jFuzzyLogic/org/antlr/codegen/templates/JavaScript/ASTTreeParser.stg

/** Templates for building ASTs during tree parsing.
 *
 *  Deal with many combinations.  Dimensions are:
 *  Auto build or rewrite
 *    no label, label, list label  (label/no-label handled together)
 *    child, root
 *    token, set, rule, wildcard
 *
 *  Each combination has its own template except that label/no label
 *  is combined into tokenRef, ruleRef, ...
 */
group ASTTreeParser;

/** Add a variable to track last element matched */
ruleDeclarations() ::= <<
<super.ruleDeclarations()>
var _first_0 = null;
var _last = null;<\n>
>>

/** What to emit when there is no rewrite rule.  For auto build
 *  mode, does nothing.
 */
noRewrite(rewriteBlockLevel, treeLevel) ::= <<
<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>
<if(rewriteMode)>
retval.tree = _first_0;
if ( this.adaptor.getParent(retval.tree) && this.adaptor.isNil( this.adaptor.getParent(retval.tree) ) )
    retval.tree = this.adaptor.getParent(retval.tree);
<endif>
<if(backtracking)>}<endif>
>>

/** match ^(root children) in tree parser; override here to
 *  add tree construction actions.
 */
tree(root, actionsAfterRoot, children, nullableChildList,
     enclosingTreeLevel, treeLevel) ::= <<
_last = this.input.LT(1);
{
var _save_last_<treeLevel> = _last;
var _first_<treeLevel> = null;
<if(!rewriteMode)>
var root_<treeLevel> = this.adaptor.nil();
<endif>
<root:element()>
<if(rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 )<endif>
<if(root.el.rule)>
if ( !_first_<enclosingTreeLevel> ) _first_<enclosingTreeLevel> = <root.el.label>.tree;
<else>
if ( !_first_<enclosingTreeLevel> ) _first_<enclosingTreeLevel> = <root.el.label>;
<endif>
<endif>
<actionsAfterRoot:element()>
<if(nullableChildList)>
if ( this.input.LA(1)==org.antlr.runtime.Token.DOWN ) {
    this.match(this.input, org.antlr.runtime.Token.DOWN, null); <checkRuleBacktrackFailure()>
    <children:element()>
    this.match(this.input, org.antlr.runtime.Token.UP, null); <checkRuleBacktrackFailure()>
}
<else>
this.match(this.input, org.antlr.runtime.Token.DOWN, null); <checkRuleBacktrackFailure()>
<children:element()>
this.match(this.input, org.antlr.runtime.Token.UP, null); <checkRuleBacktrackFailure()>
<endif>
<if(!rewriteMode)>
this.adaptor.addChild(root_<enclosingTreeLevel>, root_<treeLevel>);
<endif>
_last = _save_last_<treeLevel>;
}<\n>
>>

// TOKEN AST STUFF

/** ID! and output=AST (same as plain tokenRef) 'cept add
 *  setting of _last
 */
tokenRefBang(token,label,elementIndex) ::= <<
_last = this.input.LT(1);
<super.tokenRef(...)>
>>

/** ID auto construct */
tokenRef(token,label,elementIndex,hetero) ::= <<
_last = this.input.LT(1);
<super.tokenRef(...)>
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>
<if(hetero)>
<label>_tree = new <hetero>(<label>);
<else>
<label>_tree = this.adaptor.dupNode(<label>);
<endif><\n>
this.adaptor.addChild(root_<treeLevel>, <label>_tree);
<if(backtracking)>}<endif>
<else> <! rewrite mode !>
<if(backtracking)>if ( this.state.backtracking===0 )<endif>
if ( !_first_<treeLevel> ) _first_<treeLevel> = <label>;
<endif>
>>

/** label+=TOKEN auto construct */
tokenRefAndListLabel(token,label,elementIndex,hetero) ::= <<
<tokenRef(...)>
<listLabel(elem=label,...)>
>>

/** ^(ID ...) auto construct */
tokenRefRuleRoot(token,label,elementIndex,hetero) ::= <<
_last = this.input.LT(1);
<super.tokenRef(...)>
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>
<if(hetero)>
<label>_tree = new <hetero>(<label>);
<else>
<label>_tree = this.adaptor.dupNode(<label>);
<endif><\n>
root_<treeLevel> = this.adaptor.becomeRoot(<label>_tree, root_<treeLevel>);
<if(backtracking)>}<endif>
<endif>
>>

