Merge, ObjectClass anfügen

This commit is contained in:
JanUlrich 2016-11-15 19:47:46 +01:00
commit 85dc60169a
30 changed files with 446 additions and 404 deletions

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@ -0,0 +1,93 @@
package de.dhbwstuttgart.bytecode;
import de.dhbwstuttgart.syntaxtree.type.BoundedGenericTypeVar;
import de.dhbwstuttgart.syntaxtree.type.GenericTypeVar;
import de.dhbwstuttgart.syntaxtree.type.ObjectType;
import de.dhbwstuttgart.syntaxtree.type.RefType;
import de.dhbwstuttgart.syntaxtree.type.Type;
import de.dhbwstuttgart.typeinference.exceptions.NotImplementedException;
public class BytecodeTypeFactory {
/**
* @see https://docs.oracle.com/javase/specs/jvms/se8/html/jvms-4.html#jvms-FieldType
*/
public static String generateFieldDescriptor(Type t){
String ret = "";
if(t instanceof RefType){
ret += "L" + t.getName().toString().replace('.', '/') + ";";
}else{
throw new NotImplementedException();
}
return ret;
}
/**
* @see https://docs.oracle.com/javase/specs/jvms/se8/html/jvms-4.html#jvms-ClassSignature
*/
public static String generateClassSignature(de.dhbwstuttgart.syntaxtree.Class c){
String ret = "";
if(c.getGenericParameter() != null && c.getGenericParameter().size() > 0){
ret += "<";
for(GenericTypeVar gtv : c.getGenericParameter()){
ret += generateTypeParameter(gtv);
}
ret += ">";
}
//Add the SuperClassSignature:
c.getSuperClass();
ret += generateClassTypeSignature();
return ret;
}
public static String generateSuperClassSignature(Type superClass){
String ret = "";
//TODO:
throw new NotImplementedException();
}
private static String generateTypeParameter(GenericTypeVar gtv){
String ret = gtv.get_Name() + ":";
for(ObjectType t : gtv.getBounds()){
ret += generateReferenceTypeSignature(t);
ret += ":";
}
ret = ret.substring(0, ret.length()-1);
return ret;
}
/**
* @see https://docs.oracle.com/javase/specs/jvms/se8/html/jvms-4.html#jvms-ClassTypeSignature
*/
private static String generateClassTypeSignature(){
return null;
}
/**
* @see https://docs.oracle.com/javase/specs/jvms/se8/html/jvms-4.html#jvms-ReferenceTypeSignature
*/
private static String generateReferenceTypeSignature(Type t){
if(t instanceof RefType)return generateReferenceTypeSignature((RefType)t);
if(t instanceof GenericTypeVar)return generateReferenceTypeSignature((GenericTypeVar)t);
throw new NotImplementedException();
}
private static String generateReferenceTypeSignature(RefType t){
String ret = "L" + t.get_Name();
if(t.getParaList() != null && t.getParaList().size() > 0){
ret += "<";
for(Type p : t.getParaList()){
ret += generateReferenceTypeSignature(p);
}
ret+=">";
}
return ret + ";";
}
private static String generateReferenceTypeSignature(GenericTypeVar t){
String ret = "T" + t.get_Name();
return ret + ";";
}
}

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@ -20,6 +20,8 @@ import org.apache.bcel.classfile.Signature;
import org.apache.bcel.generic.ClassGen;
import org.apache.bcel.generic.ConstantPoolGen;
import de.dhbwstuttgart.parser.JavaClassName;
import de.dhbwstuttgart.syntaxtree.type.GenericTypeVar;
import de.dhbwstuttgart.syntaxtree.type.RefType;
import de.dhbwstuttgart.syntaxtree.type.Type;
import de.dhbwstuttgart.syntaxtree.type.TypePlaceholder;
@ -36,6 +38,7 @@ public class ClassGenerator extends ClassGen{
private TypeinferenceResults tiResult;
private int lambdaMethodeNr = 0;
private Type superClass;
private List<GenericTypeVar> generics;
private Menge<TypePlaceholder> usedTPHs = new Menge<>();
@ -43,11 +46,14 @@ public class ClassGenerator extends ClassGen{
private List<String> methodsNamesAndTypes = new LinkedList<>();
private MethodGenerator methodGenerator;
public ClassGenerator(String name, Type superClass, String string, short accessflags, String[] strings, TypeinferenceResults typeinferenceResults) {
super(name,superClass.get_Name(),string,accessflags,strings, new DHBWConstantPoolGen());
this.tiResult = typeinferenceResults;
public ClassGenerator(JavaClassName name, Type superClass, List<GenericTypeVar> generics,
String sourceFileName, short accessflags, String[] implementedInterfaces, TypeinferenceResults rs) {
super(name.toString(),superClass.get_Name(),sourceFileName,accessflags,implementedInterfaces, new DHBWConstantPoolGen());
//this.tiResult = typeinferenceResultSet;
this.superClass = superClass;
this.generics = generics;
tiResult = rs;
cp = (DHBWConstantPoolGen) super.getConstantPool();
factory = new DHBWInstructionFactory(this, cp);
this.setMajor(52); //Java 8 Version 52.0
@ -62,7 +68,7 @@ public class ClassGenerator extends ClassGen{
* Versucht einen Type zu finden von dem dieser TPH ein Subtyp sein muss.
* @param toTPH
* @return Es gilt dann "toTPH extends Type"
*/
public org.apache.bcel.generic.Type getNearestUsedType(Type t, Menge<TypePlaceholder> usedTypes){
if(t == null){
return this.getInstructionFactory().createObjectType();
@ -70,13 +76,13 @@ public class ClassGenerator extends ClassGen{
//return getNearestType((TypePlaceholder) t);
return new TypePlaceholderType((TypePlaceholder) t);
}else{
return t.getBytecodeType(this, getTypeinferenceResults().getTypeReconstructions().get(0));
return t.getBytecodeType(this, getTypeinferenceResultSet().getTypeReconstructions().get(0));
}
}
public org.apache.bcel.generic.Type getNearestUsedType(TypePlaceholder toTPH){
return this.getNearestUsedType(toTPH, null);
}
*/
public String createLambdaMethodName() {
return "lambda$methode$"+(lambdaMethodeNr++);
}
@ -152,8 +158,19 @@ public class ClassGenerator extends ClassGen{
//Signatur setzen:
String typeParameters = this.generateParameterSignature();
String superClassSignature = this.superClass.getBytecodeSignature(this, null);
String classSignature = typeParameters + superClassSignature;
String superClassSignature = BytecodeTypeFactory.generateSuperClassSignature(this.superClass);//"L" + this.superClass.getBytecodeType(cg, rs)
superClassSignature = superClassSignature.substring(0, superClassSignature.length()-1); //Das ";" am Ende entfernen
if(this.superClass instanceof RefType &&
((RefType)superClass).get_ParaList() != null &&
((RefType)superClass).get_ParaList().size() > 0){
superClassSignature += "<";
RefType superRefType = (RefType) this.superClass;
for(Type param : superRefType.get_ParaList()){
superClassSignature += param.getBytecodeSignature(this, null);
}
superClassSignature += ">;";
}
String classSignature = typeParameters + superClassSignature; //TOOD: Hier noch die Signaturen der SuperInterfaces anfügen
if(classSignature.length()>0){
this.addAttribute(new Signature(cp.addUtf8("Signature"),2,cp.addUtf8(classSignature),cp.getConstantPool()));
}
@ -178,6 +195,16 @@ public class ClassGenerator extends ClassGen{
private String generateParameterSignature(){
String ret = "";
//ret += "L" + this.getClassName().replace(".", "/") + ";";
if(this.generics != null && this.generics.size() > 0){
ret += "<";
for(GenericTypeVar gtv : this.generics){
ret += gtv.getBytecodeSignature(this, tiResult.getTypeReconstructions().get(0));
}
ret += ">";
}
/*
if(this.getUsedTPH().size()>0){
ret += "<";
Iterator<TypePlaceholder> it = ((Menge<TypePlaceholder>)this.getUsedTPH().clone()).iterator();
@ -185,10 +212,11 @@ public class ClassGenerator extends ClassGen{
TypePlaceholder tph = it.next();
//ret += tph.getBytecodeMethodSignature(this);
//ret += ":";
ret += tph.getClassSignature(this, getTypeinferenceResults().getTypeReconstructions().get(0));
ret += tph.getClassSignature(this, null); //Es wird null übergeben. Die ClassSignaturen dürfen von keinem ResultSet abhängen.
}
ret += ">";
}
*/
return ret;
}
@ -199,10 +227,11 @@ public class ClassGenerator extends ClassGen{
public Map<String, ClassGenerator> getExtraClasses() {
return extraClasses;
}
public TypeinferenceResults getTypeinferenceResults() {
/*
public TypeinferenceResults getTypeinferenceResultSet() {
return tiResult;
}
*/
@Override
public void addMethod(Method m) {
@ -225,4 +254,5 @@ public class ClassGenerator extends ClassGen{
return methodGenerator;
}
}

