Write back classes

Test ordering
Create bridge method
2026-05-20 18:33:09 +02:00 · 2026-05-20 13:36:10 +02:00 · 2026-05-19 11:34:53 +02:00 · 2026-05-15 18:21:29 +02:00 · 2026-05-15 17:30:11 +02:00 · 2026-05-15 16:47:20 +02:00
20 changed files with 536 additions and 261 deletions
@@ -0,0 +1,10 @@
+import java.lang.String;
+
+public class Bug389 {
+    public swap(f) {
+        return x -> y -> f.apply(y).apply(x);
+    }
+    public swap(f) {
+        return x -> y -> z -> f.apply(z).apply(x).apply(y);
+    }
+}
@@ -0,0 +1,12 @@
+import Bug389;
+import java.util.List;
+import java.lang.String;
+import java.lang.Integer;
+
+public class Bug389Main {
+    public static main(args) {
+        var func = x -> y -> z -> x + y + z;
+        var swap = new Bug389();
+        swap.swap(func).apply(1).apply(2).apply(3);
+    }
+}
@@ -1,14 +1,13 @@
-sealed interface List<T> permits Cons, Empty {}
-
-public record Cons<T>(T a, List<T> l) implements List<T> {}
-public record Empty<T>() implements List<T> {}
-public record Tuple<T1, T2>(T1 a, T2 b) {}
+import Cons;
+import Empty;
+import List;
+import Pair;

 public class PatternMatching {
    public zip(Cons(x, xs), Cons(y, ys)) {
-        return new Cons(new Tuple(x, y), zip(xs, ys));
+        return new Cons<>(new Pair<>(x, y), zip(xs, ys));
    }
-    public zip(Empty x, Empty y) { return new Empty(); }
+    public zip(Empty x, Empty y) { return new Empty<>(); }

    /*public zip(Empty x, Cons y) { return new Empty(); }
    public zip(Cons x, Empty y) { return new Empty(); }
@@ -2,18 +2,24 @@ import java.lang.Object;
 import List;
 import Cons;
 import Empty;
-import Tuple;
+import Pair;

 public class PatternMatchingJava {
-    public zip(a, b) {
+    public <A, B> Cons<Pair<A, B>> zip(Cons<A> a, Cons<B> b) {
        switch (a) {
            case Cons(x, Cons xs) -> {
                switch (b) {
-                    case Cons(y, Cons ys) -> { return new Cons<>(new Tuple<>(x, y), zip(xs, ys)); }
-                    case Cons(y, Empty()) -> { return new Empty<>(); }
+                    case Cons(y, Cons ys) -> { return new Cons<>(new Pair<>(x, y), zip(xs, ys)); }
                };
            }
-            case Cons(x, Empty()) -> { return new Empty<>(); }
+            case Cons(x, Empty xs) -> {
+                switch (b) {
+                    case Cons(y, Empty ys) -> { return new Cons<>(new Pair<>(x, y), zip(xs, ys)); }
                };
            }
+        };
+    }
+    public <A, B> Empty<Pair<A, B>> zip(Empty<A> a, Empty<B>) {
+        return new Empty<>();
+    }
 }
@@ -1,5 +1,5 @@
-sealed interface List<T> permits Cons, Empty {}
+public sealed interface List<T> permits Cons, Empty {}

 public record Cons<T>(T a, List<T> l) implements List<T> {}
 public record Empty<T>() implements List<T> {}
-public record Tuple<T1, T2>(T1 a, T2 b) {}
+public record Pair<T1, T2>(T1 a, T2 b) {}
@@ -0,0 +1,9 @@
+import java.lang.Integer;
+import java.lang.Number;
+
+public record R(Number n) {}
+
+public class PatternMatchingSpecificity {
+    public m(R(Number n)) { return 0; }
+    public m(R(Integer i)) { return 1; }
+}
@@ -4,6 +4,7 @@ import de.dhbwstuttgart.core.JavaTXCompiler;
 import de.dhbwstuttgart.exceptions.NotImplementedException;
 import de.dhbwstuttgart.parser.scope.JavaClassName;
 import de.dhbwstuttgart.syntaxtree.ClassOrInterface;
+import de.dhbwstuttgart.syntaxtree.Pattern;
 import de.dhbwstuttgart.target.generate.ASTToTargetAST;
 import de.dhbwstuttgart.target.tree.*;
 import de.dhbwstuttgart.target.tree.expression.*;
@@ -1498,12 +1499,13 @@ public class Codegen {
        state.exitScope();
    }

-    private void extractField(State state, TargetType type, int i, ClassOrInterface clazz) {
+    private void extractField(State state, TargetType ret, TargetType type, int i, ClassOrInterface clazz) {
        if (i >= clazz.getFieldDecl().size())
            throw new CodeGenException("Couldn't find suitable field accessor for '" + type.name() + "'");
        var field = clazz.getFieldDecl().get(i);
        var fieldType = converter.convert(field.getType());
        state.mv.visitMethodInsn(INVOKEVIRTUAL, type.getInternalName(), field.getName(), "()" + fieldType.toDescriptor(), false);
+        if (ret != null) convertTo(state, fieldType, ret);
    }

    private void bindPattern(State state, TargetType type, TargetPattern pat, Label start, int index, int depth) {
@@ -1566,7 +1568,7 @@ public class Codegen {
                var subPattern = cp.subPatterns().get(i);

                state.mv.visitInsn(DUP);
-                extractField(state, cp.type(), i, clazz);
+                extractField(state, null, cp.type(), i, clazz);

                if (subPattern.type() instanceof TargetRefType || subPattern.type() instanceof TargetExtendsWildcard) {
                    state.mv.visitInsn(DUP);
@@ -1668,7 +1670,7 @@ public class Codegen {
            if (i < cp.subPatterns().size() - 1)
                state.mv.visitInsn(DUP);

-            extractField(state, cp.type(), i, clazz);
+            extractField(state, subPattern.type(), cp.type(), i, clazz);
            if (subPattern.type() instanceof TargetRefType)
                state.mv.visitTypeInsn(CHECKCAST, subPattern.type().getInternalName());
            offset = state.createVariable(subPattern.name(), subPattern.type()).index;
@@ -20,14 +20,11 @@ import de.dhbwstuttgart.server.SocketFuture;
 import de.dhbwstuttgart.server.packet.SetAutoclosePacket;
 import de.dhbwstuttgart.server.packet.UnifyRequestPacket;
 import de.dhbwstuttgart.server.packet.UnifyResultPacket;
-import de.dhbwstuttgart.syntaxtree.ClassOrInterface;
-import de.dhbwstuttgart.syntaxtree.GenericTypeVar;
-import de.dhbwstuttgart.syntaxtree.Method;
-import de.dhbwstuttgart.syntaxtree.ParameterList;
-import de.dhbwstuttgart.syntaxtree.SourceFile;
-import de.dhbwstuttgart.syntaxtree.GenericDeclarationList;
+import de.dhbwstuttgart.syntaxtree.*;
 import de.dhbwstuttgart.syntaxtree.factory.ASTFactory;
 import de.dhbwstuttgart.syntaxtree.factory.UnifyTypeFactory;
+import de.dhbwstuttgart.syntaxtree.statement.Block;
+import de.dhbwstuttgart.syntaxtree.statement.Statement;
 import de.dhbwstuttgart.syntaxtree.type.ExtendsWildcardType;
 import de.dhbwstuttgart.syntaxtree.type.GenericRefType;
 import de.dhbwstuttgart.syntaxtree.type.RefType;
@@ -35,9 +32,12 @@ import de.dhbwstuttgart.syntaxtree.type.RefTypeOrTPHOrWildcardOrGeneric;
 import de.dhbwstuttgart.syntaxtree.type.SuperWildcardType;
 import de.dhbwstuttgart.syntaxtree.type.TypePlaceholder;
 import de.dhbwstuttgart.syntaxtree.type.TypeVisitor;
+import de.dhbwstuttgart.syntaxtree.type.Void;
 import de.dhbwstuttgart.syntaxtree.visual.ASTTypePrinter;
 import de.dhbwstuttgart.target.generate.ASTToTargetAST;
 import de.dhbwstuttgart.target.generate.GenericsResult;
+import de.dhbwstuttgart.target.tree.*;
+import de.dhbwstuttgart.target.tree.type.*;
 import de.dhbwstuttgart.typeinference.constraints.Constraint;
 import de.dhbwstuttgart.typeinference.constraints.ConstraintSet;
 import de.dhbwstuttgart.typeinference.constraints.Pair;
@@ -62,6 +62,7 @@ import de.dhbwstuttgart.typeinference.unify.UnifyTaskModel;

