mirror of
https://github.com/marcin-szczepanski/jFuzzyLogic.git
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441 lines
13 KiB
Plaintext
441 lines
13 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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/* in sync with Java/AST.stg revision 36 */
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group AST;
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finishedBacktracking(block) ::= <<
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<if(backtracking)>
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if self._state.backtracking == 0:
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<block>
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<else>
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<block>
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<endif>
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>>
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@outputFile.imports() ::= <<
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<@super.imports()>
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<if(!TREE_PARSER)><! tree parser would already have imported !>
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from antlr3.tree import *<\n>
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<endif>
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>>
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/** Add an adaptor property that knows how to build trees */
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@genericParser.init() ::= <<
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<@super.init()>
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self._adaptor = CommonTreeAdaptor()
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>>
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@genericParser.members() ::= <<
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<@super.members()>
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def getTreeAdaptor(self):
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return self._adaptor
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def setTreeAdaptor(self, adaptor):
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self._adaptor = adaptor
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<grammar.directDelegates:{g|<g:delegateName()>.adaptor = adaptor}; separator="\n">
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adaptor = property(getTreeAdaptor, setTreeAdaptor)
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>>
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@returnScope.ruleReturnInit() ::= <<
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self.tree = None
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>>
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/** Add a variable to track rule's return AST */
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ruleDeclarations() ::= <<
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<super.ruleDeclarations()>
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root_0 = None<\n>
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>>
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ruleLabelDefs() ::= <<
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<super.ruleLabelDefs()>
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<ruleDescriptor.tokenLabels:{<it.label.text>_tree = None}; separator="\n">
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<ruleDescriptor.tokenListLabels:{<it.label.text>_tree = None}; separator="\n">
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<ruleDescriptor.allTokenRefsInAltsWithRewrites
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:{stream_<it> = RewriteRule<rewriteElementType>Stream(self._adaptor, "token <it>")}; separator="\n">
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<ruleDescriptor.allRuleRefsInAltsWithRewrites
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:{stream_<it> = RewriteRuleSubtreeStream(self._adaptor, "rule <it>")}; separator="\n">
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>>
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/** When doing auto AST construction, we must define some variables;
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* These should be turned off if doing rewrites. This must be a "mode"
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* as a rule could have both rewrite and AST within the same alternative
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* block.
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*/
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@alt.declarations() ::= <<
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<if(autoAST)>
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<if(outerAlt)>
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<if(!rewriteMode)>
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root_0 = self._adaptor.nil()<\n>
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<endif>
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<endif>
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<endif>
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>>
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// // T r a c k i n g R u l e E l e m e n t s
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/** ID and track it for use in a rewrite rule */
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tokenRefTrack(token,label,elementIndex,hetero) ::= <<
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<tokenRefBang(...)> <! Track implies no auto AST construction!>
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<finishedBacktracking({stream_<token>.add(<label>)})>
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>>
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/** ids+=ID and track it for use in a rewrite rule; adds to ids *and*
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* to the tracking list stream_ID for use in the rewrite.