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@ -148,7 +148,7 @@ public class MyCompiler implements MyCompilerAPI{
* Fun0-FunN (momentan ¼r N = 6)
* @return
*/
private TypeAssumptions makeFunNAssumptions(){
public static TypeAssumptions makeFunNAssumptions(){
TypeAssumptions ret = new TypeAssumptions();
//Basic Assumptions ¼r die FunN Interfaces:

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@ -72,7 +72,8 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
protected static Logger parserlog = Logger.getLogger("parser");
protected UsedId pkgName;
protected Modifiers modifiers;
protected String name;
protected JavaClassName name;
protected List<RefType> implementedInterfaces = new ArrayList<>();
/**
*
@ -90,8 +91,10 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
logger.debug("Test");
if(pkgName != null)throw new NotImplementedException();
short constants = Constants.ACC_PUBLIC; //Per Definition ist jede Methode public
_cg = new ClassGenerator(name, this.getSuperClass(), name + ".java", constants , new String[] { }, typeinferenceResults); //letzter Parameter sind implementierte Interfaces
short constants = Const.ACC_PUBLIC; //Per Definition ist jede Methode public
if(isInterface())constants+=Const.ACC_INTERFACE;
_cg = new ClassGenerator(name, this.getSuperClass(), this.getGenericParameter(), name + ".java", constants , new String[] { }, typeinferenceResults); //letzter Parameter sind implementierte Interfaces
_cp = _cg.getConstantPool();
_factory = new DHBWInstructionFactory(_cg, _cp);
@ -105,12 +108,14 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
if(field instanceof FieldDeclaration)fieldDeclarations.add((FieldDeclaration)field);
//field.genByteCode(_cg);
}
//Zuerst die Methoden und Felder abarbeiten:
for(Method m : methods){
m.genByteCode(_cg, this);
m.genByteCode(_cg, this, typeinferenceResults);
}
InstructionList fieldInitializations = new InstructionList();
for(FieldDeclaration f : fieldDeclarations){
//Die Felder können noch nicht überladen werden. Hier ist nur die erste der Lösungen möglich:
fieldInitializations.append(f.genByteCode(_cg, typeinferenceResults.getTypeReconstructions().get(0)));
}
//Die Konstruktoren müssen die Feld initialisierungswerte beinhalten:
@ -137,7 +142,7 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
}
public void setName(String strName)
{
name = strName;
name = new JavaClassName(strName);
}
public void setModifiers(Modifiers mod)
{
@ -194,7 +199,7 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
public Class(String name, int offset)
{
this.name = name;
this.name = new JavaClassName(name);
if(name.equals("java.lang.Object")){
superclassid=null;
}
@ -202,7 +207,17 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
if(!name.equals("Object") && !name.equals("java.lang.Object"))//Alle Klassen außer Object erben von Object:
this.superClass = new ObjectClass().getType();
}
// ino.end
public Class(JavaClassName name, List<Method> methoden, List<Field> felder, Modifiers modifier,
boolean isInterface, RefType superClass, List<RefType> implementedInterfaces,
GenericDeclarationList generics, int offset){
this(name.toString(), superClass, modifier, new Menge<>());
this.implementedInterfaces = implementedInterfaces;
this.offset = offset;
this.isInterface = isInterface;
this.isInterface();
this.genericClassParameters = generics;
}
/**
* Erstellt eine Klasse, welche nur ¼r die Assumptions verwendet wird.
@ -694,7 +709,7 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
{
//return superclassid.toString() + body.toString();
//geaendert PL 07-07-28
return name;
return name.toString();
}
// ino.end
@ -896,7 +911,7 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
break;
}
}
if(!constructorVorhanden){//Falls kein Konstruktor vorhanden ist, muss noch der Standardkonstruktor angefügt werden:
if(!constructorVorhanden && ! isInterface()){//Falls kein Konstruktor vorhanden ist, muss noch der Standardkonstruktor angefügt werden:
Block konstruktorBlock = new Block();
konstruktorBlock.statements.add(new SuperCall(konstruktorBlock));
Constructor standardKonstruktor = new Constructor(Method.createEmptyMethod(konstruktorBlock,this.getName().toString(), this), this);
@ -1008,10 +1023,10 @@ public class Class extends GTVDeclarationContext implements AClassOrInterface, I
return true;
}
protected boolean isInterface;
public boolean isInterface(){
return false;
return isInterface;
}
/*
private Collection<? extends ByteCodeResult> getGenericClasses() {
Collection<ByteCodeResult> results = new Menge<>();