/** Match ^(label+=TOKEN ...) auto construct */
tokenRefRuleRootAndListLabel(token,label,elementIndex,hetero) ::= <<
<tokenRefRuleRoot(...)>
<listLabel(elem=label,...)>
>>

// SET AST

matchSet(s,label,hetero,elementIndex,postmatchCode) ::= <<
_last = this.input.LT(1);
<super.matchSet(..., postmatchCode={
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>
<if(hetero)>
<label>_tree = new <hetero>(<label>);
<else>
<label>_tree = this.adaptor.dupNode(<label>);
<endif><\n>
this.adaptor.addChild(root_<treeLevel>, <label>_tree);
<if(backtracking)>}<endif>
<endif>
}
)>
>>

matchRuleBlockSet(s,label,hetero,elementIndex,postmatchCode,treeLevel="0") ::= <<
<matchSet(...)>
<noRewrite()> <! set return tree !>
>>

matchSetBang(s,label,elementIndex,postmatchCode) ::= <<
_last = this.input.LT(1);
<super.matchSet(...)>
>>

matchSetRuleRoot(s,label,hetero,elementIndex,debug) ::= <<
<super.matchSet(..., postmatchCode={
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>
<if(hetero)>
<label>_tree = new <hetero>(<label>);
<else>
<label>_tree = this.adaptor.dupNode(<label>);
<endif><\n>
root_<treeLevel> = this.adaptor.becomeRoot(<label>_tree, root_<treeLevel>);
<if(backtracking)>}<endif>
<endif>
}
)>
>>

// RULE REF AST

/** rule auto construct */
ruleRef(rule,label,elementIndex,args,scope) ::= <<
_last = this.input.LT(1);
<super.ruleRef(...)>
<if(backtracking)>if ( this.state.backtracking===0 ) <endif>
<if(!rewriteMode)>
this.adaptor.addChild(root_<treeLevel>, <label>.getTree());
<else> <! rewrite mode !>
if ( !_first_<treeLevel> ) _first_<treeLevel> = <label>.tree;
<endif>
>>

/** x+=rule auto construct */
ruleRefAndListLabel(rule,label,elementIndex,args,scope) ::= <<
<ruleRef(...)>
<listLabel(elem=label+".getTree()",...)>
>>

/** ^(rule ...) auto construct */
ruleRefRuleRoot(rule,label,elementIndex,args,scope) ::= <<
_last = this.input.LT(1);
<super.ruleRef(...)>
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) <endif>root_<treeLevel> = this.adaptor.becomeRoot(<label>.getTree(), root_<treeLevel>);
<endif>
>>

/** ^(x+=rule ...) auto construct */
ruleRefRuleRootAndListLabel(rule,label,elementIndex,args,scope) ::= <<
<ruleRefRuleRoot(...)>
<listLabel(elem=label+".getTree()",...)>
>>

/** Streams for token refs are tree nodes now; override to
 *  change nextToken to nextNode.
 */
createRewriteNodeFromElement(token,hetero,scope) ::= <<
<if(hetero)>
new <hetero>(stream_<token>.nextNode())
<else>
stream_<token>.nextNode()
<endif>
>>

ruleCleanUp() ::= <<
<super.ruleCleanUp()>
<if(!rewriteMode)>
<if(backtracking)>if ( this.state.backtracking===0 ) {<\n><endif>
retval.tree = this.adaptor.rulePostProcessing(root_0);
<if(backtracking)>}<endif>
<endif>
>>
Moving code to GitHub 2014-12-19 14:30:46 +01:00			`/** Templates for building ASTs during tree parsing.`
			`*`
			`* Deal with many combinations. Dimensions are:`
			`* Auto build or rewrite`
			`* no label, label, list label (label/no-label handled together)`
			`* child, root`
			`* token, set, rule, wildcard`
			`*`
			`* Each combination has its own template except that label/no label`
			`* is combined into tokenRef, ruleRef, ...`
			`*/`
			`group ASTTreeParser;`

			`/** Add a variable to track last element matched */`
			`ruleDeclarations() ::= <<`
			`<super.ruleDeclarations()>`
			`var _first_0 = null;`
			`var _last = null;<\n>`
			`>>`

