
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:param value1: The first BinaryConstant
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:param value2: The second BinaryConstant
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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bytes1 = base64.standard_b64decode(value1.value)
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bytes2 = base64.standard_b64decode(value2.value)
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return generic_cmp(bytes1, bytes2)
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def list_cmp(value1, value2):
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"""
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Compare lists order-insensitively.
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:param value1: The first ListConstant
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:param value2: The second ListConstant
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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# Achieve order-independence by sorting the lists first.
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sorted_value1 = sorted(
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value1.value, key=functools.cmp_to_key(constant_cmp)
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)
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sorted_value2 = sorted(
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value2.value, key=functools.cmp_to_key(constant_cmp)
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)
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result = iter_lex_cmp(sorted_value1, sorted_value2, constant_cmp)
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return result
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_CONSTANT_COMPARATORS = {
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# We have special handling for ints/floats, so no entries for those AST
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# classes here. See constant_cmp().
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StringConstant: generic_constant_cmp,
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BooleanConstant: bool_cmp,
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TimestampConstant: generic_constant_cmp,
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HexConstant: hex_cmp,
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BinaryConstant: bin_cmp,
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ListConstant: list_cmp
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}
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def object_path_component_cmp(comp1, comp2):
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"""
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Compare a string/int to another string/int; this induces an ordering over
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all strings and ints. It is used to perform a lexicographical sort on
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object paths.
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Ints and strings compare as usual to each other; ints compare less than
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strings.
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:param comp1: An object path component (string or int)
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:param comp2: An object path component (string or int)
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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# both ints or both strings: use builtin comparison operators
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if (isinstance(comp1, int) and isinstance(comp2, int)) \
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or (isinstance(comp1, str) and isinstance(comp2, str)):
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result = generic_cmp(comp1, comp2)
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# one is int, one is string. Let's say ints come before strings.
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elif isinstance(comp1, int):
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result = -1
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else:
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result = 1
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return result
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def object_path_to_raw_values(path):
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"""
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Converts the given ObjectPath instance to a list of strings and ints.
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All property names become strings, regardless of whether they're *_ref
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properties; "*" index steps become that string; and numeric index steps
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become integers.
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:param path: An ObjectPath instance
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:return: A generator iterator over the values
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"""
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for comp in path.property_path:
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if isinstance(comp, ListObjectPathComponent):
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yield comp.property_name
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if comp.index == "*" or isinstance(comp.index, int):
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yield comp.index
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else:
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# in case the index is a stringified int; convert to an actual
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# int
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yield int(comp.index)
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else:
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yield comp.property_name
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def object_path_cmp(path1, path2):
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"""
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Compare two object paths.
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:param path1: The first ObjectPath instance
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:param path2: The second ObjectPath instance
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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if path1.object_type_name < path2.object_type_name:
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result = -1
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elif path1.object_type_name > path2.object_type_name:
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result = 1
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else:
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# I always thought of key and index path steps as separate. The AST
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# lumps indices in with the previous key as a single path component.
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# The following splits the path components into individual comparable
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# values again. Maybe I should not do this...
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path_vals1 = object_path_to_raw_values(path1)
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path_vals2 = object_path_to_raw_values(path2)
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result = iter_lex_cmp(
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path_vals1, path_vals2, object_path_component_cmp
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)
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return result
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def comparison_operator_cmp(op1, op2):
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"""
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Compare two comparison operators.
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:param op1: The first comparison operator (a string)
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:param op2: The second comparison operator (a string)
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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op1_idx = _COMPARISON_OP_ORDER.index(op1)
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op2_idx = _COMPARISON_OP_ORDER.index(op2)
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result = generic_cmp(op1_idx, op2_idx)
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return result
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def constant_cmp(value1, value2):
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"""
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Compare two constants.
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:param value1: The first _Constant instance
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:param value2: The second _Constant instance
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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# Special handling for ints/floats: treat them generically as numbers,
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# ordered before all other types.
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if isinstance(value1, (IntegerConstant, FloatConstant)) \
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and isinstance(value2, (IntegerConstant, FloatConstant)):
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result = generic_constant_cmp(value1, value2)
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elif isinstance(value1, (IntegerConstant, FloatConstant)):
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result = -1
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elif isinstance(value2, (IntegerConstant, FloatConstant)):
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result = 1
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else:
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type1 = type(value1)
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type2 = type(value2)
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type1_idx = _CONSTANT_TYPE_ORDER.index(type1)
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type2_idx = _CONSTANT_TYPE_ORDER.index(type2)
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result = generic_cmp(type1_idx, type2_idx)
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if result == 0:
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# Types are the same; must compare values
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cmp_func = _CONSTANT_COMPARATORS.get(type1)
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if not cmp_func:
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raise TypeError("Don't know how to compare " + type1.__name__)
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result = cmp_func(value1, value2)
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return result
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def simple_comparison_expression_cmp(expr1, expr2):
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"""
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Compare "simple" comparison expressions: those which aren't AND/OR
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combinations, just <path> <op> <value> comparisons.
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:param expr1: first _ComparisonExpression instance
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:param expr2: second _ComparisonExpression instance
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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result = object_path_cmp(expr1.lhs, expr2.lhs)
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if result == 0:
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result = comparison_operator_cmp(expr1.operator, expr2.operator)
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if result == 0:
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# _ComparisonExpression's have a "negated" attribute. Umm...
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# non-negated < negated?
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if not expr1.negated and expr2.negated:
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result = -1
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elif expr1.negated and not expr2.negated:
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result = 1
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if result == 0:
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result = constant_cmp(expr1.rhs, expr2.rhs)
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return result
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def comparison_expression_cmp(expr1, expr2):
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"""
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Compare two comparison expressions. This is sensitive to the order of the
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expressions' sub-components. To achieve an order-insensitive comparison,
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the ASTs must be canonically ordered first.
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:param expr1: The first comparison expression
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:param expr2: The second comparison expression
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:return: <0, 0, or >0 depending on whether the first arg is less, equal or
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greater than the second
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"""
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if isinstance(expr1, _ComparisonExpression) \
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and isinstance(expr2, _ComparisonExpression):
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result = simple_comparison_expression_cmp(expr1, expr2)
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# One is simple, one is compound. Let's say... simple ones come first?
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elif isinstance(expr1, _ComparisonExpression):
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result = -1
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elif isinstance(expr2, _ComparisonExpression):
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result = 1
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# Both are compound: AND's before OR's?
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elif isinstance(expr1, AndBooleanExpression) \
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and isinstance(expr2, OrBooleanExpression):
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result = -1
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elif isinstance(expr1, OrBooleanExpression) \
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and isinstance(expr2, AndBooleanExpression):
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result = 1
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else:
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# Both compound, same boolean operator: sort according to contents.
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# This will order according to recursive invocations of this comparator,
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# on sub-expressions.
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result = iter_lex_cmp(
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expr1.operands, expr2.operands, comparison_expression_cmp
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)
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return result
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