 import de.dhbwstuttgart.util.Logger;
 import java.io.*;
+import java.lang.Record;
 import java.lang.reflect.Modifier;
 import java.nio.file.Path;
 import java.sql.Array;
@@ -82,7 +83,9 @@ public class JavaTXCompiler {
 	// public static JavaTXCompiler INSTANCE;
 	final CompilationEnvironment environment;
 	Boolean resultmodel = true;
-	public final Map<File, SourceFile> sourceFiles = new HashMap<>();
+
+	private final List<File> sources;
+	public final Map<File, SourceFile> sourceFiles = new LinkedHashMap<>();
 	public final Set<JavaClassName> input = new HashSet<>();

 	public volatile UnifyTaskModel usedTasks = new UnifyTaskModel();
@@ -124,7 +127,11 @@ public class JavaTXCompiler {
 		environment = new CompilationEnvironment(sources, classLoader);
 		classPath = path;
 		this.outputPath = outputPath;
+		this.sources = sources;
+		// INSTANCE = this;
+	}

+	private List<SourceFileContext> generateSources(List<File> sources) throws IOException, ClassNotFoundException {
 		// TODO This should maybe be moved elsewhere
 		var treeList = new ArrayList<SourceFileContext>(sources.size());
 		for (var s : sources) {
@@ -154,11 +161,7 @@ public class JavaTXCompiler {
 				input.add(classRegistry.getName(className));
 			}
 		}
-
-		for (var i = 0; i < sources.size(); i++) {
-			parse(treeList.get(i), sources.get(i));
-		}
-		// INSTANCE = this;
+		return treeList;
 	}

 	private void addSourceFile(File file, SourceFile sf) {
@@ -686,7 +689,7 @@ public class JavaTXCompiler {

 	public final JavaClassRegistry classRegistry = new JavaClassRegistry();

-	private void parse(SourceFileContext tree, File sourceFile) throws IOException, java.lang.ClassNotFoundException {
+	private void parse(SourceFileContext tree, File sourceFile) throws IOException, ClassNotFoundException {
 		SyntaxTreeGenerator generator = new SyntaxTreeGenerator(this, classRegistry, new GenericsRegistry(null), sourceFile.getName());
 		environment.addClassesToRegistry(classRegistry, tree, sourceFile, this);
 		var classes = new ArrayList<ClassOrInterface>();
@@ -697,8 +700,18 @@ public class JavaTXCompiler {
 		sf.imports.addAll(generator.imports);
 	}

+	public void parseAll() throws IOException, ClassNotFoundException {
+		var treeList = generateSources(sources);
+		for (var i = 0; i < sources.size(); i++) {
+			parse(treeList.get(i), sources.get(i));
+		}
+	}
+
 	public void generateBytecode() throws ClassNotFoundException, IOException {
+		// The compiler has two modes, one is to infer all files together and the other one is to do them in sequence
 		if (inferTogether) {
+			parseAll();
+
 			var files = sourceFiles.keySet().stream().toList();
 			var typeinferenceResult = this.typeInference(files);
 			for (var file : files) {
@@ -709,7 +722,11 @@ public class JavaTXCompiler {
 				writeClassFile(classes, outputPath == null ? file.getParentFile() : outputPath, outputPath == null);
 			}
 		} else {
-			for (var file : sourceFiles.keySet()) {
+			var treeList = generateSources(sources);
+			for (var i = 0; i < sources.size(); i++) {
+				var file = sources.get(i);
+				parse(treeList.get(i), file);
+
 				var sf = sourceFiles.get(file);
 				if (sf.isGenerated()) continue;
 				var classes = generateBytecode(file);
@@ -719,7 +736,7 @@ public class JavaTXCompiler {
 		}
 	}

-	public Map<JavaClassName, byte[]> generateBytecode(File sourceFile) throws ClassNotFoundException, IOException {
+	private Map<JavaClassName, byte[]> generateBytecode(File sourceFile) throws ClassNotFoundException, IOException {
 		var sf = sourceFiles.get(sourceFile);
 		if (sf.isGenerated()) return null;
 		List<ResultSet> typeinferenceResult = this.typeInference(sourceFile);
@@ -753,11 +770,88 @@ public class JavaTXCompiler {
 		}
 	}

+	// TODO Maybe move this elsewhere it doesn't really belong here
+	private static RefTypeOrTPHOrWildcardOrGeneric toRefType(TargetType type) {
+		return switch(type) {
+            case TargetExtendsWildcard targetExtendsWildcard ->
+				new ExtendsWildcardType(toRefType(targetExtendsWildcard.innerType()), new NullToken());
+			case TargetSuperWildcard targetSuperWildcard ->
+				new SuperWildcardType(toRefType(targetSuperWildcard.innerType()), new NullToken());
+			case TargetGenericType targetGenericType -> new GenericRefType(targetGenericType.name(), new NullToken());
+            case TargetPrimitiveType targetPrimitiveType -> toRefType(TargetType.toWrapper(targetPrimitiveType));
+            case TargetSpecializedType targetSpecializedType ->
+				new RefType(new JavaClassName(targetSpecializedType.name()),
+					targetSpecializedType.params().stream().map(JavaTXCompiler::toRefType).toList(), new NullToken()
+				);
+			case null -> new Void(new NullToken());
+        };
+	}
+
+	private static ParameterList toParameterList(List<MethodParameter> params) {
+		return new ParameterList(params.stream().map(mp
+			-> (Pattern) new FormalParameter(mp.pattern().name(), toRefType(mp.pattern().type()), new NullToken())).toList(),
+			new NullToken()
+		);
+	}
+
+	private static GenericDeclarationList toGenerics(Set<TargetGeneric> generics) {
+		return new GenericDeclarationList(
+			generics.stream().map(g
+					-> new GenericTypeVar(g.name(), List.of(toRefType(g.bound())), new NullToken(), new NullToken())
+			).toList(), new NullToken()
+		);
+	}
+
+	/**
+	 * This writes back the compiled target structure into the loadedClasses map so that it can be used
+	 * as an input in further processing
+	 * @param target
+	 */
+	private void writeBackToClass(TargetStructure target) {
+		var fielddecl = new ArrayList<Field>();
+        for (var field : target.fields()) {
+            fielddecl.add(new Field(field.name(), toRefType(field.type()), field.access(), new NullToken()));
+        }
+
+		var methods = new ArrayList<Method>();
+		for (var method : target.methods()) {
+			methods.add(new Method(method.access(), method.name(), toRefType(method.signature().returnType()),
+				toParameterList(method.signature().parameters()), new Block(new ArrayList<>(), new NullToken()), toGenerics(method.signature().generics()), new NullToken())
+			);
+		}
+
+		var constructors = new ArrayList<Constructor>();
+		for (var ctor : target.constructors()) {
+			constructors.add(new Constructor(ctor.access(), target.getName(), new RefType(target.qualifiedName(), new NullToken()),
+				toParameterList(ctor.parameters()), new Block(new ArrayList<>(), new NullToken()), toGenerics(ctor.generics()), new NullToken())
+			);
+		}
+
+		var generics = new GenericDeclarationList(toGenerics(target.generics()), new NullToken());
+		var superClass = (RefType) toRefType(target.superType());
+		var isInterface = target instanceof TargetInterface;
+		var isFunctionalInterface = false; // TODO We might actually want to generate those
+		var implementedInterfaces = target.implementingInterfaces().stream()
+			.map(t -> (RefType) toRefType(t)).toList();
+		var permittedSubtypes = List.<RefType>of();
+
+		var clazz = new ClassOrInterface(
+			target.modifiers(), target.qualifiedName(),
+			fielddecl, Optional.empty(), Optional.empty(),
+			methods, constructors, generics, superClass,
+			isInterface, isFunctionalInterface, implementedInterfaces,
+			permittedSubtypes, new NullToken(), ""
+		);
+		loadedClasses.put(target.qualifiedName(), clazz);
+	}
+
 	public synchronized Map<JavaClassName, byte[]> generateBytecode(SourceFile sf, List<ResultSet> typeInferenceResult) {
 		var converter = new ASTToTargetAST(this, typeInferenceResult, sf, classLoader);
 		var generatedClasses = new HashMap<JavaClassName, byte[]>();
 		for (var clazz : sf.getClasses()) {
-			var codegen = new Codegen(converter.convert(clazz), this, converter);
+			var target = converter.convert(clazz);
+			writeBackToClass(target);
+			var codegen = new Codegen(target, this, converter);
 			var code = codegen.generate();
 			generatedClasses.put(clazz.getClassName(), code);
 		}
@@ -58,14 +58,11 @@ public class LanguageServerInterface {
            var file = path.toFile();
            Files.createDirectories(path.getParent().resolve("out"));
            var compiler = new JavaTXCompiler(List.of(file), List.of(path.getParent().toFile()), path.getParent().resolve("out").toFile(), false);
+            compiler.generateBytecode();