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*/
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tokenRefTrackAndListLabel(token,label,elementIndex,hetero) ::= <<
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<tokenRefTrack(...)>
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<listLabel(elem=label,...)>
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>>
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/** ^(ID ...) track for rewrite */
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tokenRefRuleRootTrack(token,label,elementIndex,hetero) ::= <<
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<tokenRefBang(...)>
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<finishedBacktracking({stream_<token>.add(<label>)})>
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>>
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/** Match ^(label+=TOKEN ...) track for rewrite */
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tokenRefRuleRootTrackAndListLabel(token,label,elementIndex,hetero) ::= <<
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<tokenRefRuleRootTrack(...)>
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<listLabel(elem=label,...)>
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>>
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wildcardTrack(label,elementIndex) ::= <<
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<super.wildcard(...)>
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>>
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/** rule when output=AST and tracking for rewrite */
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ruleRefTrack(rule,label,elementIndex,args,scope) ::= <<
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<super.ruleRef(...)>
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<finishedBacktracking({stream_<rule.name>.add(<label>.tree)})>
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>>
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/** x+=rule when output=AST and tracking for rewrite */
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ruleRefTrackAndListLabel(rule,label,elementIndex,args,scope) ::= <<
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<ruleRefTrack(...)>
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<listLabel(elem=label+".tree",...)>
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>>
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/** ^(rule ...) rewrite */
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ruleRefRuleRootTrack(rule,label,elementIndex,args,scope) ::= <<
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<ruleRefRuleRoot(...)>
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<finishedBacktracking({stream_<rule.name>.add(<label>.tree)})>
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>>
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/** ^(x+=rule ...) rewrite */
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ruleRefRuleRootTrackAndListLabel(rule,label,elementIndex,args,scope) ::= <<
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<ruleRefRuleRootTrack(...)>
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<listLabel(elem=label+".tree",...)>
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>>
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// R e w r i t e
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rewriteCode(
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alts, description,
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referencedElementsDeep, // ALL referenced elements to right of ->
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referencedTokenLabels,
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referencedTokenListLabels,
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referencedRuleLabels,
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referencedRuleListLabels,
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rewriteBlockLevel, enclosingTreeLevel, treeLevel) ::=
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<<
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# AST Rewrite
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# elements: <referencedElementsDeep; separator=", ">
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# token labels: <referencedTokenLabels; separator=", ">
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# rule labels: <referencedRuleLabels; separator=", ">
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# token list labels: <referencedTokenListLabels; separator=", ">
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# rule list labels: <referencedRuleListLabels; separator=", ">
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<finishedBacktracking({
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<prevRuleRootRef()>.tree = root_0
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<rewriteCodeLabels()>
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root_0 = self._adaptor.nil()
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<first(alts):rewriteAltFirst(); anchor>
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<rest(alts):{a | el<rewriteAltRest(a)>}; anchor, separator="\n\n">
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<! if tree parser and rewrite=true !>
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<if(TREE_PARSER)>
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<if(rewriteMode)>
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<prevRuleRootRef()>.tree = self._adaptor.rulePostProcessing(root_0)
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self.input.replaceChildren(
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self._adaptor.getParent(retval.start),
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self._adaptor.getChildIndex(retval.start),
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self._adaptor.getChildIndex(_last),
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retval.tree
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)<\n>
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<endif>
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<endif>
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<! if parser or tree-parser and rewrite!=true, we need to set result !>
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<if(!TREE_PARSER)>
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<prevRuleRootRef()>.tree = root_0<\n>
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<else>
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<if(!rewriteMode)>
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<prevRuleRootRef()>.tree = root_0<\n>
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<endif>
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<endif>
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})>
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>>
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rewriteCodeLabels() ::= <<
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<referencedTokenLabels
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:{stream_<it> = RewriteRule<rewriteElementType>Stream(self._adaptor, "token <it>", <it>)};
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separator="\n"
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>
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<referencedTokenListLabels
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:{stream_<it> = RewriteRule<rewriteElementType>Stream(self._adaptor, "token <it>", list_<it>)};
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separator="\n"
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>
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<referencedRuleLabels
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:{
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if <it> is not None:
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stream_<it> = RewriteRuleSubtreeStream(self._adaptor, "token <it>", <it>.tree)
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else:
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stream_<it> = RewriteRuleSubtreeStream(self._adaptor, "token <it>", None)
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};
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separator="\n"
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>
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<referencedRuleListLabels
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:{stream_<it> = RewriteRuleSubtreeStream(self._adaptor, "token <it>", list_<it>)};
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separator="\n"
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>
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>>
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/** Generate code for an optional rewrite block; note it uses the deep ref'd element
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* list rather shallow like other blocks.
