Bugs gefixt. Tests für relationalen Operatoren(GreaterEqualTest, ...) laufen.

Für Typplaceholder werden Generics verwendet.

Neue Tests angefügt.
This commit is contained in:
Fayez Abu Alia 2018-05-23 15:38:41 +02:00
parent dcc36f082f
commit 0f29bc038a
19 changed files with 467 additions and 142 deletions

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@ -191,13 +191,13 @@ public class BytecodeGen implements ASTVisitor {
System.out.println(acc);
/*Prüfe, ob die Rückgabe-Type der Methode eine Type-Variable ist*/
boolean hasGenInParameterList = genericsAndBounds.containsKey(resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToDescriptor()));
boolean hasGenInParameterList = genericsAndBounds.containsKey(retType) || retType.subSequence(0, 4).equals("TPH ");
/*Wenn die Rückgabe-Type eine Typ-variable ist, erzeuge direkt die Signature, wenn nicht,
* prüfe, ob einer der Parameter Typ-Variable als Typ hat*/
if(!hasGenInParameterList) {
for(String paramName : methodParamsAndTypes.keySet()) {
String typeOfParam = methodParamsAndTypes.get(paramName).acceptTV(new TypeToDescriptor());
if(genericsAndBounds.containsKey(typeOfParam)) {
if(genericsAndBounds.containsKey(typeOfParam)||typeOfParam.substring(0, 4).equals("TPH ")) {
hasGenInParameterList = true;
break;
}
@ -213,6 +213,7 @@ public class BytecodeGen implements ASTVisitor {
boolean hasGen = method.getGenerics().iterator().hasNext() || hasGenInParameterList;
/* if method has generics or return type is TPH, create signature */
// zwite operand muss weggelassen werden
if(hasGen||method.getReturnType().acceptTV(new TypeToString()).equals("TPH")) {
// resultset hier zum testen
Signature signature = new Signature(method, genericsAndBoundsMethod, methodParamsAndTypes,resultSet);