            var parsedSource = compiler.sourceFiles.get(file);
            var tiResults = compiler.typeInference(file);

-            Map<JavaClassName, byte[]> bytecode = compiler.generateBytecode(parsedSource, tiResults);
-            Files.createDirectories(path.getParent().resolve("out"));
-            compiler.writeClassFile(bytecode, path.getParent().resolve("out").toFile(), false);
-
            return new LanguageServerTransferObject(tiResults, parsedSource, "", compiler.getGeneratedGenerics());
        } catch (Exception e) {
            throw new RuntimeException(e.getMessage(), e);
@@ -700,7 +700,7 @@ public class StatementGenerator {
        case ConditionalassignexpressionContext condassign:
            return convert(condassign);
        default:
-            throw new NotImplementedException();
+            throw new NotImplementedException(expression.getClass().toString());
        }
    }

@@ -64,6 +64,8 @@ public class TypeGenerator {
            switch (typeContext.primitiveType().getText()) {
            case "boolean":
                return new RefType(ASTFactory.createClass(Boolean.class).getClassName(), typeContext.getStart());
+            case "char":
+                return new RefType(ASTFactory.createClass(Character.class).getClassName(), typeContext.getStart());
            case "int":
                return new RefType(ASTFactory.createClass(Integer.class).getClassName(), typeContext.getStart());
            case "double":
@@ -71,7 +73,7 @@ public class TypeGenerator {
            case "float":
                return new RefType(ASTFactory.createClass(Float.class).getClassName(), typeContext.getStart());
            default:
-                throw new NotImplementedException();
+                throw new NotImplementedException(typeContext.primitiveType().getText());
            }
        } else if (!typeContext.LBRACK().isEmpty()) { // ArrayType über eckige Klammer prüfen
            // JavaTXParser.logger.info(unannTypeContext.getText());
@@ -229,9 +229,6 @@ public class ASTFactory {
 	public static Method createMethod(java.lang.reflect.Method jreMethod, String signature, java.lang.Class inClass, Boolean isInherited, Boolean isImplemented) {
 		String name = jreMethod.getName();
 		RefTypeOrTPHOrWildcardOrGeneric returnType;
-		if (inClass.getName().equals("Swap")){
-			System.out.println();
-		}
 		Type jreRetType;
 		if (jreMethod.getGenericReturnType() != null) {
 			jreRetType = jreMethod.getGenericReturnType();
@@ -28,6 +28,7 @@ public class MethodCall extends Statement
    
    //sind Tphs, repraesentieren im Resultset die Signatur der aufgerufenen Methoden, letztes Element ist der Returntyp
    public final ArrayList<TypePlaceholder> signature;
+    public int modifiers;
    
    public MethodCall(RefTypeOrTPHOrWildcardOrGeneric retType, Receiver receiver, String methodName, ArgumentList argumentList,
    		          RefTypeOrTPHOrWildcardOrGeneric receiverType, ArrayList<TypePlaceholder> signature, Token offset){
@@ -4,6 +4,7 @@ import de.dhbwstuttgart.bytecode.FunNGenerator;
 import de.dhbwstuttgart.core.JavaTXCompiler;
 import de.dhbwstuttgart.environment.IByteArrayClassLoader;
 import de.dhbwstuttgart.exceptions.DebugException;
+import de.dhbwstuttgart.exceptions.NotImplementedException;
 import de.dhbwstuttgart.parser.NullToken;
 import de.dhbwstuttgart.parser.scope.JavaClassName;
 import de.dhbwstuttgart.syntaxtree.*;
@@ -11,17 +12,19 @@ import de.dhbwstuttgart.syntaxtree.Record;
 import de.dhbwstuttgart.syntaxtree.factory.ASTFactory;
 import de.dhbwstuttgart.syntaxtree.statement.*;
 import de.dhbwstuttgart.syntaxtree.type.*;
-import de.dhbwstuttgart.syntaxtree.visual.ASTPrinter;
-import de.dhbwstuttgart.syntaxtree.visual.OutputGenerator;
 import de.dhbwstuttgart.target.tree.*;
 import de.dhbwstuttgart.target.tree.expression.*;
 import de.dhbwstuttgart.target.tree.type.*;
 import de.dhbwstuttgart.typeinference.result.*;
+import de.dhbwstuttgart.typeinference.unify.MartelliMontanariUnify;
+import de.dhbwstuttgart.typeinference.unify.model.*;

-import java.lang.annotation.Target;
+import javax.swing.text.html.Option;
+import java.sql.Array;
 import java.util.*;
 import java.util.stream.Collectors;
 import java.util.stream.Stream;
+import java.util.stream.StreamSupport;

 /**
 * @author dholle
@@ -61,10 +64,14 @@ public class ASTToTargetAST {
        return converter.result;
    }

-    public record Generics(JavaGenerics javaGenerics, TxGenerics txGenerics) {
+    public record Generics(IGenerics javaGenerics, IGenerics txGenerics) {
        public Generics(JavaTXCompiler compiler, ResultSet set) {
            this(new JavaGenerics(compiler, set), new TxGenerics(compiler, set));
        }
+
+        public static Generics nullGenerics() {
+            return new Generics(null, new ResultSet(Set.of()));
+        }
    }

    public IByteArrayClassLoader classLoader;
@@ -94,10 +101,15 @@ public class ASTToTargetAST {
        tphsInMethods.put(currentMethod, set);
    }

