| /* |
| [The "BSD license"] |
| Copyright (c) 2005-2009 Jim Idle, Temporal Wave LLC |
| http://www.temporal-wave.com |
| http://www.linkedin.com/in/jimidle |
| |
| All rights reserved. |
| |
| Redistribution and use in source and binary forms, with or without |
| modification, are permitted provided that the following conditions |
| are met: |
| 1. Redistributions of source code must retain the above copyright |
| notice, this list of conditions and the following disclaimer. |
| 2. Redistributions in binary form must reproduce the above copyright |
| notice, this list of conditions and the following disclaimer in the |
| documentation and/or other materials provided with the distribution. |
| 3. The name of the author may not be used to endorse or promote products |
| derived from this software without specific prior written permission. |
| |
| THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR |
| IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES |
| OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. |
| IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, |
| INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT |
| NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF |
| THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| */ |
| |
| /** Templates for building ASTs during normal 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 |
| * |
| * The situation is not too bad as rewrite (->) usage makes ^ and ! |
| * invalid. There is no huge explosion of combinations. |
| */ |
| |
| @rule.setErrorReturnValue() ::= << |
| retval.tree = (<ASTLabelType>)(ADAPTOR->errorNode(ADAPTOR, INPUT, retval.start, LT(-1), EXCEPTION)); |
| >> |
| |
| // TOKEN AST STUFF |
| |
| /** ID and output=AST */ |
| tokenRef(token,label,elementIndex,terminalOptions) ::= << |
| <super.tokenRef(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) {<endif> |
| <label>_tree = (<ASTLabelType>)(ADAPTOR->create(ADAPTOR, <label>)); |
| ADAPTOR->addChild(ADAPTOR, root_0, <label>_tree); |
| <if(backtracking)>}<endif> |
| >> |
| |
| /** ID! and output=AST (same as plain tokenRef) */ |
| tokenRefBang(token,label,elementIndex,terminalOptions) ::= "<super.tokenRef(...)>" |
| |
| /** ID^ and output=AST */ |
| tokenRefRuleRoot(token,label,elementIndex,terminalOptions) ::= << |
| <super.tokenRef(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) {<endif> |
| <label>_tree = <createNodeFromToken(...)>; |
| root_0 = (<ASTLabelType>)(ADAPTOR->becomeRoot(ADAPTOR, <label>_tree, root_0)); |
| <if(backtracking)>}<endif> |
| >> |
| |
| /** ids+=ID! and output=AST */ |
| tokenRefBangAndListLabel(token,label,elementIndex,terminalOptions) ::= << |
| <tokenRefBang(...)> |
| <listLabel(elem=label,...)> |
| >> |
| |
| |
| /** label+=TOKEN when output=AST but not rewrite alt */ |
| tokenRefAndListLabel(token,label,elementIndex,terminalOptions) ::= << |
| <tokenRef(...)> |
| <listLabel(elem=label,...)> |
| >> |
| |
| |
| /** Match label+=TOKEN^ when output=AST but not rewrite alt */ |
| tokenRefRuleRootAndListLabel(token,label,terminalOptions,elementIndex) ::= << |
| <tokenRefRuleRoot(...)> |
| <listLabel(elem=label,...)> |
| >> |
| |
| // SET AST |
| |
| // the match set stuff is interesting in that it uses an argument list |
| // to pass code to the default matchSet; another possible way to alter |
| // inherited code. I don't use the region stuff because I need to pass |
| // different chunks depending on the operator. I don't like making |
| // the template name have the operator as the number of templates gets |
| // large but this is the most flexible--this is as opposed to having |
| // the code generator call matchSet then add root code or ruleroot code |
| // plus list label plus ... The combinations might require complicated |
| // rather than just added on code. Investigate that refactoring when |