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@ -28,6 +28,7 @@ import de.dhbwstuttgart.typeinference.ConstraintsSet;
import de.dhbwstuttgart.typeinference.JavaCodeResult;
import de.dhbwstuttgart.typeinference.ResultSet;
import de.dhbwstuttgart.typeinference.TypeinferenceResultSet;
import de.dhbwstuttgart.typeinference.TypeinferenceResults;
import de.dhbwstuttgart.typeinference.assumptions.ConstructorAssumption;
import de.dhbwstuttgart.typeinference.assumptions.MethodAssumption;
import de.dhbwstuttgart.typeinference.assumptions.ParameterAssumption;
@ -65,7 +66,9 @@ public class Constructor extends Method {
InstructionList il = new InstructionList(); //sollte nicht new sein sondern aus Block kommen
Class parentClass = this.getParentClass();
MethodGenerator method = new MethodGenerator(Constants.ACC_PUBLIC, this.getType().getBytecodeType(cg, null), this.parameterlist.getBytecodeTypeList(cg,null) , this.parameterlist.getParameterNameArray(), "<init>", parentClass.name, il, _cp);
MethodGenerator method = new MethodGenerator(Constants.ACC_PUBLIC,
this.getType().getBytecodeType(cg, null), this.parameterlist.getBytecodeTypeList(cg,null),
this.parameterlist.getParameterNameArray(), "<init>", parentClass.name.toString(), il, _cp);
//FieldInitializations an Block anfügen
Block block = this.get_Block();
@ -96,7 +99,7 @@ public class Constructor extends Method {
}
@Override
public void genByteCode(ClassGenerator cg, Class classObj) {
public void genByteCode(ClassGenerator cg, Class classObj, TypeinferenceResults resultSets) {
this.genByteCode(cg, new InstructionList());
}
// super statement muss drin sein

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@ -191,10 +191,4 @@ public class FieldDeclaration extends Field{
return il;
}
/*@Override
public void genByteCode(ClassGen cg) {
// TODO Auto-generated method stub
}*/
}

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@ -21,6 +21,10 @@ public class GenericDeclarationList extends SyntaxTreeNode implements Iterable<G
private int offsetOfLastElement;
private Menge<GenericTypeVar> gtvs = new Menge<>();
public GenericDeclarationList(){
this(new Menge<GenericTypeVar>(), -1);
}
public GenericDeclarationList(Menge<GenericTypeVar> values, int endOffset) {
this.addAll(values);
this.offsetOfLastElement = endOffset;

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@ -44,6 +44,7 @@ import de.dhbwstuttgart.typeinference.JavaCodeResult;
import de.dhbwstuttgart.typeinference.ResultSet;
import de.dhbwstuttgart.typeinference.TypeInsertable;
import de.dhbwstuttgart.typeinference.TypeinferenceResultSet;
import de.dhbwstuttgart.typeinference.TypeinferenceResults;
import de.dhbwstuttgart.typeinference.UndConstraint;
import de.dhbwstuttgart.typeinference.assumptions.MethodAssumption;
import de.dhbwstuttgart.typeinference.assumptions.ParameterAssumption;
@ -80,7 +81,8 @@ public class Method extends Field implements IItemWithOffset, TypeInsertable
super(offset);
}
public Method(String name, Type returnType, ParameterList parameterList, Block block, GenericDeclarationList gtvDeclarations, int offset) {
public Method(String name, Type returnType, ParameterList parameterList, Block block,
GenericDeclarationList gtvDeclarations, int offset) {
this(offset);
/*
* if(parameterList != null)parameterList.parserPostProcessing(this);
@ -396,8 +398,8 @@ public class Method extends Field implements IItemWithOffset, TypeInsertable
return super.equals(obj);
}
public void genByteCode(ClassGenerator cg, Class classObj) {
List<TypeinferenceResultSet> typeInterferenceResults = cg.getTypeinferenceResults().getTypeReconstructions(this, cg);
public void genByteCode(ClassGenerator cg, Class classObj, TypeinferenceResults resultSets) {
List<TypeinferenceResultSet> typeInterferenceResults = resultSets.getTypeReconstructions(this, cg);
DHBWInstructionFactory _factory = cg.getInstructionFactory();
for(TypeinferenceResultSet t: typeInterferenceResults){
@ -421,7 +423,10 @@ public class Method extends Field implements IItemWithOffset, TypeInsertable
Type returnType = this.getType();
MethodGenerator method = new MethodGenerator(constants, returnType.getBytecodeType(cg, t), argumentTypes.toArray(new org.apache.bcel.generic.Type[parameterlist.size()]) , argumentNames.toArray(new String[parameterlist.size()]), this.get_Method_Name(), getParentClass().name, il, _cp);
MethodGenerator method = new MethodGenerator(constants, returnType.getBytecodeType(cg, t),
argumentTypes.toArray(new org.apache.bcel.generic.Type[parameterlist.size()]) ,
argumentNames.toArray(new String[parameterlist.size()]), this.get_Method_Name(),
getParentClass().name.toString(), il, _cp);
cg.setMethodeGenerator(method);