+    public static Optional<Method> findMethod(ClassOrInterface owner, String name, List<TargetType> argumentList, JavaTXCompiler compiler) {
+        return findMethod(owner, name, argumentList, Generics.nullGenerics().javaGenerics(), compiler);
+    }
+
    public static Optional<Method> findMethod(ClassOrInterface owner, String name, List<TargetType> argumentList, IGenerics generics, JavaTXCompiler compiler) {
        Optional<Method> method = Optional.empty();
        while (method.isEmpty()) {
-            method = owner.getMethods().stream().filter(m -> m.name.equals(name) && parameterEquals(m.getParameterList(), argumentList, generics)).findFirst();
+            method = owner.getMethods().stream().filter(m -> m.name.equals(name) &&
+                    parameterEquals(m.getParameterList().getFormalparalist().stream().map(p -> generics.getTargetType(p.getType())).toList(), argumentList)).findFirst();
            if (owner.getClassName().toString().equals("java.lang.Object")) break;
            owner = compiler.getClass(owner.getSuperClass().getName());
        }
@@ -105,16 +117,16 @@ public class ASTToTargetAST {
    }

    Optional<Constructor> findConstructor(ClassOrInterface owner, List<TargetType> argumentList, IGenerics generics) {
-        return owner.getConstructors().stream().filter(c -> parameterEquals(c.getParameterList(), argumentList, generics)).findFirst();
+        return owner.getConstructors().stream().filter(c ->
+                parameterEquals(c.getParameterList().getFormalparalist().stream().map(p -> generics.getTargetType(p.getType())).toList(), argumentList)).findFirst();
    }

-    static boolean parameterEquals(ParameterList parameterList, List<TargetType> arguments, IGenerics generics) {
-        var pars = parameterList.getFormalparalist();
+    static boolean parameterEquals(List<TargetType> pars, List<TargetType> arguments) {
        if (pars.size() != arguments.size())
            return false;

        for (var i = 0; i < pars.size(); i++) {
-            var type1 = generics.getTargetType(pars.get(i).getType());
+            var type1 = pars.get(i);
            var type2 = arguments.get(i);
            if (type1 instanceof TargetGenericType)
                return true;
@@ -147,190 +159,168 @@ public class ASTToTargetAST {
        return ret;
    }

-    // This finds a common sealed interface type to group together methods that use different records
-    // This function should do matching or unification
-    private List<ClassOrInterface> commonSuperInterfaceTypes(TargetType a, TargetType b) {
-        if (a instanceof TargetGenericType && b instanceof TargetGenericType) return List.of(ASTFactory.createObjectClass());
-        if (a instanceof TargetRefType ta && b instanceof TargetGenericType)
-            return List.of(compiler.getClass(new JavaClassName(ta.name())));
-        if (b instanceof TargetRefType tb && a instanceof TargetGenericType)
-            return List.of(compiler.getClass(new JavaClassName(tb.name())));
-
-        if (a instanceof TargetRefType ta && b instanceof TargetRefType tb) {
-            var res = new HashSet<ClassOrInterface>();
-
-            var cla = compiler.getClass(new JavaClassName(ta.name()));
-            var clb = compiler.getClass(new JavaClassName(tb.name()));
-
-            if (cla.equals(clb)) return List.of(cla);
-
-            while (!cla.equals(ASTFactory.createObjectClass())) {
-                var clb2 = clb;
-                while (!clb2.equals(ASTFactory.createObjectClass())) {
-                    for (var intfa : cla.getSuperInterfaces()) {
-                        for (var intfb : clb.getSuperInterfaces()) {
-                            if (intfa.equals(intfb)) {
-                                var clintf = compiler.getClass(intfa.getName());
-                                if (clintf.isSealed()) {
-                                    res.add(clintf);
-                                }
-                            }
-                        }
-                    }
-                    clb2 = compiler.getClass(clb2.getSuperClass().getName());
-                }
-                cla = compiler.getClass(cla.getSuperClass().getName());
-            }
-            return res.stream().toList();
-        }
-        return List.of();
+    private static UnifyType toUnifyType(TargetType a) {
+        return switch(a) {
+            case TargetExtendsWildcard targetExtendsWildcard -> new ExtendsType(toUnifyType(targetExtendsWildcard.innerType()));
+            case TargetSuperWildcard targetSuperWildcard -> new SuperType(toUnifyType(targetSuperWildcard.innerType()));
+            case TargetGenericType targetGenericType -> new PlaceholderType(targetGenericType.name(), JavaTXCompiler.defaultClientPlaceholderRegistry);
+            case TargetPrimitiveType _ -> throw new NotImplementedException();
+            case TargetFunNType targetFunNType -> FunNType.getFunNType(new TypeParams(targetFunNType.params().stream().map(ASTToTargetAST::toUnifyType).toList()));
+            case TargetRefType targetRefType -> new ReferenceType(targetRefType.name(), new TypeParams(targetRefType.params().stream().map(ASTToTargetAST::toUnifyType).toList()));
+        };
    }

-    private boolean canCombine(Signature m1, Signature m2) {
-        var pl1 = m1.java.parameters();
-        var pl2 = m2.java.parameters();
-        if (pl1.size() != pl2.size()) return false;
-        if (pl1.isEmpty()) return false;
-        for (var i = 0; i < pl1.size(); i++) {
-            var p1 = pl1.get(i).pattern();
-            var p2 = pl2.get(i).pattern();
-            // TPH <> RefType sind nicht unterscheidbar
-            if (p1.type() instanceof TargetGenericType || p2.type() instanceof TargetGenericType) continue;
-            // Pattern(X) <> Pattern(Y) ist nicht unterscheidbar
-            if (p1 instanceof TargetComplexPattern pc1 && p2 instanceof TargetComplexPattern pc2 &&
-                pc1.type().equals(pc2.type())) continue;
-            if (!p1.equals(p2)) return false;
-        }
-        return true;
+    private static TargetType toTargetType(UnifyType a) {
+        return switch (a) {
+            case ExtendsType extendType -> new TargetExtendsWildcard(toTargetType(extendType.getExtendedType()));
+            case SuperType superType -> new TargetSuperWildcard(toTargetType(superType.getSuperedType()));
+            case PlaceholderType placeholderType -> new TargetGenericType(placeholderType.getName());
+            case FunNType funNType -> TargetFunNType.fromParams(StreamSupport.stream(funNType.getTypeParams().spliterator(), false).map(ASTToTargetAST::toTargetType).toList(), 1); // FIXME How does this work with Fun0??
+            case ReferenceType referenceType -> new TargetRefType(referenceType.getName(), StreamSupport.stream(referenceType.getTypeParams().spliterator(), false).map(ASTToTargetAST::toTargetType).toList());
+            default -> throw new NotImplementedException();
+        };
    }

-    private record Combination(MethodWithTphs a, MethodWithTphs b) {
-        @Override
-        public boolean equals(Object o) {
-            if (!(o instanceof Combination(MethodWithTphs a1, MethodWithTphs b1))) return false;
-            return this.a.equals(a1) && this.b.equals(b1) ||
-                this.a.equals(b1) && this.b.equals(a1);
+    private static Optional<TargetType> unify(TargetType a, TargetType b) {
+        if (Objects.equals(a, b)) return Optional.of(a);
+        var unify = new MartelliMontanariUnify();
+        var ua = toUnifyType(a);
+        var unifier = unify.unify(Set.of(ua, toUnifyType(b)));
+        if (unifier.isEmpty()) return Optional.empty();
+        return Optional.of(toTargetType(unifier.get().apply(ua)));
    }

