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Added ability to parse necessitation
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4 changed files with 154 additions and 9 deletions
27
examples/R3-PN
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27
examples/R3-PN
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1 1 1 1 1 1 1 0
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-1
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1
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1 0
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1 1 0 1
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0 1
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1 1 0 1 0 1
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1 1
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-1
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-1
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-1
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2
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2 1 0
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1 1 1 0 1 1 0 0 1
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0 1 1
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2 2 2 0 1 2 0 0 2 0 1 1
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1 1 1
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0 1 2
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0 2 2
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2 2 2
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-1
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-1
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-1
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-1
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@ -9,3 +9,13 @@ Contains all models of R up to size 6.
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## R4-MN
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Contains all models of a fragment of R without negation up to size 4.
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## R3-PN
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Extends R to have necessitation with the following additional axioms:
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1) p / !p
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2) !(p -> q) -> (!p -> !q)
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3) (!p & !q) -> !(p & q)
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Output contains all satisfiable models up to size 3.
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1
logic.py
1
logic.py
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@ -66,6 +66,7 @@ Negation = Operation("¬", 1)
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Conjunction = Operation("∧", 2)
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Disjunction = Operation("∨", 2)
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Implication = Operation("→", 2)
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Necessitation = Operation("!", 1)
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class Inequation:
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def __init__(self, antecedant : Term, consequent: Term):
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115
parse_magic.py
115
parse_magic.py
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@ -12,6 +12,7 @@ from logic import (
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Implication,
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Conjunction,
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Negation,
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Necessitation,
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Disjunction
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)
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from vsp import has_vsp
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@ -44,6 +45,8 @@ class ModelBuilder:
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self.designated_values: Set[ModelValue] = set()
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self.num_implication: int = 0
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self.mimplication: Optional[ModelFunction] = None
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self.num_necessitation: int = 0
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self.mnecessitation: Optional[ModelFunction] = None
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def parse_matrices(infile: SourceFile) -> List[Tuple[Model, Dict]]:
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solutions = [] # Reset
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@ -54,10 +57,22 @@ def parse_matrices(infile: SourceFile) -> List[Tuple[Model, Dict]]:
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def process_sizes(infile: SourceFile, header: UglyHeader, current_model_parts: ModelBuilder, solutions: List[Tuple[Model, Dict]]):
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"""Stage 1"""
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# NOTE: In R3-PN the first size line is -1?
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if header.necessitation:
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next(infile)
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while True:
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print("Processing next size")
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try:
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size = parse_size(infile)
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except StopIteration:
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# For some reason, when necessitation is enabled this doesn't
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# have a -1 on the last line
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break
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if size is None:
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break
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carrier_set = carrier_set_from_size(size)
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current_model_parts.size = size
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current_model_parts.carrier_set = carrier_set
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@ -67,6 +82,7 @@ def process_negations(infile: SourceFile, header: UglyHeader, current_model_part
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"""Stage 2 (Optional)"""
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num_negation = 0
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while True:
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print("Processing next negation")
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mnegation = None
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if header.negation:
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mnegation = parse_single_negation(infile, current_model_parts.size)
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@ -86,6 +102,7 @@ def process_orders(infile: SourceFile, header: UglyHeader, current_model_parts:
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"""Stage 3"""
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num_order = 0
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while True:
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print("Processing next order")
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result = parse_single_order(infile, current_model_parts.size)
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if result is None:
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break
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@ -100,6 +117,7 @@ def process_designateds(infile: SourceFile, header: UglyHeader, current_model_pa
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"""Stage 4"""
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num_designated = 0
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while True:
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print("Processing next designated")
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designated_values = parse_single_designated(infile, current_model_parts.size)
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if designated_values is None:
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break
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@ -111,19 +129,54 @@ def process_designateds(infile: SourceFile, header: UglyHeader, current_model_pa
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def process_implications(
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infile: SourceFile, header: UglyHeader, current_model_parts: ModelBuilder, solutions: List[Tuple[Model, Dict]]):
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"""Stage 5"""
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if header.necessitation:
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num_implication = 0
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while True:
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print("Processing next implication")
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instr = next(infile).strip()
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mimplication, reststr = parse_single_implication(instr, infile.current_line, current_model_parts.size)
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if mimplication is None:
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break
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num_implication += 1
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current_model_parts.num_implication = num_implication
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current_model_parts.mimplication = mimplication
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process_necessitations(infile, reststr, header, current_model_parts, solutions)
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else:
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results = parse_implications(infile, current_model_parts.size)
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for num_implication, mimplication in enumerate(results, 1):
