2020-04-22 19:29:27 -03:00
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import contextlib
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from abc import abstractmethod
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from typing import AbstractSet, Dict, IO, Iterator, List, Optional, Set, Text, Tuple
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from pegen import sccutils
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from pegen.grammar import (
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Grammar,
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Rule,
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Rhs,
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Alt,
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NamedItem,
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Plain,
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NameLeaf,
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Gather,
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)
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from pegen.grammar import GrammarError, GrammarVisitor
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class RuleCheckingVisitor(GrammarVisitor):
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def __init__(self, rules: Dict[str, Rule], tokens: Dict[int, str]):
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self.rules = rules
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self.tokens = tokens
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def visit_NameLeaf(self, node: NameLeaf) -> None:
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if node.value not in self.rules and node.value not in self.tokens.values():
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# TODO: Add line/col info to (leaf) nodes
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raise GrammarError(f"Dangling reference to rule {node.value!r}")
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def visit_NamedItem(self, node: NamedItem) -> None:
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if node.name and node.name.startswith("_"):
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raise GrammarError(f"Variable names cannot start with underscore: '{node.name}'")
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self.visit(node.item)
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class ParserGenerator:
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callmakervisitor: GrammarVisitor
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def __init__(self, grammar: Grammar, tokens: Dict[int, str], file: Optional[IO[Text]]):
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self.grammar = grammar
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self.tokens = tokens
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self.rules = grammar.rules
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self.validate_rule_names()
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if "trailer" not in grammar.metas and "start" not in self.rules:
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raise GrammarError("Grammar without a trailer must have a 'start' rule")
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checker = RuleCheckingVisitor(self.rules, self.tokens)
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for rule in self.rules.values():
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checker.visit(rule)
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self.file = file
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self.level = 0
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compute_nullables(self.rules)
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self.first_graph, self.first_sccs = compute_left_recursives(self.rules)
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self.todo = self.rules.copy() # Rules to generate
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self.counter = 0 # For name_rule()/name_loop()
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self.keyword_counter = 499 # For keyword_type()
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self.all_rules: Dict[str, Rule] = {} # Rules + temporal rules
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self._local_variable_stack: List[List[str]] = []
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def validate_rule_names(self) -> None:
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for rule in self.rules:
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if rule.startswith("_"):
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raise GrammarError(f"Rule names cannot start with underscore: '{rule}'")
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@contextlib.contextmanager
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def local_variable_context(self) -> Iterator[None]:
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self._local_variable_stack.append([])
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yield
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self._local_variable_stack.pop()
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@property
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def local_variable_names(self) -> List[str]:
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return self._local_variable_stack[-1]
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@abstractmethod
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def generate(self, filename: str) -> None:
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raise NotImplementedError
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@contextlib.contextmanager
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def indent(self) -> Iterator[None]:
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self.level += 1
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try:
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yield
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finally:
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self.level -= 1
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def print(self, *args: object) -> None:
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if not args:
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print(file=self.file)
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else:
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print(" " * self.level, end="", file=self.file)
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print(*args, file=self.file)
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def printblock(self, lines: str) -> None:
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for line in lines.splitlines():
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self.print(line)
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def collect_todo(self) -> None:
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done: Set[str] = set()
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while True:
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alltodo = list(self.todo)
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self.all_rules.update(self.todo)
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todo = [i for i in alltodo if i not in done]
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if not todo:
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break
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for rulename in todo:
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self.todo[rulename].collect_todo(self)
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done = set(alltodo)
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def keyword_type(self) -> int:
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self.keyword_counter += 1
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return self.keyword_counter
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def name_node(self, rhs: Rhs) -> str:
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self.counter += 1
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name = f"_tmp_{self.counter}" # TODO: Pick a nicer name.
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self.todo[name] = Rule(name, None, rhs)
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return name
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def name_loop(self, node: Plain, is_repeat1: bool) -> str:
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self.counter += 1
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if is_repeat1:
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prefix = "_loop1_"
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else:
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prefix = "_loop0_"
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name = f"{prefix}{self.counter}" # TODO: It's ugly to signal via the name.
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self.todo[name] = Rule(name, None, Rhs([Alt([NamedItem(None, node)])]))
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return name
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def name_gather(self, node: Gather) -> str:
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self.counter += 1
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name = f"_gather_{self.counter}"
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self.counter += 1
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extra_function_name = f"_loop0_{self.counter}"
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extra_function_alt = Alt(
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[NamedItem(None, node.separator), NamedItem("elem", node.node)], action="elem",
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)
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self.todo[extra_function_name] = Rule(
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extra_function_name, None, Rhs([extra_function_alt]),
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)
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alt = Alt([NamedItem("elem", node.node), NamedItem("seq", NameLeaf(extra_function_name))],)
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self.todo[name] = Rule(name, None, Rhs([alt]),)
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return name
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def dedupe(self, name: str) -> str:
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origname = name
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counter = 0
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while name in self.local_variable_names:
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counter += 1
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name = f"{origname}_{counter}"
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self.local_variable_names.append(name)
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return name
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def compute_nullables(rules: Dict[str, Rule]) -> None:
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"""Compute which rules in a grammar are nullable.
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Thanks to TatSu (tatsu/leftrec.py) for inspiration.
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"""
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for rule in rules.values():
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rule.nullable_visit(rules)
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def compute_left_recursives(
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rules: Dict[str, Rule]
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) -> Tuple[Dict[str, AbstractSet[str]], List[AbstractSet[str]]]:
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graph = make_first_graph(rules)
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sccs = list(sccutils.strongly_connected_components(graph.keys(), graph))
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for scc in sccs:
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if len(scc) > 1:
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for name in scc:
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rules[name].left_recursive = True
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# Try to find a leader such that all cycles go through it.
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leaders = set(scc)
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for start in scc:
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for cycle in sccutils.find_cycles_in_scc(graph, scc, start):
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# print("Cycle:", " -> ".join(cycle))
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leaders -= scc - set(cycle)
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if not leaders:
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raise ValueError(
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f"SCC {scc} has no leadership candidate (no element is included in all cycles)"
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)
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# print("Leaders:", leaders)
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leader = min(leaders) # Pick an arbitrary leader from the candidates.
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rules[leader].leader = True
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else:
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name = min(scc) # The only element.
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if name in graph[name]:
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rules[name].left_recursive = True
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rules[name].leader = True
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return graph, sccs
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def make_first_graph(rules: Dict[str, Rule]) -> Dict[str, AbstractSet[str]]:
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"""Compute the graph of left-invocations.
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There's an edge from A to B if A may invoke B at its initial
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position.
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Note that this requires the nullable flags to have been computed.
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"""
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graph = {}
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vertices: Set[str] = set()
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for rulename, rhs in rules.items():
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graph[rulename] = names = rhs.initial_names()
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vertices |= names
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for vertex in vertices:
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graph.setdefault(vertex, set())
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return graph
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