-        @Override
-        public int hashCode() {
-            return Objects.hashCode(a) + Objects.hashCode(b);
+    private static Optional<List<MethodParameter>> unify(List<MethodParameter> a, List<MethodParameter> b) {
+        if (a.size() != b.size()) return Optional.empty();
+        var result = new ArrayList<MethodParameter>();
+        for (var i = 0; i < a.size(); i++) {
+            var u = unify(a.get(i).pattern().type(), b.get(i).pattern().type());
+            if (u.isEmpty()) return Optional.empty();
+            // Strip off patterns, we don't need them for merged methods, they do a switch case
+            result.add(new MethodParameter(u.get(), a.get(i).pattern().name()));
+        }
+
+        return Optional.of(result);
+    }
+
+    private static Set<String> findUsedGenerics(TargetType type) {
+        if (type instanceof TargetSpecializedType tspec) {
+            return tspec.params().stream().map(ASTToTargetAST::findUsedGenerics).flatMap(Set::stream).collect(Collectors.toSet());
+        } else if (type instanceof TargetGenericType(String name)) {
+            var set = new HashSet<String>();
+            set.add(name);
+            return set;
+        }
+        return new HashSet<>();
+    }
+
+    // When unifying types we need to keep the generics that are still used in the signature
+    // This is done in an extra step after all generics have been combined into one list
+    private static void correctGenerics(TargetMethod.Signature signature, List<TargetGeneric> generics) {
+        var outGenerics = signature.generics();
+        outGenerics.addAll(generics);
+        var foundGenerics = signature.parameters().stream().map(p -> findUsedGenerics(p.pattern().type()))
+            .flatMap(Set::stream)
+            .collect(Collectors.toSet());
+        foundGenerics.addAll(findUsedGenerics(signature.returnType()));
+
+        for (var generic : new HashSet<>(outGenerics)) {
+            if (!foundGenerics.contains(generic.name())) outGenerics.remove(generic);
        }
    }

-    private List<List<MethodWithTphs>> groupOverloads(ClassOrInterface input, List<Method> methods) {
-        var mapOfTargetMethods = new HashMap<Generics, MethodWithTphs[]>();
-        for (var gen : all) {
-            mapOfTargetMethods.put(gen, new MethodWithTphs[methods.size()]);
+    private static Optional<TargetMethod.Signature> unify(TargetMethod.Signature a, TargetMethod.Signature b) {
+        if (a.equals(b)) return Optional.empty();
+        var res = unify(a.parameters(), b.parameters());
+        if (res.isEmpty()) return Optional.empty();
+        var returnType = unify(a.returnType(), b.returnType());
+        if (returnType.isEmpty()) return Optional.empty();
+        var generics = new ArrayList<>(a.generics());
+        generics.addAll(b.generics());
+        var signature = new TargetMethod.Signature(new HashSet<>(), res.get(), returnType.get());
+        correctGenerics(signature, generics);
+        return Optional.of(signature);
    }

+    private static Optional<MethodGroup> unify(MethodGroup a, MethodGroup b) {
+        var junified = unify(a.signature.java, b.signature.java);
+        if (junified.isEmpty()) return Optional.empty();
+        var txunified = unify(a.signature.tx, b.signature.tx);
+        assert txunified.isPresent();
+
+        var unifiedSignature = new Signature(junified.get(), txunified.get(), a.signature().generics);
+
+        var concat = new HashSet<>(a.methods);
+        concat.addAll(b.methods);
+        return Optional.of(new MethodGroup(unifiedSignature, concat));
+    }
+
+    private record NameAndParameters(String name, int parameters) {}
+
+    private List<List<Method>> groupMethods(ClassOrInterface input, List<Method> methods) {
+        var groups = new HashMap<NameAndParameters, List<Method>>();
+        for (var m : methods) {
+            var nameAndParameters = new NameAndParameters(m.name, m.getParameterList().getFormalparalist().size());
+            var l = groups.getOrDefault(nameAndParameters, new ArrayList<>());
+            l.add(m);
+            groups.put(nameAndParameters, l);
+        }
+
+        return groups.values().stream().toList();
+    }
+
+    private List<MethodGroup> groupOverloads(ClassOrInterface input, List<Method> methods) {
+        var a = new HashSet<MethodGroup>();
+
        for (var i = 0; i < methods.size(); i++) {
            var method = methods.get(i);
            // Convert all methods
            var methodsWithTphs = convert(input, method);
            for (var m : methodsWithTphs) {
-                var resultMethods = mapOfTargetMethods.get(m.generics);
-                resultMethods[i] = new MethodWithTphs(m.method, m.generics, m.signature);
+                var mtph = new MethodWithTphs(m.method, m.generics, m.signature);
+                a.add(new MethodGroup(m.signature, Set.of(mtph)));
            }
        }
+
        System.out.println("============== INPUT ==============");
-        for (var m : mapOfTargetMethods.values()) {
-            for (var v : m) if (v != null) System.out.println(v.signature.java.returnType() + " " + v.method.name + " " + v.signature.java().parameters());
-            System.out.println();
+        for (var m : a) {
+            System.out.println(m);
        }

-        var allCombinations = new HashSet<Set<Combination>>();
-        // Combine methods based on their signature and position in the result set
-        for (var g1 : all) {
-            var resMeth1 = mapOfTargetMethods.get(g1);
-            for (var i = 0; i < methods.size(); i++) {
-                var m1 = resMeth1[i];
-                if (m1 == null) continue;
+        // Algorithm

-                for (var g2 : all) {
-                    if (g1 == g2) continue; // No need to combine the same method
-                    var resMeth2 = mapOfTargetMethods.get(g2);
-                    var m2 = resMeth2[i];
-                    if (m2 == null) continue;
+        var R = new HashSet<MethodGroup>();
+        var i = new HashSet<>(a);

-                    var combinations = new HashSet<Combination>();
-
-                    if (canCombine(m1.signature, m2.signature)) {
-                        //System.out.println("     Combining " + m1.signature.java.getSignature() + " and " + m2.signature.java.getSignature());
-                        combinations.add(new Combination(m1, m2));
-                        for (var j = 0; j < methods.size(); j++) {
-                            if (j == i) continue;
-                            var m3 = resMeth2[j];
-                            if (m3 == null) continue;
-                            var m4 = resMeth1[j];
-                            if (m4 == null) continue;
-                            combinations.add(new Combination(m4, m3));
-                            //System.out.println("Also Combining " + m4.signature.java.getSignature() + " and " + m3.signature.java.getSignature());
-                        }
-                    } else {
-                        //System.out.println(" Not Combining " + m1.signature.java.getSignature() + " and " + m2.signature.java.getSignature());
-                    }
-                    if (!combinations.isEmpty()) allCombinations.add(combinations);
+        while (!i.isEmpty()) {
+            var m = i.iterator().next();
+            i.remove(m);
+            R.add(m);
+            var a1 = new HashSet<>(a);
+            for (var m1 : a1) {
+                if (m1 != m) {
+                    var u_opt = unify(m, m1);
+                    if (u_opt.isPresent()) {
+                        var u = u_opt.get();
+                        //System.out.println("Unified " + m + " AND " + m1 + "\n\t" + u);
+                        i.remove(m1);
+                        R.remove(m);
+                        R.remove(m1);
+                        R.add(u);
+                        a.add(u);
+                    } /*else {
+                        System.out.println("Couldn't unify " + m + " AND " + m1);
+                    }*/
                }
            }
        }

-        if (allCombinations.isEmpty()) allCombinations.add(new HashSet<>());
-
-        // Combine back into output format
-        var r0 = new HashSet<Set<MethodWithTphs>>();
-        for (var combinations : allCombinations) {
-            var r1 = new HashSet<Set<MethodWithTphs>>();
-            // This is used to weed out duplicates
-            var uniqued = new HashSet<MethodWithTphs>();
-            // We go over all methods in the result
-            for (var g : all) for (var i = 0; i < methods.size(); i++) {
-                var r2 = new HashSet<MethodWithTphs>();
-                var m = mapOfTargetMethods.get(g)[i];
-                if (m == null) continue;
-                if (!uniqued.contains(m)) {
-                    // Add the method to r2
-                    r2.add(m);
-                    uniqued.add(m);
-                } else continue;
-                // Find all combinations that contain the method and add them to the result
-                // if not filtered out by uniqued
-                for (var c : combinations) {
-                    if (c.a.equals(m) || c.b.equals(m)) {
-                        if (!uniqued.contains(c.a)) {
-                            r2.add(c.a);
-                            uniqued.add(c.a);
-                        }
-                        if (!uniqued.contains(c.b)) {
-                            r2.add(c.b);
-                            uniqued.add(c.b);
-                        }
-                    }
-                }
-                r1.add(r2);
-            }
-            outer: for (var s1 : r1) {
-                for (var s2 : new HashSet<>(r0)) {
-                    if (s2.containsAll(s1)) {
-                        continue outer;
-                    } else if (s1.containsAll(s2)) {
-                        r0.remove(s2);
-                        r0.add(s1);
-                        continue outer;
-                    }
-                }
-                r0.add(s1);
-            }
+        System.out.println("============== OUTPUT ==============");
+        for (var mg : R) {
+            System.out.println(mg.methods.size() + " " + mg);
        }

