mirror of
https://github.com/Brandon-Rozek/matmod.git
synced 2024-12-04 03:42:30 -05:00
138 lines
4.5 KiB
Python
138 lines
4.5 KiB
Python
"""
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Check to see if the model has the variable
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sharing property.
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"""
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from itertools import chain, combinations, product
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from typing import Dict, List, Optional, Set, Tuple
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from common import set_to_str
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from model import (
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Model, model_closure, ModelFunction, ModelValue
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)
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from logic import Implication, Operation
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def preseed(
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initial_set: Set[ModelValue],
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cache:List[Tuple[Set[ModelValue], Set[ModelValue]]]):
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"""
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Given a cache of previous model_closure calls,
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use this to compute an initial model closure
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set based on the initial set.
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Basic Idea:
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Let {1, 2, 3} -> X be in the cache.
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If {1,2,3} is a subset of initial set,
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then X is the subset of the output of model_closure.
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This is used to speed up subsequent calls to model_closure
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"""
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candidate_preseed: Tuple[Set[ModelValue], int] = (None, None)
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for i, o in cache:
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if i < initial_set:
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cost = len(initial_set - i)
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# If i is a subset with less missing elements than
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# the previous candidate, then it's the new candidate.
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if candidate_preseed[1] is None or cost < candidate_preseed[1]:
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candidate_preseed = o, cost
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same_set = candidate_preseed[1] == 0
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return candidate_preseed[0], same_set
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class VSP_Result:
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def __init__(
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self, has_vsp: bool, model_name: Optional[str] = None,
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subalgebra1: Optional[Set[ModelValue]] = None,
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subalgebra2: Optional[Set[ModelValue]] = None):
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self.has_vsp = has_vsp
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self.model_name = model_name
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self.subalgebra1 = subalgebra1
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self.subalgebra2 = subalgebra2
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def __str__(self):
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if not self.has_vsp:
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return f"Model {self.model_name} does not have the variable sharing property."
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return f"""Model {self.model_name} has the variable sharing property.
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Subalgebra 1: {set_to_str(self.subalgebra1)}
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Subalgebra 2: {set_to_str(self.subalgebra2)}
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"""
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def has_vsp(model: Model, interpretation: Dict[Operation, ModelFunction]) -> VSP_Result:
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"""
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Checks whether a model has the variable
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sharing property.
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"""
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impfunction = interpretation[Implication]
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# Compute I the set of tuples (x, y) where
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# x -> y does not take a designiated value
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I: Set[Tuple[ModelValue, ModelValue]] = set()
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for (x, y) in product(model.carrier_set, model.carrier_set):
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if impfunction(x, y) not in model.designated_values:
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I.add((x, y))
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# Construct the powerset of I without the empty set
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s = list(I)
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I_power = chain.from_iterable(combinations(s, r) for r in range(1, len(s) + 1))
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# ((x1, y1)), ((x1, y1), (x2, y2)), ...
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# Closure cache
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closure_cache: List[Tuple[Set[ModelValue], Set[ModelValue]]] = []
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# Find the subalgebras which falsify implication
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for xys in I_power:
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xs = {xy[0] for xy in xys}
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orig_xs = xs
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cached_xs = preseed(xs, closure_cache)
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if cached_xs[0] is not None:
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xs |= cached_xs[0]
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ys = {xy[1] for xy in xys}
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orig_ys = ys
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cached_ys = preseed(ys, closure_cache)
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if cached_ys[0] is not None:
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ys |= cached_ys[0]
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# NOTE: Optimziation before model_closure
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# If the carrier set intersects, then move on to the next
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# subalgebra
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if len(xs & ys) > 0:
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continue
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# Compute the closure of all operations
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# with just the xs
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carrier_set_left: Set[ModelValue] = model_closure(xs, model.logical_operations)
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# Save to cache
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if cached_xs[0] is not None and not cached_ys[1]:
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closure_cache.append((orig_xs, carrier_set_left))
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# Compute the closure of all operations
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# with just the ys
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carrier_set_right: Set[ModelValue] = model_closure(ys, model.logical_operations)
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# Save to cache
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if cached_ys[0] is not None and not cached_ys[1]:
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closure_cache.append((orig_ys, carrier_set_right))
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# If the carrier set intersects, then move on to the next
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# subalgebra
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if len(carrier_set_left & carrier_set_right) > 0:
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continue
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# See if for all pairs in the subalgebras, that
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# implication is falsified
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falsified = True
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for (x2, y2) in product(carrier_set_left, carrier_set_right):
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if impfunction(x2, y2) in model.designated_values:
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falsified = False
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break
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if falsified:
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return VSP_Result(True, model.name, carrier_set_left, carrier_set_right)
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return VSP_Result(False, model.name)
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