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*/
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rewriteOptionalBlock(
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alt,rewriteBlockLevel,
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referencedElementsDeep, // all nested refs
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referencedElements, // elements in immediately block; no nested blocks
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description) ::=
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<<
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# <fileName>:<description>
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if <referencedElementsDeep:{el | stream_<el>.hasNext()}; separator=" or ">:
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<alt>
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<referencedElementsDeep:{el | stream_<el>.reset();<\n>}>
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>>
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rewriteClosureBlock(
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alt,rewriteBlockLevel,
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referencedElementsDeep, // all nested refs
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referencedElements, // elements in immediately block; no nested blocks
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description) ::=
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<<
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# <fileName>:<description>
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while <referencedElements:{el | stream_<el>.hasNext()}; separator=" or ">:
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<alt>
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<referencedElements:{el | stream_<el>.reset();<\n>}>
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>>
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rewritePositiveClosureBlock(
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alt,rewriteBlockLevel,
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referencedElementsDeep, // all nested refs
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referencedElements, // elements in immediately block; no nested blocks
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description) ::=
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<<
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# <fileName>:<description>
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if not (<referencedElements:{el | stream_<el>.hasNext()}; separator=" or ">):
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raise RewriteEarlyExitException()
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while <referencedElements:{el | stream_<el>.hasNext()}; separator=" or ">:
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<alt>
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<referencedElements:{el | stream_<el>.reset()<\n>}>
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>>
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rewriteAltRest(a) ::= <<
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<if(a.pred)>
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if <a.pred>:
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# <a.description>
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<a.alt>
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<else>
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se: <! little hack to get if .. elif .. else block right !>
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# <a.description>
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<a.alt>
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<endif>
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>>
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rewriteAltFirst(a) ::= <<
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<if(a.pred)>
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if <a.pred>:
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# <a.description>
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<a.alt>
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<else>
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# <a.description>
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<a.alt>
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<endif>
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>>
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/** For empty rewrites: "r : ... -> ;" */
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rewriteEmptyAlt() ::= "root_0 = None"
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rewriteTree(root,children,description,enclosingTreeLevel,treeLevel) ::= <<
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# <fileName>:<description>
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root_<treeLevel> = self._adaptor.nil()
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<root:rewriteElement()>
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<children:rewriteElement()>
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self._adaptor.addChild(root_<enclosingTreeLevel>, root_<treeLevel>)<\n>
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>>
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rewriteElementList(elements) ::= "<elements:rewriteElement()>"
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rewriteElement(e) ::= <<
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<@pregen()>
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<e.el>
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>>
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/** Gen ID or ID[args] */
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rewriteTokenRef(token,elementIndex,hetero,args) ::= <<
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self._adaptor.addChild(root_<treeLevel>, <createRewriteNodeFromElement(...)>)<\n>
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>>
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/** Gen $label ... where defined via label=ID */
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rewriteTokenLabelRef(label,elementIndex) ::= <<
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self._adaptor.addChild(root_<treeLevel>, stream_<label>.nextNode())<\n>
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>>
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/** Gen $label ... where defined via label+=ID */
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rewriteTokenListLabelRef(label,elementIndex) ::= <<
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self._adaptor.addChild(root_<treeLevel>, stream_<label>.nextNode())<\n>
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>>
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/** Gen ^($label ...) */
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rewriteTokenLabelRefRoot(label,elementIndex) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(stream_<label>.nextNode(), root_<treeLevel>)<\n>
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>>
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/** Gen ^($label ...) where label+=... */
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rewriteTokenListLabelRefRoot ::= rewriteTokenLabelRefRoot
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/** Gen ^(ID ...) or ^(ID[args] ...) */
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rewriteTokenRefRoot(token,elementIndex,hetero,args) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(<createRewriteNodeFromElement(...)>, root_<treeLevel>)<\n>
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>>
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rewriteImaginaryTokenRef(args,token,hetero,elementIndex) ::= <<
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self._adaptor.addChild(root_<treeLevel>, <createImaginaryNode(tokenType=token, ...)>)<\n>
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>>
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rewriteImaginaryTokenRefRoot(args,token,hetero,elementIndex) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(<createImaginaryNode(tokenType=token, ...)>, root_<treeLevel>)<\n>
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>>
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/** plain -> {foo} action */
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rewriteAction(action) ::= <<
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<!FIXME(96,untested)!>
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root_0 = <action><\n>
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>>
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/** What is the name of the previous value of this rule's root tree? This
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* let's us refer to $rule to mean previous value. I am reusing the
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* variable 'tree' sitting in retval struct to hold the value of root_0 right
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* before I set it during rewrites. The assign will be to retval.tree.