-        var result = r0.stream().map(l -> l.stream().toList()).toList();
-
-        //System.out.println("============== OUTPUT ==============");
-        //for (var l : result) {
-        //    for (var m : l) System.out.println(m.method.name + " " + m.signature.java.getSignature());
-        //    System.out.println();
-        //}
-        return result;
+        return R.stream().toList();
    }

    public TargetStructure convert(ClassOrInterface input) {
@@ -364,13 +354,29 @@ public class ASTToTargetAST {
        var superInterfaces = input.getSuperInterfaces().stream().map(clazz -> convert(clazz, generics.javaGenerics, compiler)).toList();
        var constructors = input.getConstructors().stream().map(constructor -> this.convert(input, constructor, finalFieldInitializer, generics)).flatMap(List::stream).toList();
        var fields = input.getFieldDecl().stream().map(f -> convert(f, generics.javaGenerics)).toList();
-        var methods = groupOverloads(input, input.getMethods()).stream().map(m -> generatePatternOverloads(input, m)).flatMap(List::stream)
-                .collect(Collectors.toSet()).stream().toList(); // Unique generated methods
+        var m0 = groupMethods(input, input.getMethods());
+
+        var m1 = new ArrayList<TargetMethod>();
+        for (var group : m0) {
+            var overloads = groupOverloads(input, group);
+            // This contains the merged pattern overloads
+            var genMethods = new ArrayList<TargetMethod>();
+            for (var o : overloads) {
+                var pOverloads = generatePatternOverloads(input, o);
+                m1.addAll(pOverloads);
+                if (!pOverloads.isEmpty()) {
+                    genMethods.add(pOverloads.getLast());
+                }
+            }
+            var bridge = generateBridgeMethod(input, genMethods);
+            bridge.map(m1::add);
+        }
+        var methods = new HashSet<>(m1).stream().toList();

        TargetMethod staticConstructor = null;
        if (input.getStaticInitializer().isPresent()) {
            var init = this.convert(input, input.getStaticInitializer().get()).stream().findFirst().orElseThrow();
-            staticConstructor = this.convert(init, init.generics.javaGenerics);
+            staticConstructor = this.convert(init);
        }

        if (input instanceof Record)
@@ -380,9 +386,15 @@ public class ASTToTargetAST {
        else return new TargetClass(input.getModifiers(), input.getClassName(), convert(input.getSuperClass(), generics.javaGenerics, compiler), javaGenerics, txGenerics, superInterfaces, constructors, staticConstructor, fields, methods);
    }

-    @Deprecated
    public List<MethodParameter> convert(ParameterList input) {
-        return convert(input, all.getFirst().javaGenerics);
+        var res = new ArrayList<MethodParameter>();
+        for (var i = 0; i < input.getFormalparalist().size(); i++) {
+            var param = input.getFormalparalist().get(i);
+            var pattern = (TargetPattern) convert(param, Generics.nullGenerics().javaGenerics);
+            if (pattern instanceof TargetComplexPattern) pattern = pattern.withName("__var" + i);
+            res.add(new MethodParameter(pattern));
+        }
+        return res;
    }

    public List<MethodParameter> convert(ParameterList input, IGenerics generics) {
@@ -542,38 +554,117 @@ public class ASTToTargetAST {
        return new TargetSwitch(switchExpr, cases, null, true);
    }

-    private List<TargetMethod> generatePatternOverloads(ClassOrInterface clazz, List<MethodWithTphs> overloadedMethods) {
+    // TODO What happens if a record implements two sealed interfaces?
+    private Optional<TargetType> commonSealedInterface(TargetType a, TargetType b) {
+        if (!(a instanceof TargetRefType ar && b instanceof TargetRefType ab)) return Optional.empty();
+        var cla = compiler.getClass(new JavaClassName(ar.name()));
+        var clb = compiler.getClass(new JavaClassName(ab.name()));
+
+        // TODO This only goes one layer deep, this is fine for records as they can't extend anything but fails for complex hierarchies
+        var intersection = new HashSet<>(cla.getSuperInterfaces());
+        intersection.retainAll(clb.getSuperInterfaces());
+
+        if (intersection.size() != 1) return Optional.empty();
+        return Optional.of(new TargetRefType(intersection.stream().findFirst().get().getName().toString()));
+    }
+
+    private Optional<TargetMethod> generateBridgeMethod(ClassOrInterface clazz, List<TargetMethod> methods) {
+        // If there's only one method we don't need a bridge
+        if (methods.size() <= 1) return Optional.empty();
+        var firstMethod = methods.getFirst();
+
+        // Check if all parameters are either the same or implement a sealed interface
+        var resParams = new ArrayList<MethodParameter>(Collections.nCopies(firstMethod.signature().parameters().size(), null));
+        TargetType resRet = null;
+
+        for (var m : methods.subList(1, methods.size())) {
+            for (var i = 0; i < m.signature().parameters().size(); i++) {
+                var pa = firstMethod.signature().parameters().get(i);
+                var pb = m.signature().parameters().get(i);
+
+                var ta = pa.pattern().type();
+                var tb = pb.pattern().type();
+                System.out.println(ta + " " + tb);
+
+                if (Objects.equals(ta, tb)) {
+                    resParams.set(i, pa);
+                    continue;
+                }
+
+                var common = commonSealedInterface(ta, tb);
+                if (common.isPresent()) {
+                    resParams.set(i, pa.withType(common.get()));
+                    continue;
+                }
+
+                return Optional.empty();
+            }
+            var ra = firstMethod.signature().returnType();
+            var rb = m.signature().returnType();
+            if (Objects.equals(ra, rb)) {
+                resRet = ra;
+                continue;
+            }
+            var common = commonSealedInterface(ra, rb);
+            if (common.isPresent()) resRet = common.get();
+            else return Optional.empty();
+        }
+
+        var parameters = resParams.stream().map( p -> new TargetLocalVar(p.pattern().type(), p.pattern().name())).toList();
+
+        var classType = new TargetRefType(clazz.getClassName().getClassName());
+        var stmt = generatePatternOverloadsRec(0, new TargetLocalVar(resParams.getFirst().pattern().type(), resParams.getFirst().pattern().name()), parameters, List.of(), methods, classType);
+        var block = new TargetBlock(List.of(stmt));
+
+        var resSig = new TargetMethod.Signature(firstMethod.signature().generics(), resParams, resRet);
+        var bridgeMethod = new TargetMethod(firstMethod.access(), firstMethod.name(), block, resSig, resSig);
+        return Optional.of(bridgeMethod);
+    }
+
+    private int comparePattern(TargetPattern a, TargetPattern b) {
+        if (a instanceof TargetComplexPattern cpa
+            && b instanceof TargetComplexPattern cpb
+            && Objects.equals(cpa.type(), cpb.type())) {
+
+            assert cpa.subPatterns().size() == cpb.subPatterns().size();
+            for (var i = 0; i < cpa.subPatterns().size(); i++) {
+                var c = comparePattern(cpa.subPatterns().get(i), cpb.subPatterns().get(i));
+                if (c != 0) return c;
+            }
+            return 0;
+        }
+
+        if (isSubtype(a.type(), b.type())) return -1;
+        if (isSubtype(b.type(), a.type())) return 1;
+        return 0;
+    }
+
+    private class CompareBySpecificity implements Comparator<MethodWithTphs> {
+        @Override
+        public int compare(MethodWithTphs o1, MethodWithTphs o2) {
+            var p1 = o1.signature.java.parameters();
+            var p2 = o2.signature.java.parameters();
+            if (p1.size() != p2.size()) return 0;
+            for (var i = 0; i < p1.size(); i++) {
+                var c = comparePattern(p1.get(i).pattern(), p2.get(i).pattern());
+                if (c != 0) return c;
+            }
+            return 0;
+        }
+    }
+
+    private void sortBySpecificity(List<MethodWithTphs> methods) {
+        methods.sort(new CompareBySpecificity());
+    }
+
+    private List<TargetMethod> generatePatternOverloads(ClassOrInterface clazz, MethodGroup group) {
+        var overloadedMethods = new ArrayList<>(group.methods);
        if (overloadedMethods.isEmpty()) return List.of();
        // Check if we have a pattern as a parameter
-        var firstMethod = convert(overloadedMethods.getFirst(), overloadedMethods.getFirst().generics.javaGenerics);
+        sortBySpecificity(overloadedMethods);
+        var firstMethod = convert(overloadedMethods.getFirst());
        if (overloadedMethods.size() == 1) return List.of(firstMethod);
-        var secondMethod = convert(overloadedMethods.get(1), overloadedMethods.get(1).generics.javaGenerics);
-        if (firstMethod.signature().parameters().stream().noneMatch(mp -> mp.pattern() instanceof TargetComplexPattern))
-            return overloadedMethods.stream().map(m -> convert(m, m.generics.javaGenerics)).toList();
-
-        var signatureParams = new ArrayList<MethodParameter>();
-        for (var i = 0; i < firstMethod.signature().parameters().size(); i++) {
-            var p1 = firstMethod.signature().parameters().get(i).pattern();
-            var t1 = p1.type();
-            var t2 = secondMethod.signature().parameters().get(i).pattern().type();
-            var commonSubTypes = new HashSet<>(commonSuperInterfaceTypes(t1, t2));
-            for (var m : overloadedMethods.subList(2, overloadedMethods.size())) {
-                var t3 = m.signature().java.parameters().get(i).pattern().type();
-                commonSubTypes.retainAll(commonSuperInterfaceTypes(t1, t3));
-            }
-            if (commonSubTypes.size() > 1) throw new DebugException("Invalid overload");
-            // TODO accept multiple types
-            var superType = ASTFactory.createObjectClass();
-            if (!commonSubTypes.isEmpty())
-                superType = commonSubTypes.iterator().next();
-
-            String name;
-            if (p1 instanceof TargetComplexPattern) name = "__var" + i;
-            else name = p1.name();
-            signatureParams.add(new MethodParameter(new TargetRefType(superType.getClassName().toString()), name));
-        }
-
-        // Rename existing methods
+        var signatureParams = group.signature.java.parameters();

