JavaPatternMatching/src/mycompiler/mystatement/NewClass.java

// ino.module.NewClass.8642.package 
package mycompiler.mystatement;
// ino.end
// ino.module.NewClass.8642.import 
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Iterator;
import java.util.Vector;

import mycompiler.SyntaxTreeNode;
import mycompiler.mybytecode.ClassFile;
import mycompiler.mybytecode.CodeAttribute;
import mycompiler.mybytecode.JVMCode;
import mycompiler.myclass.Class;
import mycompiler.myclass.UsedId;
import mycompiler.myexception.CTypeReconstructionException;
import mycompiler.myexception.JVMCodeException;
import mycompiler.myexception.SCExcept;
import mycompiler.myexception.SCStatementException;
import mycompiler.mytype.GenericTypeVar;
import mycompiler.mytype.RefType;
import mycompiler.mytype.Type;
import mycompiler.mytype.TypePlaceholder;
import mycompiler.mytype.Void;
import mycompiler.mytypereconstruction.CMultiplyTuple;
import mycompiler.mytypereconstruction.CSupportData;
import mycompiler.mytypereconstruction.CTriple;
import mycompiler.mytypereconstruction.set.CMultiplyTupleSet;
import mycompiler.mytypereconstruction.set.CSubstitutionSet;
import mycompiler.mytypereconstruction.set.CTripleSet;
import mycompiler.mytypereconstruction.set.CTypeAssumptionSet;
import mycompiler.mytypereconstruction.typeassumption.CParaTypeAssumption;
import mycompiler.mytypereconstruction.typeassumption.CTypeAssumption;

import org.apache.log4j.Logger;
// ino.end




import typinferenz.JavaCodeResult;
import typinferenz.Overloading;
import typinferenz.SingleConstraint;
import typinferenz.ConstraintsSet;
import typinferenz.FreshTypeVariable;
import typinferenz.FunN;
import typinferenz.ResultSet;
import typinferenz.assumptions.TypeAssumptions;




// ino.class.NewClass.25830.declaration 
public class NewClass extends Expr
// ino.end
// ino.class.NewClass.25830.body
{
    // ino.method.NewClass.25834.definition 
    public NewClass(int offset,int variableLength)
    // ino.end
    // ino.method.NewClass.25834.body 
    {
        super(offset,variableLength);
    }
    // ino.end

    // ino.attribute.arglist.25837.declaration 
    private ArgumentList arglist;
    // ino.end
    // ino.attribute.parserlog.25840.declaration 
    protected static Logger parserlog = Logger.getLogger("parser");
    // ino.end
    
    
    // ino.method.getArgumentList.25843.definition 
    public ArgumentList getArgumentList()
    // ino.end
    // ino.method.getArgumentList.25843.body 
    {
       return this.arglist;
    }
    // ino.end

    // ino.method.get_Name.25846.definition 
    public String get_Name()
    // ino.end
    // ino.method.get_Name.25846.body 
    {
    return this.usedid.get_Name_1Element();
    }
    // ino.end

    // ino.method.set_UsedId.25849.definition 
    public void set_UsedId( UsedId t)
    // ino.end
    // ino.method.set_UsedId.25849.body 
    {
    this.usedid = t;
    }
    // ino.end
    
    // ino.method.sc_check.25852.definition 
    public void sc_check(Vector<Class> classname, Hashtable bh, Hashtable<String, String> ch, boolean ext, Hashtable parach, Hashtable<String, Hashtable> parabh)
    throws SCStatementException
    // ino.end
    // ino.method.sc_check.25852.body 
    {
    if(ext)
        parserlog.debug("                    ---NewClass---");      
    Class cl;
    String usedid = this.usedid.get_Name_1Element();
    String next = null;
    for(Enumeration<Class> el = classname.elements(); el.hasMoreElements();)
        {
        cl = el.nextElement();
        next = (String)cl.getName();
        if(ext)
            parserlog.debug("Vergleiche "+usedid+" mit "+next);
        if(usedid.equals(next))
            {
            this.set_Type(new Type(next,getOffset()));
            break;
            }
        else next = null;
        }
    if(next == null)
        {
        if(ext)
            parserlog.error("Typfehler --> NewClass.sc_check()" );
        SCStatementException stex = new SCStatementException();
        SCExcept ex = new SCExcept();
        ex.set_error("Typfehler");
        ex.set_statement("NewClass: Klasse "+usedid+" existiert nicht im Vector classname."); 
        stex.addException(ex);
        throw stex;
        }
    if(ext)
        parserlog.debug("Klasse "+usedid+" im class-Vector gefunden");
    }
    // ino.end
    
    // ino.method.set_ArgumentList.25855.definition 
    public void set_ArgumentList(ArgumentList al)
    // ino.end
    // ino.method.set_ArgumentList.25855.body 
    {
    this.arglist = al;
    }
    // ino.end

    // ino.method.codegen.25858.definition 
    public void codegen(ClassFile classfile, CodeAttribute code, Vector paralist)
    throws JVMCodeException
    // ino.end
// ino.method.codegen.25858.body 
{
        String class_name = this.get_UsedId().get_codegen_UsedId();
        String arg;