			`/** What to emit when there is no rewrite rule. For auto build`
			`* mode, does nothing.`
			`*/`
			`noRewrite(rewriteBlockLevel, treeLevel) ::= <<`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>`
			`<if(rewriteMode)>`
			`retval.tree = _first_0;`
			`if ( this.adaptor.getParent(retval.tree) && this.adaptor.isNil( this.adaptor.getParent(retval.tree) ) )`
			`retval.tree = this.adaptor.getParent(retval.tree);`
			`<endif>`
			`<if(backtracking)>}<endif>`
			`>>`

			`/** match ^(root children) in tree parser; override here to`
			`* add tree construction actions.`
			`*/`
			`tree(root, actionsAfterRoot, children, nullableChildList,`
			`enclosingTreeLevel, treeLevel) ::= <<`
			`_last = this.input.LT(1);`
			`{`
			`var _save_last_<treeLevel> = _last;`
			`var _first_<treeLevel> = null;`
			`<if(!rewriteMode)>`
			`var root_<treeLevel> = this.adaptor.nil();`
			`<endif>`
			`<root:element()>`
			`<if(rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 )<endif>`
			`<if(root.el.rule)>`
			`if ( !_first_<enclosingTreeLevel> ) _first_<enclosingTreeLevel> = <root.el.label>.tree;`
			`<else>`
			`if ( !_first_<enclosingTreeLevel> ) _first_<enclosingTreeLevel> = <root.el.label>;`
			`<endif>`
			`<endif>`
			`<actionsAfterRoot:element()>`
			`<if(nullableChildList)>`
			`if ( this.input.LA(1)==org.antlr.runtime.Token.DOWN ) {`
			`this.match(this.input, org.antlr.runtime.Token.DOWN, null); <checkRuleBacktrackFailure()>`
			`<children:element()>`
			`this.match(this.input, org.antlr.runtime.Token.UP, null); <checkRuleBacktrackFailure()>`
			`}`
			`<else>`
			`this.match(this.input, org.antlr.runtime.Token.DOWN, null); <checkRuleBacktrackFailure()>`
			`<children:element()>`
			`this.match(this.input, org.antlr.runtime.Token.UP, null); <checkRuleBacktrackFailure()>`
			`<endif>`
			`<if(!rewriteMode)>`
			`this.adaptor.addChild(root_<enclosingTreeLevel>, root_<treeLevel>);`
			`<endif>`
			`_last = _save_last_<treeLevel>;`
			`}<\n>`
			`>>`

			`// TOKEN AST STUFF`

			`/** ID! and output=AST (same as plain tokenRef) 'cept add`
			`* setting of _last`
			`*/`
			`tokenRefBang(token,label,elementIndex) ::= <<`
			`_last = this.input.LT(1);`
			`<super.tokenRef(...)>`
			`>>`

			`/** ID auto construct */`
			`tokenRef(token,label,elementIndex,hetero) ::= <<`
			`_last = this.input.LT(1);`
			`<super.tokenRef(...)>`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>`
			`<if(hetero)>`
			`<label>_tree = new <hetero>(<label>);`
			`<else>`
			`<label>_tree = this.adaptor.dupNode(<label>);`
			`<endif><\n>`
			`this.adaptor.addChild(root_<treeLevel>, <label>_tree);`
			`<if(backtracking)>}<endif>`
			`<else> <! rewrite mode !>`
			`<if(backtracking)>if ( this.state.backtracking===0 )<endif>`
			`if ( !_first_<treeLevel> ) _first_<treeLevel> = <label>;`
			`<endif>`
			`>>`

			`/** label+=TOKEN auto construct */`
			`tokenRefAndListLabel(token,label,elementIndex,hetero) ::= <<`
			`<tokenRef(...)>`
			`<listLabel(elem=label,...)>`
			`>>`

			`/** ^(ID ...) auto construct */`
			`tokenRefRuleRoot(token,label,elementIndex,hetero) ::= <<`
			`_last = this.input.LT(1);`
			`<super.tokenRef(...)>`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>`
			`<if(hetero)>`
			`<label>_tree = new <hetero>(<label>);`
			`<else>`
			`<label>_tree = this.adaptor.dupNode(<label>);`
			`<endif><\n>`
			`root_<treeLevel> = this.adaptor.becomeRoot(<label>_tree, root_<treeLevel>);`
			`<if(backtracking)>}<endif>`
			`<endif>`
			`>>`