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*/
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prevRuleRootRef() ::= "retval"
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rewriteRuleRef(rule) ::= <<
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self._adaptor.addChild(root_<treeLevel>, stream_<rule>.nextTree())<\n>
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>>
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rewriteRuleRefRoot(rule) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(stream_<rule>.nextNode(), root_<treeLevel>)<\n>
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>>
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rewriteNodeAction(action) ::= <<
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self._adaptor.addChild(root_<treeLevel>, <action>)<\n>
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>>
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rewriteNodeActionRoot(action) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(<action>, root_<treeLevel>)<\n>
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>>
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/** Gen $ruleLabel ... where defined via ruleLabel=rule */
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rewriteRuleLabelRef(label) ::= <<
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self._adaptor.addChild(root_<treeLevel>, stream_<label>.nextTree())<\n>
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>>
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/** Gen $ruleLabel ... where defined via ruleLabel+=rule */
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rewriteRuleListLabelRef(label) ::= <<
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self._adaptor.addChild(root_<treeLevel>, stream_<label>.nextTree())<\n>
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>>
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/** Gen ^($ruleLabel ...) where ruleLabel=rule */
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rewriteRuleLabelRefRoot(label) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(stream_<label>.nextNode(), root_<treeLevel>)<\n>
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>>
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/** Gen ^($ruleLabel ...) where ruleLabel+=rule */
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rewriteRuleListLabelRefRoot(label) ::= <<
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root_<treeLevel> = self._adaptor.becomeRoot(stream_<label>.nextNode(), root_<treeLevel>)<\n>
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>>
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createImaginaryNode(tokenType,hetero,args) ::= <<
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<if(hetero)>
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<! new MethodNode(IDLabel, args) !>
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<hetero>(<tokenType><if(args)>, <args; separator=", "><endif>)
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<else>
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<if (!args)>self._adaptor.createFromType(<tokenType>, "<tokenType>")
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<else>self._adaptor.create(<tokenType>, <args; separator=", ">)
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<endif>
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<endif>
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>>
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//<! need to call different adaptor.create*() methods depending of argument count !>
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//<if (!args)>self._adaptor.createFromType(<tokenType>, "<tokenType>")
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//<else><if (!rest(args))>self._adaptor.createFromType(<tokenType>, <first(args)>)
|
||
|
//<else><if (!rest(rest(args)))>self._adaptor.createFromToken(<tokenType>, <first(args)>, <first(rest(args))>)
|
||
|
//<endif>
|
||
|
//<endif>
|
||
|
//<endif>
|
||
|
|
||
|
|
||
|
createRewriteNodeFromElement(token,hetero,args) ::= <<
|
||
|
<if(hetero)>
|
||
|
<hetero>(stream_<token>.nextToken()<if(args)>, <args; separator=", "><endif>)
|
||
|
<else>
|
||
|
<if(args)> <! must create new node from old !>
|
||
|
<! need to call different adaptor.create*() methods depending of argument count !>
|
||
|
<if (!args)>self._adaptor.createFromType(<token>, "<token>")
|
||
|
<else><if (!rest(args))>self._adaptor.createFromToken(<token>, <first(args)>)
|
||
|
<else><if (!rest(rest(args)))>self._adaptor.createFromToken(<token>, <first(args)>, <first(rest(args))>)
|
||
|
<endif>
|
||
|
<endif>
|
||
|
<endif>
|
||
|
<else>
|
||
|
stream_<token>.nextNode()
|
||
|
<endif>
|
||
|
<endif>
|
||
|
>>
|