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@ -707,227 +707,6 @@ public class SourceFile
}
//}
}
// ino.end
// ino.method.makeBasicAssumptions.21418.defdescription type=javadoc
/**
* Erzeugt die Anfangsinformationen �ber bereits bekannte Klassen.
* <br/>Achtung Workaround: Die RefTypes ¯Â¿Â½ssen sp�ter noch durch BaseTypes
* ersetzt werden. <br>
* Author: ¯Â¿Â½rg ¯Â¿Â½uerle
*
* @return A priori Typinformationen
* @throws ClassNotFoundException
*/
// ino.end
// ino.method.makeBasicAssumptions.21418.definition
private TypeAssumptions makeBasicAssumptions()
// ino.end
// ino.method.makeBasicAssumptions.21418.body
{
/*
if(LOAD_BASIC_ASSUMPTIONS_FROM_JRE){
Menge<UsedId> strImports=new Menge<UsedId>();
ImportDeclarations usedIdImports=getImports();
for(int i=0;i<usedIdImports.size();i++){
UsedId uid=usedIdImports.get(i);
if(uid.hasWildCard()){
throw new CTypeReconstructionException("Wildcards in den Imports werden bislang nicht unterstuetzt: "+uid.getQualifiedName(),uid);
//throw new ClassNotFoundException("Bei den Imports sind momentan keine Wildcards erlaubt!");
}else{
strImports.addElement(uid);
}
}
TypeinferenceResultSet res=makeBasicAssumptionsFromJRE(strImports);
ImportDeclarations newImports=new ImportDeclarations();
for(int i=0;i<strImports.size();i++){
newImports.addElement(strImports.get(i));
}
setImports(newImports);
return(res);
}
TypeinferenceResultSet foo = new TypeinferenceResultSet(null);
CMethodTypeAssumption meth = null;
CInstVarTypeAssumption instVar = null;
Class c = null;
UsedId ui = null;
//Menge pl = null;
Modifiers mod = new Modifiers();
mod.addModifier(new Public());
//------------------------
// Integer bauen:
//------------------------
foo.addClassName("java.lang.Integer"); //PL 05-08-01 eingefuegt
instVar = new CInstVarTypeAssumption("java.lang.Integer", "MAX_VALUE", new RefType("java.lang.Integer",-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>());
foo.addFieldOrLocalVarAssumption(instVar);
meth = new CMethodTypeAssumption(new RefType("java.lang.Integer", 0), "<init>", new RefType("java.lang.Integer",-1), 0,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Integer", 0), "<init>", new RefType("java.lang.Integer",-1),1, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
meth.addParaAssumption(new CParaTypeAssumption("java.lang.Integer", "<init>", 1, 0,"value", new RefType("java.lang.Integer",-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>()));
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Integer", 0), "intValue", new RefType("java.lang.Integer",-1), 0,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
c = new BasicAssumptionClass("java.lang.Integer", mod);
// ui = new UsedId();
// ui.set_Name("Super-Class-Blub");
// c.set_UsedId(ui);
// pl = new Menge();
// pl.addElement(new GenericTypeVar("bla"));
// c.set_ParaList(pl);
this.addElement(c);
//------------------------
// Boolean bauen:
//------------------------
foo.addClassName("java.lang.Boolean"); //PL 05-08-01 eingefuegt
meth = new CMethodTypeAssumption(new RefType("java.lang.Boolean", 0), "<init>", new RefType("java.lang.Boolean",-1),0, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Boolean", 0), "<init>", new RefType("java.lang.Boolean",-1), 1,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
meth.addParaAssumption(new CParaTypeAssumption("java.lang.Boolean", "<init>", 1, 0, "value", new RefType("java.lang.Boolean",-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>()));
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Boolean", 0), "booleanValue", new RefType("java.lang.Boolean",-1), 0,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
c = new BasicAssumptionClass("java.lang.Boolean", mod);
// ui = new UsedId();
// ui.set_Name("Super-Class-Blub");
// c.set_UsedId(ui);
// pl = new Menge();
// pl.addElement(new GenericTypeVar("bla"));
// c.set_ParaList(pl);
this.addElement(c);
//------------------------
// Character bauen:
//------------------------
foo.addClassName("java.lang.Character"); //PL 05-08-01 eingefuegt
meth = new CMethodTypeAssumption(new RefType("java.lang.Character", 0), "<init>", new RefType("java.lang.Character",-1),0, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Character", 0), "<init>", new RefType("java.lang.Character",-1),1, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
meth.addParaAssumption(new CParaTypeAssumption("java.lang.Character", "<init>", 1, 0,"value", new RefType("java.lang.Character",-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>()));
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Character", 0), "charValue", new BooleanType(),0, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
c = new BasicAssumptionClass("java.lang.Character", mod);
// ui = new UsedId();
// ui.set_Name("Super-Class-Blub");
// c.set_UsedId(ui);
// pl = new Menge();
// pl.addElement(new GenericTypeVar("bla"));
// c.set_ParaList(pl);
this.addElement(c);
//------------------------
// Menge bauen:
//------------------------
foo.addClassName("java.lang.Menge"); //PL 05-08-01 eingefuegt
TypePlaceholder E = TypePlaceholder.fresh(); // Sp�ter ersetzen durch GenericTypeVar
Menge<GenericTypeVar> typeGenPara = new Menge<GenericTypeVar>();
typeGenPara.addElement(new GenericTypeVar(E.getName(),-1));
foo.addGenericTypeVars("java.lang.Menge", typeGenPara);
meth = new CMethodTypeAssumption(new RefType("java.lang.Menge", 0), "elementAt", new GenericTypeVar(E.getName(),-1), 1,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
meth.addParaAssumption(new CParaTypeAssumption("java.lang.Menge", "elementAt", 1, 0, "index", new RefType("java.lang.Integer",-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>()));
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Menge", 0), "addElement", new Void(-1),1, MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
meth.addParaAssumption(new CParaTypeAssumption("java.lang.Menge", "addElement", 1, 0,"element", new GenericTypeVar(E.getName(),-1), MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>()));
foo.addMethodIntersectionType(new CIntersectionType(meth));
meth = new CMethodTypeAssumption(new RefType("java.lang.Menge", 0), "size", new RefType("java.lang.Integer",-1), 0,MyCompiler.NO_LINENUMBER,MyCompiler.NO_LINENUMBER,new Menge<Integer>(),null);
foo.addMethodIntersectionType(new CIntersectionType(meth));
c = new BasicAssumptionClass("java.lang.Menge", mod);
// ui = new UsedId();
// ui.set_Name("Super-Class-Blub");
// c.set_UsedId(ui);
// pl = new Menge();
// pl.addElement(E);
// c.set_ParaList(pl);
this.addElement(c);
//------------------------
// Stack bauen:
//------------------------
foo.addClassName("java.lang.Stack"); //PL 05-08-01 eingefuegt
c = new BasicAssumptionClass("java.lang.Stack", mod);
ui = new UsedId(-1);
ui.set_Name("java.lang.Menge");
c.set_UsedId(ui);
// pl = new Menge();
// pl.addElement(E);
// c.set_ParaList(pl);
this.addElement(c);
return foo;
*/
TypeAssumptions ret = new TypeAssumptions();
//Basic Assumptions ¼r die FunN Interfaces:
//TODO: Hier mehr als Fun1-Fun5 implementieren
for(int i = 0; i<6; i++){
FunNInterface funN = new FunNInterface(i);
ret.add(funN.getPublicFieldAssumptions());
}
return ret; //TODO: Diese TypeAssumptions mit basic-Assumptions ¼llen
}
// ino.end
// ino.method.setImports.21421.definition
private void setImports(ImportDeclarations newImports)
// ino.end
// ino.method.setImports.21421.body
{
this.imports=newImports;
}
// ino.end
// ino.method.removeBasicAssumptions.21424.defdescription type=javadoc
/**
* ¯Â¿Â½scht die Anfangsinformation wieder aus dem Klassenvektor
* <br/>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
*/
// ino.end
// ino.method.removeBasicAssumptions.21424.definition
private void removeBasicAssumptions()
// ino.end
// ino.method.removeBasicAssumptions.21424.body
{
for(int i=0; i<KlassenVektor.size(); i++){
Class cl = KlassenVektor.elementAt(i);
if(cl instanceof BasicAssumptionClass){
KlassenVektor.removeElementAt(i);
i--;
}
}
}
// ino.end
// ino.method.getPackageName.21427.defdescription type=javadoc
/**
@ -1065,7 +844,7 @@ public class SourceFile
}
/**
* Bisher wird nur der Bytecode der Klassen generiert. Nicht der Interfaces.
* Bytecode generieren für das resultSet
* @return
*/
public Menge<ByteCodeResult> generateBytecode(TypeinferenceResults results) {
@ -1073,6 +852,22 @@ public class SourceFile
for(Class cl : this.KlassenVektor){
ret.add(cl.genByteCode(results));
}
//Alle FunN Klassen erzeugen:
for(ClassAssumption funNAss : MyCompiler.makeFunNAssumptions().getClassAssumptions()){
ret.add(funNAss.getAssumedClass().genByteCode(results));
}
/*
//Add all FunN Interfaces
for(Pair ucons : results.getUnifiedConstraints()){
for(Type t : ucons.getTypes()){
List<Class> xClasses = t.isClassFromJavaX();
for(Class xClass : xClasses){
ByteCodeResult bC = xClass.genByteCode(results);
if(! ret.contains(bC))ret.add(bC);
}
}
}
*/
return ret;
}