			`/** Match ^(label+=TOKEN ...) auto construct */`
			`tokenRefRuleRootAndListLabel(token,label,elementIndex,hetero) ::= <<`
			`<tokenRefRuleRoot(...)>`
			`<listLabel(elem=label,...)>`
			`>>`

			`// SET AST`

			`matchSet(s,label,hetero,elementIndex,postmatchCode) ::= <<`
			`_last = this.input.LT(1);`
			`<super.matchSet(..., postmatchCode={`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>`
			`<if(hetero)>`
			`<label>_tree = new <hetero>(<label>);`
			`<else>`
			`<label>_tree = this.adaptor.dupNode(<label>);`
			`<endif><\n>`
			`this.adaptor.addChild(root_<treeLevel>, <label>_tree);`
			`<if(backtracking)>}<endif>`
			`<endif>`
			`}`
			`)>`
			`>>`

			`matchRuleBlockSet(s,label,hetero,elementIndex,postmatchCode,treeLevel="0") ::= <<`
			`<matchSet(...)>`
			`<noRewrite()> <! set return tree !>`
			`>>`

			`matchSetBang(s,label,elementIndex,postmatchCode) ::= <<`
			`_last = this.input.LT(1);`
			`<super.matchSet(...)>`
			`>>`

			`matchSetRuleRoot(s,label,hetero,elementIndex,debug) ::= <<`
			`<super.matchSet(..., postmatchCode={`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<endif>`
			`<if(hetero)>`
			`<label>_tree = new <hetero>(<label>);`
			`<else>`
			`<label>_tree = this.adaptor.dupNode(<label>);`
			`<endif><\n>`
			`root_<treeLevel> = this.adaptor.becomeRoot(<label>_tree, root_<treeLevel>);`
			`<if(backtracking)>}<endif>`
			`<endif>`
			`}`
			`)>`
			`>>`

			`// RULE REF AST`

			`/** rule auto construct */`
			`ruleRef(rule,label,elementIndex,args,scope) ::= <<`
			`_last = this.input.LT(1);`
			`<super.ruleRef(...)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) <endif>`
			`<if(!rewriteMode)>`
			`this.adaptor.addChild(root_<treeLevel>, <label>.getTree());`
			`<else> <! rewrite mode !>`
			`if ( !_first_<treeLevel> ) _first_<treeLevel> = <label>.tree;`
			`<endif>`
			`>>`

			`/** x+=rule auto construct */`
			`ruleRefAndListLabel(rule,label,elementIndex,args,scope) ::= <<`
			`<ruleRef(...)>`
			`<listLabel(elem=label+".getTree()",...)>`
			`>>`

			`/** ^(rule ...) auto construct */`
			`ruleRefRuleRoot(rule,label,elementIndex,args,scope) ::= <<`
			`_last = this.input.LT(1);`
			`<super.ruleRef(...)>`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) <endif>root_<treeLevel> = this.adaptor.becomeRoot(<label>.getTree(), root_<treeLevel>);`
			`<endif>`
			`>>`

			`/** ^(x+=rule ...) auto construct */`
			`ruleRefRuleRootAndListLabel(rule,label,elementIndex,args,scope) ::= <<`
			`<ruleRefRuleRoot(...)>`
			`<listLabel(elem=label+".getTree()",...)>`
			`>>`

			`/** Streams for token refs are tree nodes now; override to`
			`* change nextToken to nextNode.`
			`*/`
			`createRewriteNodeFromElement(token,hetero,scope) ::= <<`
			`<if(hetero)>`
			`new <hetero>(stream_<token>.nextNode())`
			`<else>`
			`stream_<token>.nextNode()`
			`<endif>`
			`>>`

			`ruleCleanUp() ::= <<`
			`<super.ruleCleanUp()>`
			`<if(!rewriteMode)>`
			`<if(backtracking)>if ( this.state.backtracking===0 ) {<\n><endif>`
			`retval.tree = this.adaptor.rulePostProcessing(root_0);`
			`<if(backtracking)>}<endif>`
			`<endif>`
			`>>`