        // Argumentliste verarbeiten
        if (arglist != null) {
            arg = arglist.get_codegen_ArgumentList(paralist);
        } else {
            arg = "()";
        }
        code.add_code(JVMCode.new_);
        code.add_code_short(classfile.add_CONSTANT_Class_info(class_name));
        code.add_code(JVMCode.dup);

        // Vor invokespecial die Parameter auf den Stack legen
        if (arglist != null) {
            // Die einzelnen Argumente generieren
            for (int i=0; i< arglist.expr.size(); i++) {
                arglist.expr.elementAt(i).codegen(classfile, code, paralist);
            }
        }
        
        code.add_code(JVMCode.invokespecial);
        code.add_code_short(classfile.add_method_ref(class_name, "<init>", arg
                + "V"));
    }
// ino.end

    // ino.method.toString.25867.defdescription type=javadoc
     /**
      * <br/>Author: Martin Pl<EFBFBD>micke
      * @return
      */
     // ino.end
    // ino.method.toString.25867.definition 
    public String toString()
    // ino.end
    // ino.method.toString.25867.body 
    {
    	String ret = "NEW ";
    	Type thisType = getType();
    	if(thisType != null)ret += thisType.toString();
    	else ret += this.get_Name();
        return ret;
    }
    // ino.end
    
    // ino.method.wandleRefTypeAttributes2GenericAttributes.25870.definition 
    public void wandleRefTypeAttributes2GenericAttributes(Vector<Type> paralist, Vector<GenericTypeVar> genericMethodParameters)
    // ino.end
    // ino.method.wandleRefTypeAttributes2GenericAttributes.25870.body 
    {
    }
    // ino.end
    
    public void addOffsetsToExpression(CTypeAssumption localAssumption,String NameVariable,boolean isMemberVariable)
    {
        if(this.get_UsedId().get_Name_1Element().equals(NameVariable))
        {
            //wenn Variable mit gleichem Namen gefunden->schreibe Offset
            localAssumption.addOffset(this.get_UsedId().getOffset()); 
        }
        if(this.getArgumentList()!=null){
        for(Expr n : this.getArgumentList().expr)
        {
            n.addOffsetsToExpression(localAssumption,NameVariable,isMemberVariable);
        }} 
    }

	@Override
	public ConstraintsSet TYPEExpr(TypeAssumptions assumptions) {
		//TODO: Das hier noch vervollst<73>ndigen
		ConstraintsSet ret = new ConstraintsSet();
		
		this.set_Type(TypePlaceholder.fresh(this));
		//Die Auskommentierten Zeilen geh<65>ren zu MethodRefNew
		//Vector<Type> argumentTypeList = new Vector<Type>();
		//for(Expr expr : this.arglist.expr){
		//	argumentTypeList.add(expr.getTypeVariable());
		//}
		//FunN funN= new FunN(null,argumentTypeList);
		
		//Constraint newClassTypeConstraint = new Constraint(null,null);
		//ret.add(newClassTypeConstraint);
		
		if(this.arglist != null && this.arglist.expr != null)for(Expr arg : this.arglist.expr){
			ret.add(arg.TYPEExpr(assumptions));
		}
		
		//Ein new-Aufruf ist nichts anderes als ein MethodCall der Methode <init>
		MethodCall newAufruf = new MethodCall(0,0);
		this.setType(new RefType(this.get_Name(),0));
		newAufruf.type = new RefType(this.get_Name(),0);
		newAufruf.set_Name(this.get_Name());
		newAufruf.set_Receiver(null);
		ret.add(new Overloading(assumptions, newAufruf, this.getType()).generateConsstraints());
		
		return ret;
	}
	
	/**
	 * Spezifikation:
	 * 	TYPEStmt( Ass, stmt ) =
	 * 	let (stmt : rty, ConS) = TYPEExpr( Ass, stmt )
	 * 	in (stmt : Void, ConS)
	 */
	@Override
	public ConstraintsSet TYPEStmt(TypeAssumptions assumptions){
		ConstraintsSet ret = this.TYPEExpr(assumptions); //TypeExpr aufrufen
		this.set_Type(new Void(0)); //Typ des Statments auf Void setzen.
		return ret;
	}

	@Override
	public JavaCodeResult printJavaCode(ResultSet resultSet) {
		JavaCodeResult ret = new JavaCodeResult("new ");
		ret.attach(this.getType().printJavaCode(resultSet));
		ret.attach("(");
		if(this.arglist!=null && this.arglist.expr != null){
			Iterator<Expr> it = this.arglist.expr.iterator();	
			while(it.hasNext()){
			Expr arg = it.next();
			ret.attach(arg.printJavaCode(resultSet));
			if(it.hasNext())ret.attach(", ");
			}
			//ret = ret.substring(0, ret.length()-2);
		}
		ret.attach(")");

		return ret;
	}
	@Override
	public Vector<SyntaxTreeNode> getChildren() {
		Vector<SyntaxTreeNode> ret = new Vector<SyntaxTreeNode>();
		if(this.arglist!=null)for(Expr e : this.arglist.expr){
			ret.add(e);	
		}
		return ret;
	}
	
	
}
// ino.end