View File

@ -1,8 +1,14 @@
package de.dhbwstuttgart.syntaxtree.factory;
import java.util.ArrayList;
import java.util.List;
import de.dhbwstuttgart.bytecode.ClassGenerator;
import de.dhbwstuttgart.parser.JavaClassName;
import de.dhbwstuttgart.syntaxtree.Class;
import de.dhbwstuttgart.syntaxtree.Constructor;
import de.dhbwstuttgart.syntaxtree.Field;
import de.dhbwstuttgart.syntaxtree.GenericDeclarationList;
import de.dhbwstuttgart.syntaxtree.Method;
import de.dhbwstuttgart.syntaxtree.ObjectClass;
import de.dhbwstuttgart.syntaxtree.ParameterList;
@ -56,6 +62,7 @@ public class ASTFactory {
return new Constructor(method, superClass);
}
/*
public static Class createClass(String className, RefType type, Modifiers modifiers, Menge supertypeGenPara, SourceFile parent) {
// TODO bytecode createClass
//String name, RefType superClass, Modifiers modifiers, Menge<String> supertypeGenPara
@ -66,10 +73,21 @@ public class ASTFactory {
return generatedClass;
}
*/
public static Class createInterface(String className, RefType superClass, Modifiers modifiers,
Menge supertypeGenPara, SourceFile parent){
Class generatedClass = new Class(new JavaClassName(className), new ArrayList<Method>(), new ArrayList<Field>(), modifiers,
true, superClass, new ArrayList<RefType>(), new GenericDeclarationList(), -1);
generatedClass.parserPostProcessing(parent);
return generatedClass;
}
public static Class createObjectClass() {
Class generatedClass = new ObjectClass();
return generatedClass;
}
public static RefType createObjectType(){
return createObjectClass().getType();
}
}

View File

@ -0,0 +1,81 @@
package de.dhbwstuttgart.syntaxtree.factory;
public class NameGenerator {
private static String strNextName = "A";
/**
* Berechnet einen neuen, eindeutigen Namen ¯Â¿Â½r eine neue
* <code>TypePlaceholder</code>. <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @return Der Name
*/
public static String makeNewName()
{
// otth: Funktion berechnet einen neuen Namen anhand eines alten gespeicherten
String strReturn = strNextName;
// ¯Â¿Â½chster Name berechnen und in strNextName speichern
inc( strNextName.length() - 1 );
return strReturn;
}
/**
* Hilfsfunktion zur Berechnung eines neuen Namens
* <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @param i
*/
private static void inc(int i)
{
// otth: Hilfsfunktion zur Berechnung eines neuen Namens
// otth: Erh�hung des Buchstabens an der Stelle i im String strNextName
// otth: Nach �berlauf: rekursiver Aufruf
// falls i = -1 --> neuer Buchstabe vorne anf�gen
if ( i == -1 )
{
strNextName = "A" + strNextName;
return;
}
char cBuchstabe = (char)(strNextName.charAt( i ));
cBuchstabe++;
if ( cBuchstabe - 65 > 25 )
{
// aktuelle Stelle: auf A zuruecksetzen
manipulate( i, 'A' );
// vorherige Stelle erh�hen
inc( i - 1 );
}
else
{
// aktueller Buchstabe �ndern
manipulate( i, cBuchstabe );
}
}
/**
* Hilfsfunktion zur Berechnung eines neuen Namens.
* <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @param nStelle
* @param nWert
*/
private static void manipulate( int nStelle, char nWert )
{
// otth: Hilfsfunktion zur Berechnung eines neuen Namens
// otth: Ersetzt im String 'strNextName' an der Position 'nStelle' den Buchstaben durch 'nWert'
String strTemp = "";
for( int i = 0; i < strNextName.length(); i++)
{
if ( i == nStelle )
strTemp = strTemp + nWert;
else
strTemp = strTemp + strNextName.charAt( i );
}
strNextName = strTemp;
}
}

View File

@ -307,7 +307,7 @@ public class LambdaExpression extends Expr{
String interfaceMethodName = "apply"; //Das ist ein Hack, funktioniert momentan, da nur FunN Interfaces für LambdaAusdrücke funktionieren
//String invokeDynamicType = org.apache.bcel.generic.Type.getMethodSignature(lambdaType.getBytecodeType(cg, rs), additionalParameters);
String invokeDynamicType = org.apache.bcel.generic.Type.getMethodSignature(new org.apache.bcel.generic.ObjectType(lambdaType.get_Name()), additionalParameters);
String invokeDynamicType = org.apache.bcel.generic.Type.getMethodSignature(lambdaType.getBytecodeType(cg, rs), additionalParameters);
il.append(cg.getInstructionFactory().createInvokeDynamic(interfaceMethodName,invokeDynamicType, bMethod));
return il;

