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ANTLR: Heterogeneous AST and imaginary tokens

开发者 https://www.devze.com 2023-03-22 06:08 出处:网络
it\'s my first question here :) I\'d like to build an heterogeneous AST with ANTLR for a simple grammar. There are different Interfaces to represent the AST nodes, e. g. IInfiExp, IVariableDecl. ANTL

it's my first question here :)

I'd like to build an heterogeneous AST with ANTLR for a simple grammar. There are different Interfaces to represent the AST nodes, e. g. IInfiExp, IVariableDecl. ANTLR comes up with CommonTree to hold all the information of the source code (line number, character position etc.) and I want to use this as a base for the implementations of the AST interfacese IInfixExp ...

In order to get an AST as output with CommonTree as node types, I set:

options {
  language     = Java;
  k            = 1;
  output       = AST;
  ASTLabelType = CommonTree;
}

The IInifxExp is:

package toylanguage;

public interface IInfixExp extends IExpression {
    public enum Operator {
        PLUS, MINUS, TIMES, DIVIDE;
    }

    public Operator getOperator();

    public IExpression getLeftHandSide();

    public IExpression getRightHandSide();
}

and the implementation InfixExp is:

package toylanguage;

import org.antlr.runtime.Token;
import org.antlr.runtime.tree.CommonTree;

// IInitializable has only void initialize()
public class InfixExp extends CommonTree implements IInfixExp, IInitializable {
    private Operator operator;
    private IExpression leftHandSide;
    private IExpression rightHandSide;

    InfixExp(Token token) {
        super(token);
    }

    @Override
    public Operator getOperator() {
        return operator;
    }

    @Override
    public IExpression getLeftHandSide() {
        return leftHandSide;
    }

    @Override
    public IExpression getRightHandSide() {
        return rightHandSide;
    }

    // from IInitializable. get called from ToyTreeAdaptor.rulePostProcessing
    @Override
    public void initialize() {
        // term ((PLUS|MINUS) term)+
        // atom ((TIMES|DIIDE) atom)+

        // exact 2 children
        assert getChildCount() == 2;

        // left and right child are IExpressions
        assert getChild(0) instanceof IExpression
                && getChild(1) instanceof IExpression;

        // operator
        switch (token.getType()) {
        case ToyLanguageParser.PLUS:
            operator = Operator.PLUS;
            break;
        case ToyLanguageParser.MINUS:
            operator = Operator.MINUS;
            break;
        case ToyLanguageParser.TIMES:
            operator = Operator.TIMES;
            break;
        case ToyLanguageParser.DIVIDE:
            operator = Operator.DIVIDE;
            break;
        default:
            assert false;
        }

        // left and right operands
        leftHandSide = (IExpression) getChild(0);
        rightHandSide = (IExpression) getChild(1);
    }
}

The corresponding rules are:

exp // e.g. a+b
  : term ((PLUS<InfixExp>^|MINUS<InfixExp>^) term)*
  ;

term // e.g. a*b
  : atom ((TIMES<InfixExp>^|DIVIDE<InfixExp>^) atom)*
  ;

This works fine, becouse PLUS, MINUS etc. are "real" tokens.

But now comes to the imaginary token:

tokens {
  PROGRAM;
}

The corresponding rule is:

program // e.g. var a, b; a + b
  : varDecl* exp
    -> ^(PROGRAM<Program> varDecl* exp)
  ;

With this, ANTLR doesn't create a tree with PROGRAM as root node.

In the parser, the following code creates the Program instance:

root_1 = (CommonTree)adaptor.becomeRoot(new Program(PROGRAM), root_1);

Unlike InfixExp not the Program(Token) constructor but Program(int) is invoked.

Program is:

package toylanguage;

import java.util.Collections;
import java.util.LinkedList;
import java.util.List;

import org.antlr.runtime.Token;
import org.antlr.runtime.tree.CommonTree;

class Program extends CommonTree implements IProgram, IInitializable {
    private final LinkedList<IVariableDecl> variableDeclarations = new LinkedList<IVariableDecl>();
    private IExpression expression = null;

    Program(Token token) {
        super(token);
    }

    public Program(int tokeType) {
        // What to do?
        super();
    }

    @Override
    public List<IVariableDecl> getVariableDeclarations() {
        // don't allow to change the list
        return Collections.unmodifiableList(variableDeclarations);
    }

    @Override
    public IExpression getExpression() {
        return expression;
    }

    @Override
    public void initialize() {
        // program: varDecl* exp;