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current_model_parts.num_implication = num_implication
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current_model_parts.mimplication = mimplication
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process_model(current_model_parts, solutions)
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def process_necessitations(infile: SourceFile, instr: str, header: UglyHeader, current_model_parts: ModelBuilder, solutions: List[Tuple[Model, Dict]]):
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# NOTE: For some reason, one necessitation table will be on the same line as the implication table
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mnecessitation = parse_single_necessitation_from_str(instr, infile.current_line, current_model_parts.size)
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assert mnecessitation is not None, f"Expected Necessitation Table at line {infile.current_line}"
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num_necessitation = 1
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current_model_parts.num_necessitation = num_necessitation
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current_model_parts.mnecessitation = mnecessitation
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process_model(current_model_parts, solutions)
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while True:
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print("Processing next necessitation")
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mnecessitation = parse_single_necessitation(infile, current_model_parts.size)
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if mnecessitation is None:
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break
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num_necessitation += 1
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current_model_parts.num_necessitation = num_necessitation
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current_model_parts.mnecessitation = mnecessitation
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process_model(current_model_parts, solutions)
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def process_model(mp: ModelBuilder, solutions: List[Tuple[Model, Dict]]):
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"""Create Model"""
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assert mp.mimplication is not None
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assert len(mp.carrier_set) > 0
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logical_operations = { mp.mimplication }
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model_name = f"{mp.size}{'.' + str(mp.num_negation) if mp.num_negation != 0 else ''}.{mp.num_order}.{mp.num_designated}.{mp.num_implication}"
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model_name = f"{mp.size}{'.' + str(mp.num_negation) if mp.num_negation != 0 else ''}.{mp.num_order}.{mp.num_designated}.{mp.num_implication}{'.' + str(mp.num_necessitation) if mp.num_necessitation != 0 else ''}"
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model = Model(mp.carrier_set, logical_operations, mp.designated_values, name=model_name)
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interpretation = {
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Implication: mp.mimplication
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@ -137,6 +190,9 @@ def process_model(mp: ModelBuilder, solutions: List[Tuple[Model, Dict]]):
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if mp.mdisjunction is not None:
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logical_operations.add(mp.mdisjunction)
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interpretation[Disjunction] = mp.mdisjunction
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if mp.mnecessitation is not None:
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logical_operations.add(mp.mnecessitation)
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interpretation[Necessitation] = mp.mnecessitation
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solutions.append((model, interpretation))
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print(f"Parsed Matrix {model.name}")
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@ -254,7 +310,7 @@ def determine_dresult(size: int, ordering: Dict[ModelValue, ModelValue], a: Mode
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if not invalid:
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return c
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def parse_single_order(infile: TextIO, size: int) -> Optional[Tuple[ModelFunction, ModelFunction]]:
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def parse_single_order(infile: SourceFile, size: int) -> Optional[Tuple[ModelFunction, ModelFunction]]:
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"""
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Parse the line representing the ordering table
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"""
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@ -305,7 +361,7 @@ def parse_single_order(infile: TextIO, size: int) -> Optional[Tuple[ModelFunctio
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return mconjunction, mdisjunction
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def parse_single_designated(infile: TextIO, size: int) -> Optional[Set[ModelValue]]:
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def parse_single_designated(infile: SourceFile, size: int) -> Optional[Set[ModelValue]]:
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"""
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Parse the line representing which model values are designated.
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"""
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@ -326,7 +382,36 @@ def parse_single_designated(infile: TextIO, size: int) -> Optional[Set[ModelValu
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return designated_values
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def parse_implications(infile: TextIO, size: int) -> List[ModelFunction]:
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def parse_single_implication(instr: str, line: int, size: int) -> Tuple[ModelFunction, str]:
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"""
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Take the current string, parse an implication table from it,
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and return along with it the remainder of the string
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"""
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if instr == "-1":
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return None, ""
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table = instr.split(" ")
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assert len(table) >= (size + 1)**2, f"Implication table does not match expected size at line {line}"
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mapping = {}
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table_i = 0
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for i in range(size + 1):
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x = mvalue_from_index(i)
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for j in range(size + 1):
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y = mvalue_from_index(j)
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r = parse_mvalue(table[table_i])
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table_i += 1
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mapping[(x, y)] = r
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mimplication = ModelFunction(2, mapping, "→")
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reststr = " ".join(table[(size + 1)**2:])
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return mimplication, reststr
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def parse_implications(infile: SourceFile, size: int) -> List[ModelFunction]:
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"""
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Parse the line representing the list of implication
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tables.
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@ -359,6 +444,28 @@ def parse_implications(infile: TextIO, size: int) -> List[ModelFunction]:
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return mimplications
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def parse_single_necessitation_from_str(instr: str, line: int, size: int) -> Optional[ModelFunction]:
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"""
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Parse the line representing the necessitation table.
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"""
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if instr == "-1":
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return None
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row = instr.split(" ")
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assert len(row) == size + 1, f"Necessitation table doesn't match size at line {line}"
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mapping = {}
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for i, j in zip(range(size + 1), row):
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x = mvalue_from_index(i)
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y = parse_mvalue(j)
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mapping[(x, )] = y
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return ModelFunction(1, mapping, "!")
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def parse_single_necessitation(infile: SourceFile, size: int) -> Optional[ModelFunction]:
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line = next(infile).strip()
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return parse_single_necessitation_from_str(line, infile.current_line, size)
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(description="VSP Checker")
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