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Difference between revisions of "FAQ How do I create and examine an AST?"

 
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<hr><font size=-2>This FAQ was originally published in [http://www.eclipsefaq.org Official Eclipse 3.0 FAQs]. Copyright 2004, Pearson Education, Inc. All rights reserved. This text is made available here under the terms of the [http://www.eclipse.org/legal/epl-v10.html Eclipse Public License v1.0].</font>
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Latest revision as of 13:54, 30 May 2013



An AST is created by using an instance of ASTParser, created using the newParser factory method. You will typically create an AST for a compilation unit in the workspace, but you can also create ASTs for class files or source code from other locations. A powerful feature introduced in Eclipse 3.0 is the ability to produce a partial AST. For example, you can create a skeletal AST representing only the principal structure of the file or with only a single method body fully resolved. This offers a considerable performance gain over a full-blown AST if you need to extract information from only a small portion of a file. See the javadoc of ASTParser for more details.


Once an AST is created, the most common way to traverse or manipulate it is through a visitor. As with the traditional visitor pattern, each variety of AST node has a different visit method, so you can implement a visitor that analyzes only certain kinds of expressions or statements. Outside of visitors, each AST node offers accessor methods for each child type that is appropriate for that node. For example, a MethodDeclaration node has getBody and setBody methods for accessing or replacing the block statement representing the body of the method. There are no methods for generically accessing the children of a node, although there is a generic getParent method for accessing the parent of a node.


The PrintASTAction class in the FAQ Examples plug-in shows a simple example of constructing and traversing an AST for the currently selected compilation unit. A visitor prints out the name of each AST node in the file with braces surrounding the children of each node:

   class ASTPrinter extends ASTVisitor {
      StringBuffer buffer = new StringBuffer();
      public void preVisit(ASTNode node) {
         //write the name of the node being visited
         printDepth(node);
         String name = node.getClass().getName();
         name = name.substring(name.lastIndexOf('.')+1);
         buffer.append(name);
         buffer.append(" {\r\n");
      }
      public void postVisit(ASTNode node) {
         //write a closing brace to indicate end of the node
         printDepth(node);
         buffer.append("}\r\n");
      }
      void printDepth(ASTNode node) {
         //indent the current line to an appropriate depth
         while (node != null) {
            node = node.getParent();
            buffer.append("  ");
         }
      }
   }
   ...
   //java model handle for selected file
   ICompilationUnit unit = ...;
   ASTParser parser = ASTParser.newParser(AST.JLS2);
   parser.setKind(ASTParser.K_COMPILATION_UNIT);
   CompilationUnit ast = 
                  (CompilationUnit)parser.createAST(null);
   ASTPrinter printer = new ASTPrinter();
   ast.accept(printer);
   MessageDialog.openInformation(shell, "AST for: " + 
      unit.getElementName(), printer.buffer.toString());


See Also:

FAQ_How_do_I_manipulate_Java_code?

FAQ_What_is_an_AST?


This FAQ was originally published in Official Eclipse 3.0 FAQs. Copyright 2004, Pearson Education, Inc. All rights reserved. This text is made available here under the terms of the Eclipse Public License v1.0.