        var res = new ArrayList<TargetMethod>();
        for (var method : overloadedMethods) {
@@ -592,12 +683,6 @@ public class ASTToTargetAST {
            res.add(new TargetMethod(tMethod.access(), name, tMethod.block(), tMethod.signature(), tMethod.txSignature()));
        }

-        var commonSubTypes = new HashSet<>(commonSuperInterfaceTypes(firstMethod.signature().returnType(), secondMethod.signature().returnType()));
-        for (var m : overloadedMethods.subList(2, overloadedMethods.size())) {
-            commonSubTypes.retainAll(commonSuperInterfaceTypes(firstMethod.signature().returnType(), m.signature().java.returnType()));
-        }
-        var returnType = commonSubTypes.isEmpty() ? TargetType.Object : new TargetRefType(commonSubTypes.iterator().next().getClassName().toString());
-
        var parameters = signatureParams.stream().map( p -> new TargetLocalVar(p.pattern().type(), p.pattern().name())).toList();
        //var patterns = List.of((TargetComplexPattern) firstMethod.signature().parameters().stream()
        //       .filter(p -> p.pattern() instanceof TargetComplexPattern).findFirst().orElseThrow().pattern());
@@ -607,9 +692,7 @@ public class ASTToTargetAST {
        var stmt = generatePatternOverloadsRec(0, new TargetLocalVar(signatureParams.getFirst().pattern().type(), signatureParams.getFirst().pattern().name()), parameters, List.of(), res, classType);
        var block = new TargetBlock(List.of(stmt));

-        var signature = new TargetMethod.Signature(Set.of(), signatureParams, returnType);
-        var bridgeMethod = new TargetMethod(firstMethod.access(), firstMethod.name(), block, signature, firstMethod.txSignature());
-
+        var bridgeMethod = new TargetMethod(firstMethod.access(), firstMethod.name(), block, group.signature.java, group.signature.tx);
        res.add(bridgeMethod);
        return res;
    }
@@ -655,6 +738,15 @@ public class ASTToTargetAST {
        }).findFirst();
    }

+    record MethodGroup(Signature signature, Set<MethodWithTphs> methods) {
+        @Override
+        public String toString() {
+            assert !methods.isEmpty();
+            var first = methods.iterator().next();
+            return signature.java.returnType() + " " + first.method.name +  " " + signature.java.generics() + " " + signature.java.parameters();
+        }
+    }
+
    record MethodWithTphs(Method method, Generics generics, Signature signature) {
        @Override
        public boolean equals(Object o) {
@@ -669,14 +761,30 @@ public class ASTToTargetAST {
        }
    }

+    private TargetMethod convert(MethodWithTphs mtph) {
+        return convert(mtph, mtph.generics.javaGenerics);
+    }
+
    private TargetMethod convert(MethodWithTphs mtph, IGenerics generics) {
        return new TargetMethod(mtph.method.modifier, mtph.method.name, convert(mtph.method.block, generics), mtph.signature.java(), mtph.signature.tx());
    }

-    record Signature(TargetMethod.Signature java, TargetMethod.Signature tx, Generics generics) {}
+    record Signature(TargetMethod.Signature java, TargetMethod.Signature tx, Generics generics) {
+        @Override
+        public boolean equals(Object other) {
+            if (this == other) return true;
+            if (!(other instanceof Signature that)) return false;
+            return Objects.equals(this.java, that.java) && Objects.equals(this.tx, that.tx);
+        }

-    private List<MethodWithTphs> convert(ClassOrInterface currentClass, Method method) {
-        List<MethodWithTphs> result = new ArrayList<>();
+        @Override
+        public int hashCode() {
+            return Objects.hash(java, tx);
+        }
+    }
+
+    private Set<MethodWithTphs> convert(ClassOrInterface currentClass, Method method) {
+        Set<MethodWithTphs> result = new HashSet<>();
        this.currentMethod = method;

        List<Signature> signatures = new ArrayList<>();
@@ -701,6 +809,7 @@ public class ASTToTargetAST {
            var txMethodGenerics = collectMethodGenerics(currentClass, generics.txGenerics(), txGenerics, method);

            var javaSignature = new TargetMethod.Signature(javaMethodGenerics, params, returnType);
+            //System.out.println(javaSignature.getDescriptor());
            var txSignature = new TargetMethod.Signature(txMethodGenerics, txParams, convert(method.getReturnType(), generics.txGenerics, compiler));

            signatures.add(new Signature(javaSignature, txSignature, generics));
@@ -754,7 +863,7 @@ public class ASTToTargetAST {
        for (var i = 0; i < tspec.params().size(); i++) {
            var param = tspec.params().get(i);
            if (param instanceof TargetSpecializedType fn) {
-                collectArguments(tspec, newParams);
+                collectArguments(fn, newParams);
            } else {
                newParams.add(param);
            }
@@ -216,6 +216,10 @@ public class StatementToTargetExpression implements ASTVisitor {
        return ASTToTargetAST.findMethod(converter.compiler.getClass(className), name, args, generics, compiler);
    }