| // I have more time. |
| |
| matchSet(s,label,terminalOptions,elementIndex,postmatchCode) ::= << |
| <super.matchSet(postmatchCode={<if(backtracking)>if ( <actions.(actionScope).synpredgate> ) <endif>ADAPTOR->addChild(ADAPTOR, root_0, <createNodeFromToken(...)>);},...)> |
| >> |
| |
| matchRuleBlockSet(s,label,terminalOptions,elementIndex,postmatchCode,treeLevel="0") ::= << |
| <matchSet(...)> |
| >> |
| |
| matchSetBang(s,label,elementIndex,terminalOptions,postmatchCode) ::= "<super.matchSet(...)>" |
| |
| // note there is no matchSetTrack because -> rewrites force sets to be |
| // plain old blocks of alts: (A|B|...|C) |
| |
| matchSetRuleRoot(s,label,terminalOptions,elementIndex,debug) ::= << |
| <if(label)> |
| <label>=(<labelType>)LT(1);<\n> |
| <endif> |
| <super.matchSet(postmatchCode={<if(backtracking)>if ( <actions.(actionScope).synpredgate> ) <endif>root_0 = (<ASTLabelType>)(ADAPTOR->becomeRoot(ADAPTOR, <createNodeFromToken(...)>, root_0));},...)> |
| >> |
| |
| // RULE REF AST |
| |
| /** rule when output=AST */ |
| ruleRef(rule,label,elementIndex,args,scope) ::= << |
| <super.ruleRef(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) <endif>ADAPTOR->addChild(ADAPTOR, root_0, <label>.tree); |
| >> |
| |
| /** rule! is same as normal rule ref */ |
| ruleRefBang(rule,label,elementIndex,args,scope) ::= "<super.ruleRef(...)>" |
| |
| /** rule^ */ |
| ruleRefRuleRoot(rule,label,elementIndex,args,scope) ::= << |
| <super.ruleRef(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) <endif>root_0 = (<ASTLabelType>)(ADAPTOR->becomeRoot(ADAPTOR, <label>.tree, root_0)); |
| >> |
| |
| /** x+=rule when output=AST */ |
| ruleRefAndListLabel(rule,label,elementIndex,args,scope) ::= << |
| <ruleRef(...)> |
| <listLabelAST(...)> |
| >> |
| |
| /** x+=rule! when output=AST is a rule ref with list addition */ |
| ruleRefBangAndListLabel(rule,label,elementIndex,args,scope) ::= << |
| <ruleRefBang(...)> |
| <listLabelAST(...)> |
| >> |
| |
| /** x+=rule^ */ |
| ruleRefRuleRootAndListLabel(rule,label,elementIndex,args,scope) ::= << |
| <ruleRefRuleRoot(...)> |
| <listLabelAST(...)> |
| >> |
| |
| // WILDCARD AST |
| |
| wildcard(token,label,elementIndex,terminalOptions) ::= << |
| <super.wildcard(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) {<endif> |
| <label>_tree = (<ASTLabelType>)(ADAPTOR->create(ADAPTOR, <label>)); |
| ADAPTOR->addChild(ADAPTOR, root_0, <label>_tree); |
| <if(backtracking)>}<endif> |
| >> |
| |
| wildcardBang(token,label,elementIndex,terminalOptions) ::= "<super.wildcard(...)>" |
| |
| wildcardRuleRoot(label,elementIndex) ::= << |
| <super.wildcard(...)> |
| <if(backtracking)>if ( <actions.(actionScope).synpredgate> ) {<endif> |
| <label>_tree = (<ASTLabelType>)(ADAPTOR->create(ADAPTOR, <label>)); |
| root_0 = (<ASTLabelType>)(ADAPTOR->becomeRoot(ADAPTOR, <label>_tree, root_0)); |
| <if(backtracking)>}<endif> |
| >> |
| |
| createNodeFromToken(label,terminalOptions) ::= << |
| <if(terminalOptions.node)> |
| <terminalOptions.node>New(<label>) <! new MethodNode(IDLabel) !> |
| <else> |
| (<ASTLabelType>)(ADAPTOR->create(ADAPTOR, <label>)) |
| <endif> |
| >> |
| |
| ruleCleanUp() ::= << |
| <super.ruleCleanUp()> |
| <if(backtracking)> |
| if ( <actions.(actionScope).synpredgate> ) |
| {<\n> |
| <endif> |
| <if(!ruleDescriptor.isSynPred)> |
| retval.stop = LT(-1);<\n> |
| <endif> |
| retval.tree = (<ASTLabelType>)(ADAPTOR->rulePostProcessing(ADAPTOR, root_0)); |
| ADAPTOR->setTokenBoundaries(ADAPTOR, retval.tree, retval.start, retval.stop); |
| <ruleDescriptor.allTokenRefsInAltsWithRewrites |
| :{it | if (stream_<it> != NULL) stream_<it>->free(stream_<it>);}; separator="\n"> |
| <ruleDescriptor.allRuleRefsInAltsWithRewrites |
| :{it | if (stream_<it> != NULL) stream_<it>->free(stream_<it>);}; separator="\n"> |
| <if(backtracking)> |
| }<\n> |
| <endif> |
| >> |