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https://github.com/marcin-szczepanski/jFuzzyLogic.git
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251 lines
7.1 KiB
Plaintext
251 lines
7.1 KiB
Plaintext
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/*
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[The "BSD licence"]
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Copyright (c) 2005-2006 Terence Parr
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All rights reserved.
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Redistribution and use in source and binary forms, with or without
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modification, are permitted provided that the following conditions
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are met:
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1. Redistributions of source code must retain the above copyright
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notice, this list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright
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notice, this list of conditions and the following disclaimer in the
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documentation and/or other materials provided with the distribution.
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3. The name of the author may not be used to endorse or promote products
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derived from this software without specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/** Template overrides to add debugging to normal C output;
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* If ASTs are built, then you'll also get ASTDbg.stg loaded.
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*/
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group Dbg;
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@genericParser.members() ::= <<
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<if(grammar.grammarIsRoot)>
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const char *
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ruleNames[] =
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{
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"invalidRule", <grammar.allImportedRules:{rST | "<rST.name>"}; wrap="\n ", separator=", ">
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};<\n>
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<endif>
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<if(grammar.grammarIsRoot)> <! grammar imports other grammar(s) !>
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static ANTLR3_UINT32 ruleLevel = 0;
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static ANTLR3_UINT32 getRuleLevel()
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{
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return ruleLevel;
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}
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static void incRuleLevel()
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{
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ruleLevel++;
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}
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static void decRuleLevel()
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{
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ruleLevel--;
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}
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<else> <! imported grammar !>
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static ANTLR3_UINT32
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getRuleLevel()
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{
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return <grammar.delegators:{g| <g:delegateName()>}>->getRuleLevel();
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}
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static void incRuleLevel()
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{
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<grammar.delegators:{g| <g:delegateName()>}>->incRuleLevel();
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}
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static void
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decRuleLevel()
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{
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<grammar.delegators:{g| <g:delegateName()>}>.decRuleLevel();
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}
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<endif>
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<if(profile)>
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// Profiling not yet implemented for C target
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//
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<endif>
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<if(grammar.grammarIsRoot)>
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<ctorForPredefinedListener()>
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<else>
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<ctorForDelegateGrammar()>
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<endif>
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static ANTLR3_BOOLEAN
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evalPredicate(p<name> ctx, ANTLR3_BOOLEAN result, const char * predicate)
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{
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DBG->semanticPredicate(DBG, result, predicate);
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return result;
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}<\n>
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>>
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@genericParser.debugStuff() ::= <<
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<if(grammar.grammarIsRoot)>
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<createListenerAndHandshake()>
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<endif>
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>>
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ctorForProfilingRootGrammar() ::= <<
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>>
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/** Basically we don't want to set any dbg listeners as root will have it. */
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ctorForDelegateGrammar() ::= <<
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//public <name>(<inputStreamType> input, DebugEventListener dbg, RecognizerSharedState state<grammar.delegators:{g|, <g.recognizerName> <g:delegateName()>}>) {
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// super(input, dbg, state);
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//parserCtorBody()
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// <grammar.directDelegates:
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{g|<g:delegateName()> = new <g.recognizerName>(input, this, state<grammar.delegators:{g|, <g:delegateName()>}>);}; separator="\n">
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//}
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>>
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ctorForPredefinedListener() ::= <<
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//public <name>(<inputStreamType> input, DebugEventListener dbg) {
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// super(input, dbg, new RecognizerSharedState());
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//<if(profile)>
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// Profiler p = (Profiler)dbg;
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// p.setParser(this);
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//<endif>
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// //parserCtorBody()
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// <grammar.directDelegates:{g|<g:delegateName()> = new <g.recognizerName>(input, dbg, state, this<grammar.delegators:{g|, <g:delegateName()>}>);}; separator="\n">
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//}<\n>
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>>