+    Optional<Method> findMethod(JavaClassName className, String name, List<TargetType> args, JavaTXCompiler compiler) {
+        return ASTToTargetAST.findMethod(converter.compiler.getClass(className), name, args, compiler);
+    }
+
    @Override
    public void visit(MethodCall methodCall) {
        var receiverType = converter.convert(methodCall.receiver.getType(), generics);
@@ -246,7 +250,7 @@ public class StatementToTargetExpression implements ASTVisitor {
        } else if (!isFunNType) {
            receiverClass = converter.compiler.getClass(receiverName);
            if (receiverClass == null) throw new DebugException("Class " + receiverName + " does not exist!");
-            foundMethod = findMethod(receiverName, methodCall.name, signature, generics, converter.compiler).orElseThrow();
+            foundMethod = findMethod(receiverName, methodCall.name, signature, converter.compiler).orElseThrow();
        }

        if (!isFunNType) {
@@ -3,4 +3,9 @@ package de.dhbwstuttgart.target.tree;
 import de.dhbwstuttgart.target.tree.type.TargetType;

 public record TargetGeneric(String name, TargetType bound) {
+    @Override
+    public String toString() {
+        if (bound.equals(TargetType.Object)) return "'" + name;
+        else return "'" + name + " < " + bound;
+    }
 }
@@ -953,12 +953,28 @@ public class TestComplete {
        var list1 = ConsCtor.newInstance(1, ConsCtor.newInstance(2, ConsCtor.newInstance(3, EmptyCtor.newInstance())));
        var list2 = ConsCtor.newInstance(4, ConsCtor.newInstance(5, ConsCtor.newInstance(6, EmptyCtor.newInstance())));

-        var append = clazz.getDeclaredMethod("append", Cons, Cons);
+        var append = clazz.getDeclaredMethod("append", List, List);
        System.out.println(append.invoke(instance, list1, list2));
    }

+    @Test
+    public void testPatternMatchingSpecificity() throws Exception {
+        var classFiles = generateClassFiles(createClassLoader(), "PatternMatchingSpecificity.jav");
+
+        var clazz = classFiles.get("PatternMatchingSpecificity");
+        var instance = clazz.getDeclaredConstructor().newInstance();
+        var R = classFiles.get("R");
+
+        Integer i = 20;
+        var r = R.getDeclaredConstructor(Number.class).newInstance(i);
+
+        var m = clazz.getDeclaredMethod("m", R);
+        assertEquals(1, m.invoke(instance, r));
+    }
+
    @Test
    public void testPatternMatchingZip() throws Exception {
+        //ConsoleInterface.logLevel = Logger.LogLevel.DEBUG;
        var classFiles = generateClassFiles(createClassLoader(), "PatternMatching.jav");
        var clazz = classFiles.get("PatternMatching");
        var instance = clazz.getDeclaredConstructor().newInstance();
@@ -966,7 +982,6 @@ public class TestComplete {

    @Test
    public void testPatternMatchingZipJava() throws Exception {
-        ConsoleInterface.logLevel = Logger.LogLevel.DEBUG;
        var classFiles = generateClassFiles(createClassLoader(), false, "PatternMatchingJava.jav", "PatternMatchingJava2.jav");
        var clazz = classFiles.get("PatternMatchingJava");
        var instance = clazz.getDeclaredConstructor().newInstance();
@@ -1536,10 +1551,24 @@ public class TestComplete {
        // TODO This logs output that we should validate
    }

+    @Test
+    public void testBug389() throws Exception {
+        var classFiles = generateClassFiles(createClassLoader(), false, "Bug389.jav", "Bug389Main.jav");
+        var clazz = classFiles.get("Bug389Main");
+        clazz.getDeclaredMethod("main", List.class).invoke(null, List.of());
+    }
+
    @Test
    public void testBug390() throws Exception {
        var classFiles = generateClassFiles(createClassLoader(), "Bug390.jav");
        var clazz = classFiles.get("Bug390");
        clazz.getDeclaredMethod("main", List.class).invoke(null, List.of());
    }
+
+    @Test
+    public void testBug392() throws Exception {
+        var classFiles = generateClassFiles(createClassLoader(), "Bug392.jav");
+        var clazz = classFiles.get("Bug392");
+        clazz.getDeclaredMethod("main", List.class).invoke(null, List.of());
+    }
 }
@@ -19,14 +19,11 @@ public class TestTypeDeployment {
        var path = Path.of(System.getProperty("user.dir"), "/resources/bytecode/javFiles/Cycle.jav");
        var file = path.toFile();
        var compiler = new JavaTXCompiler(file);
+        compiler.parseAll();
        var parsedSource = compiler.sourceFiles.get(file);
        var tiResults = compiler.typeInference(file);
        Set<TypeInsert> tips = new HashSet<>();

-        for (var sf : compiler.sourceFiles.values()) {
-            Map<JavaClassName, byte[]> bytecode = compiler.generateBytecode(sf, tiResults);
-        }
-
        System.out.println(compiler.getGeneratedGenerics());

        for (int i = 0; i < tiResults.size(); i++) {
@@ -59,6 +59,7 @@ public class ServerTest {

    // get information from the compiler
    JavaTXCompiler compiler = new JavaTXCompiler(List.of(file));
+    compiler.parseAll();

    // NOW: simulate the call to method typeInference. Once via server and once locally
    // if everything works, they should neither interfere with each other nor differ in their result
@@ -49,6 +49,7 @@ public class TestGenerics {
    private static Result computeGenerics(String filename) throws IOException, ClassNotFoundException {
        var file = Path.of(rootDirectory + filename).toFile();
        var compiler = new JavaTXCompiler(List.of(file), List.of(file.getParentFile()), new File(bytecodeDirectory), true);
+        compiler.parseAll();
        var inference = compiler.typeInference(file);
        compiler.generateBytecode(new File(bytecodeDirectory), inference);
        var sf = compiler.sourceFiles.get(file);
Author	SHA1	Message	Date
dholle	523452f437	Write back classes Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m30s Details	2026-05-20 18:33:09 +02:00
dholle	7051b4335a	Test ordering Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m12s Details	2026-05-20 13:36:10 +02:00
dholle	7daec0a291	Create bridge method Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m15s Details	2026-05-19 11:34:53 +02:00
dholle	653f704265	Deduplicate methods earlier Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m7s Details	2026-05-15 18:21:29 +02:00
dholle	b36ba5e128	Group methods Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m9s Details	2026-05-15 17:30:11 +02:00
dholle	a43f49cadb	Make append example work again Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m48s Details	2026-05-15 16:47:20 +02:00
dholle	69292c37fc	Keep working on it Build and Test with Maven / Build-and-test-with-Maven (push) Failing after 1m48s Details	2026-05-15 15:32:37 +02:00
dholle	218e704272	Merge branch 'master' of ssh://gitea.hb.dhbw-stuttgart.de:2222/JavaTX/JavaCompilerCore	2026-05-15 14:01:55 +02:00
dholle	e83e9a041c	Work on pattern matching SonarQube Scan / SonarQube Trigger (push) Failing after 1m45s Details	2026-05-14 20:48:13 +02:00
dholle	2f7e4fc1e4	WIP SonarQube Scan / SonarQube Trigger (push) Failing after 1m51s Details	2026-04-30 14:28:35 +02:00
dholle	433dcf83c2	Small bug fix SonarQube Scan / SonarQube Trigger (push) Failing after 2m33s Details	2026-04-29 07:54:47 +02:00