View File

@ -160,10 +160,11 @@ public class LocalOrFieldVarOrClassname extends Expr
public InstructionList genByteCode(ClassGenerator cg, TypeinferenceResultSet rs) {
InstructionList il = new InstructionList();
if(this.isFieldAccess){
il.append(new This(this).genByteCode(cg, rs));
il.append(cg.getInstructionFactory().createFieldAccess(this.getParentClass().getName().toString(), this.get_Name(), this.getType().getBytecodeType(cg, rs), Constants.GETFIELD));
}
}else{
il.append(createLoad(cg, rs));
}
return il;
}

View File

@ -4,6 +4,7 @@ package de.dhbwstuttgart.syntaxtree.statement;
// ino.module.MethodCall.8639.import
import java.util.Hashtable;
import org.apache.bcel.Const;
import org.apache.bcel.Constants;
import org.apache.bcel.generic.ClassGen;
import org.apache.bcel.generic.InstructionFactory;
@ -333,9 +334,9 @@ public class MethodCall extends Expr
de.dhbwstuttgart.syntaxtree.Class receiverClass = this.receiver.getReceiverClass(cg, rs);
short kind = 0;
if(receiverClass.isInterface()){
kind = Constants.INVOKEINTERFACE;
kind = Const.INVOKEINTERFACE;
}else{//Ansonsten muss es eine Klasse sein:
kind = Constants.INVOKEVIRTUAL;
kind = Const.INVOKEVIRTUAL;
}
org.apache.bcel.generic.Type[] argumentTypen = org.apache.bcel.generic.Type.NO_ARGS;
@ -353,7 +354,10 @@ public class MethodCall extends Expr
}
org.apache.bcel.generic.Type returnType = this.getType().getBytecodeType(cg, rs);
il.append(_factory.createInvoke(receiver.getReceiverClass(cg, rs).getName().toString(), this.get_Name(), returnType , argumentTypen, kind));
il.append(_factory.createInvoke(
receiver.get_Expr().getType().getBytecodeType(cg, rs).toString(),
//receiver.getReceiverClass(cg, rs).getBytecodeType(cg, rs).toString(),
this.get_Name(), returnType , argumentTypen, kind));
return il;
}

View File

@ -122,5 +122,6 @@ public class Receiver
public JavaCodeResult printJavaCode(ResultSet resultSet) {
return new JavaCodeResult().attach(this.get_Expr().printJavaCode(resultSet));
}
}
// ino.end

View File

@ -13,6 +13,7 @@ import de.dhbwstuttgart.parser.JavaClassName;
import de.dhbwstuttgart.syntaxtree.Method;
import de.dhbwstuttgart.syntaxtree.ParameterList;
import de.dhbwstuttgart.syntaxtree.SyntaxTreeNode;
import de.dhbwstuttgart.syntaxtree.factory.NameGenerator;
import de.dhbwstuttgart.typeinference.assumptions.MethodAssumption;
import de.dhbwstuttgart.typeinference.assumptions.TypeAssumptions;
import de.dhbwstuttgart.typeinference.exceptions.DebugException;
@ -50,18 +51,19 @@ public class FunN extends RefType {
/**
* Spezieller Konstruktor um eine FunN ohne Returntype zu generieren
*/
protected FunN(List<? extends Type> list){
super("",null,0);
if(list==null)throw new NullPointerException();
setT(list);
this.name = new JavaClassName("Fun"+list.size());//getName();
}
*/
/**
* Erstellt eine FunN:
* FunN<R, T1, ..., TparameterCount>
* R und T1 - TparameterCount werden mit TypePlaceholdern besetzt.
* R und T1 - TparameterCount werden mit GenericTypeVars besetzt.
* @param parameterCount
*/
public FunN(int parameterCount) {
@ -69,9 +71,10 @@ public class FunN extends RefType {
if(parameterCount<0)throw new RuntimeException("Anzahl der Parameter muss >0 sein");
Menge<Type> t = new Menge<Type>();
for(int i=0;i<parameterCount;i++){
t.add(TypePlaceholder.fresh(this));
//t.add(TypePlaceholder.fresh(this));
t.add(new GenericTypeVar(NameGenerator.makeNewName(), this, -1));
}
setR(TypePlaceholder.fresh(this));
setR(new GenericTypeVar(NameGenerator.makeNewName(), this, -1));
setT(t);
this.name = new JavaClassName("Fun"+parameterCount);

View File

@ -30,7 +30,9 @@ public class FunVoidN extends FunN {
* @return
*/
public FunVoidN(Menge<Type> T) {
super(T);
super(T.size());
this.setR(new Void(this, -1));
this.setT(T);
this.name = new JavaClassName("FunVoid"+T.size());
}

View File

@ -2,9 +2,12 @@
package de.dhbwstuttgart.syntaxtree.type;
// ino.end
import java.util.ArrayList;
// ino.module.GenericTypeVar.8671.import
import java.util.HashMap;
import java.util.Iterator;
import java.util.List;
import de.dhbwstuttgart.typeinference.Menge;
import de.dhbwstuttgart.typeinference.ConstraintsSet;
@ -22,17 +25,14 @@ import de.dhbwstuttgart.parser.JavaClassName;
import de.dhbwstuttgart.syntaxtree.Class;
import de.dhbwstuttgart.syntaxtree.GTVDeclarationContext;
import de.dhbwstuttgart.syntaxtree.SyntaxTreeNode;
// ino.class.GenericTypeVar.26505.description type=javadoc
import de.dhbwstuttgart.syntaxtree.factory.ASTFactory;
/**
* TODO: Diese Klasse überarbeiten. Pair genericTypeVar ist nicht implementiert.
* @author ¯Â¿Â½rg ¯Â¿Â½uerle
* @version $Date: 2013/09/22 20:12:53 $
*/
// ino.end
// ino.class.GenericTypeVar.26505.declaration
public class GenericTypeVar extends ObjectType
// ino.end
// ino.class.GenericTypeVar.26505.body
{
//Type genericTypeVar;
//Menge<Type> extendVars = new Menge<Type>();
@ -237,6 +237,13 @@ public class GenericTypeVar extends ObjectType
return org.apache.bcel.generic.Type.getType(getSignatureType(null));// new org.apache.bcel.generic.ObjectType("Object");
}
public List<ObjectType> getBounds()
{
//Gibt eine Liste mit "java.lang.Object" zurück, da jede Generic von Object erbt
ArrayList<ObjectType> ret = new ArrayList<>();
ret.add(ASTFactory.createObjectType());
return ret;
}
}
// ino.end

