229 lines
7.9 KiB
Python
229 lines
7.9 KiB
Python
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# Copyright (c) 2012-2017 The ANTLR Project. All rights reserved.
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# Use of this file is governed by the BSD 3-clause license that
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# can be found in the LICENSE.txt file in the project root.
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#/
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# A rule context is a record of a single rule invocation. It knows
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# which context invoked it, if any. If there is no parent context, then
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# naturally the invoking state is not valid. The parent link
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# provides a chain upwards from the current rule invocation to the root
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# of the invocation tree, forming a stack. We actually carry no
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# information about the rule associated with this context (except
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# when parsing). We keep only the state number of the invoking state from
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# the ATN submachine that invoked this. Contrast this with the s
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# pointer inside ParserRuleContext that tracks the current state
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# being "executed" for the current rule.
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#
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# The parent contexts are useful for computing lookahead sets and
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# getting error information.
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#
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# These objects are used during parsing and prediction.
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# For the special case of parsers, we use the subclass
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# ParserRuleContext.
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#
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# @see ParserRuleContext
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#/
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from io import StringIO
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from antlr4.tree.Tree import RuleNode, INVALID_INTERVAL, ParseTreeVisitor
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from antlr4.tree.Trees import Trees
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# need forward declarations
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RuleContext = None
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Parser = None
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class RuleContext(RuleNode):
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EMPTY = None
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def __init__(self, parent:RuleContext=None, invokingState:int=-1):
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super().__init__()
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# What context invoked this rule?
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self.parentCtx = parent
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# What state invoked the rule associated with this context?
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# The "return address" is the followState of invokingState
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# If parent is null, this should be -1.
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self.invokingState = invokingState
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def depth(self):
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n = 0
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p = self
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while p is not None:
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p = p.parentCtx
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n += 1
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return n
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# A context is empty if there is no invoking state; meaning nobody call
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# current context.
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def isEmpty(self):
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return self.invokingState == -1
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# satisfy the ParseTree / SyntaxTree interface
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def getSourceInterval(self):
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return INVALID_INTERVAL
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def getRuleContext(self):
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return self
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def getPayload(self):
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return self
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# Return the combined text of all child nodes. This method only considers
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# tokens which have been added to the parse tree.
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# <p>
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# Since tokens on hidden channels (e.g. whitespace or comments) are not
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# added to the parse trees, they will not appear in the output of this
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# method.
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#/
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def getText(self):
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if self.getChildCount() == 0:
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return ""
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with StringIO() as builder:
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for child in self.getChildren():
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builder.write(child.getText())
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return builder.getvalue()
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def getRuleIndex(self):
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return -1
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# For rule associated with this parse tree internal node, return
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# the outer alternative number used to match the input. Default
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# implementation does not compute nor store this alt num. Create
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# a subclass of ParserRuleContext with backing field and set
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# option contextSuperClass.
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# to set it.
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def getAltNumber(self):
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return 0 # should use ATN.INVALID_ALT_NUMBER but won't compile
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# Set the outer alternative number for this context node. Default
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# implementation does nothing to avoid backing field overhead for
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# trees that don't need it. Create
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# a subclass of ParserRuleContext with backing field and set
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# option contextSuperClass.
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def setAltNumber(self, altNumber:int):
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pass
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def getChild(self, i:int):
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return None
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def getChildCount(self):
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return 0
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def getChildren(self):
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for c in []:
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yield c
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def accept(self, visitor:ParseTreeVisitor):
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return visitor.visitChildren(self)
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# # Call this method to view a parse tree in a dialog box visually.#/
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# public Future<JDialog> inspect(@Nullable Parser parser) {
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# List<String> ruleNames = parser != null ? Arrays.asList(parser.getRuleNames()) : null;
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# return inspect(ruleNames);
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# }
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#
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# public Future<JDialog> inspect(@Nullable List<String> ruleNames) {
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# TreeViewer viewer = new TreeViewer(ruleNames, this);
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# return viewer.open();
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# }
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#
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# # Save this tree in a postscript file#/
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# public void save(@Nullable Parser parser, String fileName)
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# throws IOException, PrintException
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# {
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# List<String> ruleNames = parser != null ? Arrays.asList(parser.getRuleNames()) : null;
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# save(ruleNames, fileName);
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# }
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#
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# # Save this tree in a postscript file using a particular font name and size#/
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# public void save(@Nullable Parser parser, String fileName,
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# String fontName, int fontSize)
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# throws IOException
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# {
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# List<String> ruleNames = parser != null ? Arrays.asList(parser.getRuleNames()) : null;
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# save(ruleNames, fileName, fontName, fontSize);
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# }
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#
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# # Save this tree in a postscript file#/
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# public void save(@Nullable List<String> ruleNames, String fileName)
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# throws IOException, PrintException
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# {
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# Trees.writePS(this, ruleNames, fileName);
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# }
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#
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# # Save this tree in a postscript file using a particular font name and size#/
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# public void save(@Nullable List<String> ruleNames, String fileName,
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# String fontName, int fontSize)
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# throws IOException
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# {
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# Trees.writePS(this, ruleNames, fileName, fontName, fontSize);
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# }
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#
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# # Print out a whole tree, not just a node, in LISP format
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# # (root child1 .. childN). Print just a node if this is a leaf.
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# # We have to know the recognizer so we can get rule names.
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# #/
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# @Override
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# public String toStringTree(@Nullable Parser recog) {
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# return Trees.toStringTree(this, recog);
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# }
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#
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# Print out a whole tree, not just a node, in LISP format
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# (root child1 .. childN). Print just a node if this is a leaf.
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#
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def toStringTree(self, ruleNames:list=None, recog:Parser=None):
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return Trees.toStringTree(self, ruleNames=ruleNames, recog=recog)
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# }
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#
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# @Override
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# public String toStringTree() {
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# return toStringTree((List<String>)null);
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# }
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#
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def __str__(self):
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return self.toString(None, None)
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# @Override
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# public String toString() {
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# return toString((List<String>)null, (RuleContext)null);
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# }
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#
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# public final String toString(@Nullable Recognizer<?,?> recog) {
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# return toString(recog, ParserRuleContext.EMPTY);
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# }
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#
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# public final String toString(@Nullable List<String> ruleNames) {
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# return toString(ruleNames, null);
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# }
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#
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# // recog null unless ParserRuleContext, in which case we use subclass toString(...)
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# public String toString(@Nullable Recognizer<?,?> recog, @Nullable RuleContext stop) {
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# String[] ruleNames = recog != null ? recog.getRuleNames() : null;
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# List<String> ruleNamesList = ruleNames != null ? Arrays.asList(ruleNames) : null;
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# return toString(ruleNamesList, stop);
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# }
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def toString(self, ruleNames:list, stop:RuleContext)->str:
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with StringIO() as buf:
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p = self
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buf.write("[")
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while p is not None and p is not stop:
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if ruleNames is None:
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if not p.isEmpty():
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buf.write(str(p.invokingState))
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else:
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ri = p.getRuleIndex()
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ruleName = ruleNames[ri] if ri >= 0 and ri < len(ruleNames) else str(ri)
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buf.write(ruleName)
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if p.parentCtx is not None and (ruleNames is not None or not p.parentCtx.isEmpty()):
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buf.write(" ")
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p = p.parentCtx
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buf.write("]")
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return buf.getvalue()
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