        // at least one child
        assert getChildCount() > 0;

        // the last o开发者_C百科ne is a IExpression
        assert getChild(getChildCount() - 1) instanceof IExpression;

        // iterate over varDecl*
        int i = 0;
        while (getChild(i) instanceof IVariableDecl) {
            variableDeclarations.add((IVariableDecl) getChild(i));
            i++;
        }

        // exp
        expression = (IExpression) getChild(i);
    }
}

you can see the constructor:

    public Program(int tokeType) {
        // What to do?
        super();
    }

as a result of it, with super() a CommonTree ist build without a token. So CommonTreeAdaptor.rulePostProcessing see a flat list, not a tree with a Token as root.

My TreeAdaptor looks like:

package toylanguage;

import org.antlr.runtime.tree.CommonTreeAdaptor;

public class ToyTreeAdaptor extends CommonTreeAdaptor {
    public Object rulePostProcessing(Object root) {
        Object result = super.rulePostProcessing(root);

        // check if needs initialising
        if (result instanceof IInitializable) {
            IInitializable initializable = (IInitializable) result;
            initializable.initialize();
        }

        return result;
    };
}

And to test anything I use:

package toylanguage;

import org.antlr.runtime.ANTLRStringStream;
import org.antlr.runtime.CommonTokenStream;
import org.antlr.runtime.RecognitionException;
import org.antlr.runtime.TokenStream;
import org.antlr.runtime.tree.CommonTree;

import toylanguage.ToyLanguageParser.program_return;

public class Processor {
    public static void main(String[] args) {
        String input = "var a, b; a + b + 123"; // sample input

        ANTLRStringStream stream = new ANTLRStringStream(input);
        ToyLanguageLexer lexer = new ToyLanguageLexer(stream);
        TokenStream tokens = new CommonTokenStream(lexer);
        ToyLanguageParser parser = new ToyLanguageParser(tokens);
        ToyTreeAdaptor treeAdaptor = new ToyTreeAdaptor();
        parser.setTreeAdaptor(treeAdaptor);

        try {
            // test with: var a, b; a + b
            program_return program = parser.program();

            CommonTree root = program.tree;
            // prints 'a b (+ a b)'
            System.out.println(root.toStringTree());

            // get (+ a b), the third child of root
            CommonTree third = (CommonTree) root.getChild(2);

            // prints '(+ a b)'
            System.out.println(third.toStringTree());

            // prints 'true'
            System.out.println(third instanceof IInfixExp);

            // prints 'false'
            System.out.println(root instanceof IProgram);
        } catch (RecognitionException e) {
            e.printStackTrace();
        }
    }
}

For completeness, here is the full grammar:

grammar ToyLanguage;

options {
  language     = Java;
  k            = 1;
  output       = AST;
  ASTLabelType = CommonTree;
}

tokens {
  PROGRAM;
}

@header {
  package toylanguage;
}

@lexer::header {
  package toylanguage;
}

program // e.g. var a, b; a + b
  : varDecl* exp
    -> ^(PROGRAM<Program> varDecl* exp)
  ;

varDecl // e.g. var a, b;
  : 'var'! ID<VariableDecl> (','! ID<VariableDecl>)* ';'!
  ;

exp // e.g. a+b
  : term ((PLUS<InfixExp>^|MINUS<InfixExp>^) term)*
  ;

term // e.g. a*b
  : atom ((TIMES<InfixExp>^|DIVIDE<InfixExp>^) atom)*
  ;

atom
  : INT<IntegerLiteralExp> // e.g. 123
  | ID<VariableExp>        // e.g. a
  | '(' exp ')' -> exp     // e.g. (a+b)
  ;

INT    : ('0'..'9')+ ;
ID     : ('a'..'z')+ ;
PLUS   : '+' ;
MINUS  : '-' ;
TIMES  : '*' ;
DIVIDE : '/' ;

WS : ('\t' | '\n' | '\r' | ' ')+ { $channel = HIDDEN; } ;

OK, the final question is how to get from

program // e.g. var a, b; a + b
  : varDecl* exp
    -> ^(PROGRAM<Program> varDecl* exp)
  ;

a tree with PROGRAM as root

^(PROGRAM varDecl* exp)

and not a flat list with

(varDecl* exp) ?

(Sorry for this numerous code fragments)

Ciao Vertex


Try creating the following constructor:

public Program(int tokenType) {
    super(new CommonToken(tokenType, "PROGRAM"));
}
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