View File

@ -130,10 +130,11 @@ public class RefType extends ObjectType implements IMatchable
//this.parameter = null;
}
public RefType(JavaClassName jName, SyntaxTreeNode parent, int offset) {
this(jName.toString(), parent, offset);
}
public RefType(JavaClassName name, List<Type> parameter, int offset) {
super(name.toString(), null, offset);
this.parameter = parameter;
}
/**
* Wandelt die Parameter des RefTypes in TPHs um, sofern es sich um Generische Variablen handelt.
@ -579,12 +580,9 @@ public class RefType extends ObjectType implements IMatchable
@Override
public String getBytecodeSignature(ClassGenerator cg, TypeinferenceResultSet rs) {
String combinedType = getCombinedType(cg, rs);
if(!combinedType.equals(getName().toString())){
getSuperWildcardTypes();
Class generatedClass = ASTFactory.createClass(getCombinedType(cg, rs), getGenericClassType(), null, null, new SourceFile());
/*
cg.addExtraClass(generatedClass.genByteCode(new TypeinferenceResults()).getByteCode());
}
*/
String ret = new org.apache.bcel.generic.ObjectType(combinedType).getSignature();
return ret;
}
@ -592,32 +590,48 @@ public class RefType extends ObjectType implements IMatchable
public String getCombinedType(ClassGenerator cg, TypeinferenceResultSet rs){
//Bsp.: Ljava/util/Vector<Ljava/lang/String;>;
StringBuilder sb = new StringBuilder();
String ret;
List<Type> newParams = new ArrayList<>();
if(parameter != null && parameter.size() > 0){
sb.append(getName().toString().replace(".", "%"));
sb.append("%%");
for(Type type: parameter){
Type newParameter;
if(type instanceof RefType){
sb.append(((RefType) type).getCombinedType(cg, rs).replace(".", "%"));
newParameter = type;
}else if(type instanceof TypePlaceholder){
newParameter = rs.getTypeOfPlaceholder((TypePlaceholder)type);
sb.append(((TypePlaceholder) type).getBytecodeType(cg, rs).toString().replace(".", "%"));
}else if(type instanceof WildcardType){
//TODO: unresolved!
return this.getName().toString();
}else{
newParameter = type;
sb.append(type.getBytecodeType(cg, rs).toString().replace(".", "%"));
}
newParams.add(newParameter);
sb.append("%");
}
return sb.toString();
}
return sb.append(this.getName().toString()).toString();
ret = sb.toString();
}else{
ret = sb.append(this.getName().toString()).toString();
}
if(!ret.equals(getName().toString())){
//getSuperWildcardTypes();
RefType superClass = new RefType(this.getName(),newParams,this.getOffset());
Class generatedClass = ASTFactory.createInterface(ret, superClass, null, null, new SourceFile());
cg.addExtraClass(generatedClass.genByteCode(new TypeinferenceResults()).getByteCode());
}
return ret;
}
/*
public GenericClassType getGenericClassType(){
return new GenericClassType(getName().toString(), getParaList(), parent, getOffset());
}
*/
}
// ino.end

View File

@ -3,6 +3,7 @@ package de.dhbwstuttgart.syntaxtree.type;
// ino.end
// ino.module.Type.8677.import
import java.util.ArrayList;
import java.util.List;
import de.dhbwstuttgart.typeinference.Menge;
import de.dhbwstuttgart.bytecode.ClassGenerator;
@ -328,5 +329,15 @@ public abstract class Type extends SyntaxTreeNode implements IItemWithOffset
public String getClassSignature(ClassGenerator cg, TypeinferenceResultSet rs){
return this.getBytecodeSignature(cg, rs);
}
/**
* Wird beim Bytecode gebraucht.
* Einige Klassen werden vom Compiler als gegeben angenommen,
* obwohl sie sich nicht in der Java Standard Library befinden.
* Diese müssen beim generieren von Bytecode als zusätzliche Klassen generiert werden.
*
* @return - Eine Liste der Klassen, welche bei Verwendung dieses Typs zusätzlich gebraucht werden.
*/
//public abstract List<de.dhbwstuttgart.syntaxtree.Class> isClassFromJavaX();
}
// ino.end