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createListenerAndHandshake() ::= <<
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{
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// DEBUG MODE code
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//
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pANTLR3_DEBUG_EVENT_LISTENER proxy;
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proxy = antlr3DebugListenerNew();
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proxy->grammarFileName = INPUT->tokenSource->strFactory->newStr8(INPUT->tokenSource->strFactory, (pANTLR3_UINT8)ctx->getGrammarFileName());
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<if(TREE_PARSER)>
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proxy->adaptor = ADAPTOR;
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<endif>
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PARSER->setDebugListener(PARSER, proxy);
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// Try to connect to the debugger (waits forever for a connection)
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//
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proxy->handshake(proxy);
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// End DEBUG MODE code
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//
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}
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>>
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@rule.preamble() ::= <<
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DBG->enterRule(DBG, getGrammarFileName(), (const char *)"<ruleName>");
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if ( getRuleLevel()==0 )
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{
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DBG->commence(DBG);
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}
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incRuleLevel();
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DBG->location(DBG, <ruleDescriptor.tree.line>, <ruleDescriptor.tree.column>);<\n>
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>>
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@rule.postamble() ::= <<
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DBG->location(DBG, <ruleDescriptor.EORNode.line>, <ruleDescriptor.EORNode.column>);<\n>
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DBG->exitRule(DBG, getGrammarFileName(), (const char *)"<ruleName>");
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decRuleLevel();
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if ( getRuleLevel()==0 )
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{
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DBG->terminate(DBG);
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}
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<\n>
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>>
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@synpred.start() ::= "DBG->beginBacktrack(DBG, BACKTRACKING);"
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@synpred.stop() ::= "DBG->endBacktrack(DBG, BACKTRACKING, success);"
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// Common debug event triggers used by region overrides below
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enterSubRule() ::=
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"DBG->enterSubRule(DBG, <decisionNumber>);<\n>"
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exitSubRule() ::=
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"DBG->exitSubRule(DBG, <decisionNumber>);<\n>"
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enterDecision() ::=
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"DBG->enterDecision(DBG, <decisionNumber>);<\n>"
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exitDecision() ::=
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"DBG->exitDecision(DBG, <decisionNumber>);<\n>"
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enterAlt(n) ::= "DBG->enterAlt(DBG, <n>);<\n>"
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// Region overrides that tell various constructs to add debugging triggers
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@block.predecision() ::= "<enterSubRule()><enterDecision()>"
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@block.postdecision() ::= "<exitDecision()>"
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@block.postbranch() ::= "<exitSubRule()>"
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@ruleBlock.predecision() ::= "<enterDecision()>"
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@ruleBlock.postdecision() ::= "<exitDecision()>"
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@ruleBlockSingleAlt.prealt() ::= "<enterAlt(n=\"1\")>"
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@blockSingleAlt.prealt() ::= "<enterAlt(n=\"1\")>"
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@positiveClosureBlock.preloop() ::= "<enterSubRule()>"
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@positiveClosureBlock.postloop() ::= "<exitSubRule()>"
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@positiveClosureBlock.predecision() ::= "<enterDecision()>"
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@positiveClosureBlock.postdecision() ::= "<exitDecision()>"
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@positiveClosureBlock.earlyExitException() ::=
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"DBG->recognitionException(DBG, EXCEPTION);<\n>"
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@closureBlock.preloop() ::= "<enterSubRule()>"
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@closureBlock.postloop() ::= "<exitSubRule()>"
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@closureBlock.predecision() ::= "<enterDecision()>"
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@closureBlock.postdecision() ::= "<exitDecision()>"
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@altSwitchCase.prealt() ::= "<enterAlt(n=i)>"
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@element.prematch() ::=
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"DBG->location(DBG, <it.line>, <it.pos>);"
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@matchSet.mismatchedSetException() ::=
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"DBG->recognitionException(DBG, EXCEPTION);"
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@newNVException.noViableAltException() ::= "DBG->recognitionException(DBG, EXCEPTION);"
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dfaDecision(decisionNumber,description) ::= <<
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alt<decisionNumber> = cdfa<decisionNumber>.predict(ctx, RECOGNIZER, ISTREAM, &cdfa<decisionNumber>);
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if (HASEXCEPTION())
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{
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DBG->recognitionException(DBG, EXCEPTION);
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goto rule<ruleDescriptor.name>Ex;
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}
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<checkRuleBacktrackFailure()>
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>>
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@cyclicDFA.errorMethod() ::= <<
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//static void
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//dfaError(p<name> ctx)
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//{
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// DBG->recognitionException(DBG, EXCEPTION);
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//}
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>>
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/** Force predicate validation to trigger an event */
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evalPredicate(pred,description) ::= <<
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evalPredicate(ctx, <pred>, (const char *)"<description>")
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>>
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