public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalRules.g:2554:2: (kw= '=' ) // InternalRules.g:2555:2: kw= '=' { kw=(Token)match(input,15,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalScript.g:668:2: (kw= '=' ) // InternalScript.g:669:2: kw= '=' { kw=(Token)match(input,23,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalTcl.g:5022:2: (kw= '=' ) // InternalTcl.g:5023:2: kw= '=' { kw=(Token)match(input,44,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalXbaseWithAnnotations.g:745:2: (kw= '=' ) // InternalXbaseWithAnnotations.g:746:2: kw= '=' { kw=(Token)match(input,17,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalXbase.g:245:2: (kw= '=' ) // InternalXbase.g:246:2: kw= '=' { kw=(Token)match(input,13,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalEMFPatternLanguage.g:2815:28: (kw= '=' ) // InternalEMFPatternLanguage.g:2817:2: kw= '=' { kw=(Token)match(input,28,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalEmfParsleyDsl.g:5992:2: (kw= '=' ) // InternalEmfParsleyDsl.g:5993:2: kw= '=' { kw=(Token)match(input,26,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalSARL.g:12188:2: (kw= '=' ) // InternalSARL.g:12189:2: kw= '=' { kw=(Token)match(input,47,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalAml.g:2128:2: (kw= '=' ) // InternalAml.g:2129:2: kw= '=' { kw=(Token)match(input,25,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalEMFPatternLanguage.g:2870:2: (kw= '=' ) // InternalEMFPatternLanguage.g:2871:2: kw= '=' { kw=(Token)match(input,27,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { // InternalPatternLanguage.g:2322:28: (kw= '=' ) // InternalPatternLanguage.g:2324:2: kw= '=' { kw=(Token)match(input,18,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } // $ANTLR end "ruleOpSingleAssign"
public final AntlrDatatypeRuleToken ruleOpSingleAssign() throws RecognitionException { AntlrDatatypeRuleToken current = new AntlrDatatypeRuleToken(); Token kw=null; enterRule(); try { { kw=(Token)match(input,KW_EqualsSign,FOLLOW_2); if (state.failed) return current; if ( state.backtracking==0 ) { current.merge(kw); newLeafNode(kw, grammarAccess.getOpSingleAssignAccess().getEqualsSignKeyword()); } } if ( state.backtracking==0 ) { leaveRule(); } } catch (RecognitionException re) { recover(input,re); appendSkippedTokens(); } finally { } return current; } public final String entryRuleOpMultiAssign() throws RecognitionException {