View File

@ -14,6 +14,7 @@ import de.dhbwstuttgart.bytecode.TypePlaceholderType;
import de.dhbwstuttgart.core.MyCompiler;
import de.dhbwstuttgart.parser.JavaClassName;
import de.dhbwstuttgart.syntaxtree.SyntaxTreeNode;
import de.dhbwstuttgart.syntaxtree.factory.NameGenerator;
import de.dhbwstuttgart.typeinference.JavaCodeResult;
import de.dhbwstuttgart.typeinference.ResultSet;
import de.dhbwstuttgart.typeinference.TypeInsertable;
@ -39,8 +40,6 @@ public class TypePlaceholder extends ObjectType
// ino.class.TypePlaceholder.26780.body
{
private static final Logger log = Logger.getLogger(TypePlaceholder.class.getName());
// ino.attribute.strNextName.26785.declaration
private static String strNextName = "A";
// ino.end
// ino.attribute.m_TypePlaceholdersRegistry.26788.declaration
private static Hashtable<String, TypePlaceholder> m_TypePlaceholdersRegistry = new Hashtable<String, TypePlaceholder>();
@ -104,7 +103,7 @@ public class TypePlaceholder extends ObjectType
TypePlaceholder typeVar = new TypePlaceholder(name, parent);
TypePlaceholder oldTPH = m_TypePlaceholdersRegistry.put(typeVar.getName().toString(), typeVar);
if(oldTPH != null){
oldTPH.name = new JavaClassName(makeNewName());
oldTPH.name = new JavaClassName(NameGenerator.makeNewName());
m_TypePlaceholdersRegistry.put(oldTPH.getName().toString(), oldTPH);
}
return typeVar;
@ -120,7 +119,7 @@ public class TypePlaceholder extends ObjectType
* @return
*/
public static TypePlaceholder fresh(SyntaxTreeNode parent){
TypePlaceholder ret= new TypePlaceholder(makeNewName(), parent);
TypePlaceholder ret= new TypePlaceholder(NameGenerator.makeNewName(), parent);
m_TypePlaceholdersRegistry.put(ret.getName().toString(), ret);
return ret;
}
@ -132,97 +131,6 @@ public class TypePlaceholder extends ObjectType
return ret;
}
// ino.method.makeNewName.26803.defdescription type=javadoc
/**
* Berechnet einen neuen, eindeutigen Namen ¯Â¿Â½r eine neue
* <code>TypePlaceholder</code>. <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @return Der Name
*/
// ino.end
// ino.method.makeNewName.26803.definition
private static String makeNewName()
// ino.end
// ino.method.makeNewName.26803.body
{
// otth: Funktion berechnet einen neuen Namen anhand eines alten gespeicherten
String strReturn = strNextName;
// ¯Â¿Â½chster Name berechnen und in strNextName speichern
inc( strNextName.length() - 1 );
return strReturn;
}
// ino.end
// ino.method.inc.26806.defdescription type=javadoc
/**
* Hilfsfunktion zur Berechnung eines neuen Namens
* <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @param i
*/
// ino.end
// ino.method.inc.26806.definition
private static void inc(int i)
// ino.end
// ino.method.inc.26806.body
{
// otth: Hilfsfunktion zur Berechnung eines neuen Namens
// otth: Erh�hung des Buchstabens an der Stelle i im String strNextName
// otth: Nach �berlauf: rekursiver Aufruf
// falls i = -1 --> neuer Buchstabe vorne anf�gen
if ( i == -1 )
{
strNextName = "A" + strNextName;
return;
}
char cBuchstabe = (char)(strNextName.charAt( i ));
cBuchstabe++;
if ( cBuchstabe - 65 > 25 )
{
// aktuelle Stelle: auf A zuruecksetzen
manipulate( i, 'A' );
// vorherige Stelle erh�hen
inc( i - 1 );
}
else
{
// aktueller Buchstabe �ndern
manipulate( i, cBuchstabe );
}
}
// ino.end
// ino.method.manipulate.26809.defdescription type=javadoc
/**
* Hilfsfunktion zur Berechnung eines neuen Namens.
* <br>Author: ¯Â¿Â½rg ¯Â¿Â½uerle
* @param nStelle
* @param nWert
*/
// ino.end
// ino.method.manipulate.26809.definition
private static void manipulate( int nStelle, char nWert )
// ino.end
// ino.method.manipulate.26809.body
{
// otth: Hilfsfunktion zur Berechnung eines neuen Namens
// otth: Ersetzt im String 'strNextName' an der Position 'nStelle' den Buchstaben durch 'nWert'
String strTemp = "";
for( int i = 0; i < strNextName.length(); i++)
{
if ( i == nStelle )
strTemp = strTemp + nWert;
else
strTemp = strTemp + strNextName.charAt( i );
}
strNextName = strTemp;
}
// ino.end
// ino.method.equals.26812.defdescription type=javadoc
/**
@ -327,7 +235,7 @@ public class TypePlaceholder extends ObjectType
//backdoorvars werden registiert, weil am Ende beim execute
//auf den CSubstitution nicht registrierte Variablen zu
//Exceptions fuehrt
TypePlaceholder typeVar = new TypePlaceholder(makeNewName(), null);
TypePlaceholder typeVar = new TypePlaceholder(NameGenerator.makeNewName(), null);
m_TypePlaceholdersRegistry.put(typeVar.getName().toString(), typeVar);
return typeVar;
@ -447,6 +355,10 @@ public class TypePlaceholder extends ObjectType
@Override
public String getBytecodeSignature(ClassGenerator cg, TypeinferenceResultSet rs) {
if(rs == null){
System.out.println("");
return null;
}
Type resolvedType = rs.getTypeOfPlaceholder(this);
if(resolvedType instanceof TypePlaceholder){
cg.addUsedTPH((TypePlaceholder)resolvedType);
@ -463,7 +375,8 @@ public class TypePlaceholder extends ObjectType
ret+=":";
Menge<TypePlaceholder> possibleTPHs = cg.getUsedTPH();
possibleTPHs.remove(this);
org.apache.bcel.generic.Type nearestType = cg.getNearestUsedType(this, possibleTPHs);
//TODO: hier komplett überarbeiten. Wann wird ein TPH eine generische Variable, das sollte geklärt werden.
org.apache.bcel.generic.Type nearestType = null;//cg.getNearestUsedType(this, possibleTPHs);
//if(nearestType instanceof TypePlaceholderType){ //Handelt es sich um einen weiteren TPH als nächsten Typ, so ist es ein allgemeiner Typ und wir nehmen Object als Superklasse
if(nearestType == null){
ret += cg.getInstructionFactory().createObjectType().getSignature();

View File

@ -1,4 +1,7 @@
class Identity{
op = (x)->x;
m(){
op.apply(1);
}
}

View File

@ -41,19 +41,16 @@ public class SingleClassTester {
for(ByteCodeResult result: bytecode){
JavaClass javaClass = result.getByteCode().getJavaClass();
javaClass.dump(new File(outputDirectory+javaClass.getClassName()+".class"));
///*
for(ClassGenerator cg: result.getByteCode().getExtraClasses().values()){
JavaClass jc = cg.getJavaClass();
jc.dump(new File(outputDirectory+jc.getClassName()+".class"));
}
//*/
Logger.getLogger("SingleClassTester").error(result.getByteCode().getJavaClass().toString(), Section.CODEGEN);
}
} catch (IOException | yyException e) {
Logger.getLogger("SingleClassTester").error(e.toString(), Section.CODEGEN);
e.printStackTrace();

View File

@ -4,6 +4,8 @@ import static org.junit.Assert.*;
import java.io.File;
import java.io.IOException;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.MalformedURLException;
import java.net.URL;
import java.net.URLClassLoader;
@ -60,4 +62,13 @@ public abstract class SourceFileBytecodeTest extends TestCase{
return new URLClassLoader(urls);
}
protected void testMethod(String methodName) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException{
Class testClass = getClassToTest();
for(Method m : testClass.getMethods()){
if(m.getName().equals(methodName)){
m.invoke(testClass, new Object[0]);
}
}
}
}

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@ -0,0 +1,8 @@
class Simple{
op = (i)->i;
public void main(){
op.apply(1);
}
}

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@ -0,0 +1,19 @@
package bytecode.lambda;
import org.junit.Test;
import bytecode.SourceFileBytecodeTest;
public class SimpleTest extends SourceFileBytecodeTest{
@Override
protected void init() {
testName = "Simple";
rootDirectory = System.getProperty("user.dir")+"/test/bytecode/lambda/";
}
@Test
public void testConstruct() throws Exception{
this.testMethod("main");
assertTrue(true);
}
}

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@ -0,0 +1,5 @@
class Test{
public static void main(String[] args){
new Simple().main();
}
}

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@ -0,0 +1 @@
interface TestInterface extends Fun1<String,Integer>{}

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@ -1,4 +1,8 @@
class Id{
op = (x)->x;
class Id {
op = (x) -> x;
m(){
op.apply(1);
}
}