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@ -29,8 +29,6 @@ import org.objectweb.asm.signature.SignatureWriter;
import de.dhbwstuttgart.bytecode.descriptor.DescriptorToString;
import de.dhbwstuttgart.bytecode.descriptor.TypeToDescriptor;
import de.dhbwstuttgart.bytecode.signature.Signature;
import de.dhbwstuttgart.bytecode.signature.TypeToSignature;
import de.dhbwstuttgart.bytecode.signature.TypeToString;
import de.dhbwstuttgart.bytecode.utilities.KindOfLambda;
import de.dhbwstuttgart.bytecode.utilities.Lambda;
import de.dhbwstuttgart.bytecode.utilities.MethodFromMethodCall;
@ -56,7 +54,7 @@ public class BytecodeGenMethod implements StatementVisitor {
private HashMap<String, String> genericsAndBounds;
private boolean isBinaryExp = false;
private IStatement statement;
private IStatement statement = null;
// for tests **
private String fieldName;
@ -67,9 +65,6 @@ public class BytecodeGenMethod implements StatementVisitor {
private KindOfLambda kindOfLambda;
private HashMap<String, byte[]> classFiles;
private boolean isAssignStmt = false;
private Statement loopBlock;
private ArrayList<RefTypeOrTPHOrWildcardOrGeneric> varsFunInterface = new ArrayList<>();;
public BytecodeGenMethod(String className, ResultSet resultSet, Method m, MethodVisitor mv,
@ -138,7 +133,7 @@ public class BytecodeGenMethod implements StatementVisitor {
mv.visitVarInsn(Opcodes.ALOAD, paramsAndLocals.get(localVar.name));
if (isBinaryExp) {
getVlaueIns(getResolvedType(localVar.getType()));
doUnboxing(getResolvedType(localVar.getType()));
}
}
@ -151,8 +146,6 @@ public class BytecodeGenMethod implements StatementVisitor {
@Override
public void visit(Assign assign) {
statement = new AssignStmt(assign.rightSide);
isAssignStmt = true;
// if the right side is a lambda => the left side must be a functional interface
if (assign.rightSide instanceof LambdaExpression) {
isRightSideALambda = true;
@ -162,7 +155,6 @@ public class BytecodeGenMethod implements StatementVisitor {
isBinaryExp = statement.isExprBinary();
if (assign.lefSide instanceof AssignToField) {
// load_0, ldc or .. then putfield
this.rightSideTemp = assign.rightSide;
@ -171,17 +163,15 @@ public class BytecodeGenMethod implements StatementVisitor {
}
if (isBinaryExp) {
BinaryExpr binary = (BinaryExpr) assign.rightSide;
String lexpType = getResolvedType(binary.lexpr.getType());
String rexpType = getResolvedType(binary.rexpr.getType());
getValueOfIns(getLargerType(lexpType, rexpType));
String binaryType = getResolvedType(binary.getType());
doBoxing(binaryType);
isBinaryExp = false;
}
assign.lefSide.accept(this);
isAssignStmt =false;
statement = null;
}
@Override
public void visit(BinaryExpr binary) {
@ -205,14 +195,12 @@ public class BytecodeGenMethod implements StatementVisitor {
binary.lexpr.accept(this);
if(!lexpType.equals(rexpType) &&
!lexpType.equals(largerType))
if (!lexpType.equals(rexpType) && !lexpType.equals(largerType))
doCast(lexpType, largerType);
binary.rexpr.accept(this);
if(!lexpType.equals(rexpType) &&
!rexpType.equals(largerType))
if (!lexpType.equals(rexpType) && !rexpType.equals(largerType))
doCast(rexpType, largerType);
Operator op = binary.operation;
@ -252,19 +240,22 @@ public class BytecodeGenMethod implements StatementVisitor {
}
/*
* Diese Methode wird nicht mehr gebraucht, da es jetzt nicht möglich ist, dass
* solche Fälle: Integer -> Integer (OP) Short ,... usw, nicht vorkommen!
*/
private String getLargerType(String lexpType, String rexpType) {
if(lexpType.equals(Type.getInternalName(String.class)) ||
rexpType.equals(Type.getInternalName(String.class))) {
if (lexpType.equals(Type.getInternalName(String.class))
|| rexpType.equals(Type.getInternalName(String.class))) {
return Type.getInternalName(String.class);
} else
if(lexpType.equals(Type.getInternalName(Double.class)) ||
rexpType.equals(Type.getInternalName(Double.class))) {
} else if (lexpType.equals(Type.getInternalName(Double.class))
|| rexpType.equals(Type.getInternalName(Double.class))) {
return Type.getInternalName(Double.class);
} else if(lexpType.equals(Type.getInternalName(Float.class)) ||
rexpType.equals(Type.getInternalName(Float.class))) {
} else if (lexpType.equals(Type.getInternalName(Float.class))
|| rexpType.equals(Type.getInternalName(Float.class))) {
return Type.getInternalName(Float.class);
} else if(lexpType.equals(Type.getInternalName(Long.class)) ||
rexpType.equals(Type.getInternalName(Long.class))) {
} else if (lexpType.equals(Type.getInternalName(Long.class))
|| rexpType.equals(Type.getInternalName(Long.class))) {
return Type.getInternalName(Long.class);
} else {
return Type.getInternalName(Integer.class);
@ -297,13 +288,17 @@ public class BytecodeGenMethod implements StatementVisitor {
// braucht man eigentlic nicht, muss getestet werden
case "java/lang/String":
if (sourceType.equals(Type.getInternalName(Double.class))) {
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf", "(D)Ljava/lang/String;", false);
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf",
"(D)Ljava/lang/String;", false);
} else if (sourceType.equals(Type.getInternalName(Long.class))) {
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf", "(J)Ljava/lang/String;", false);
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf",
"(J)Ljava/lang/String;", false);
} else if (sourceType.equals(Type.getInternalName(Float.class))) {
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf", "(F)Ljava/lang/String;", false);
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf",
"(F)Ljava/lang/String;", false);
} else {
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf", "(I)Ljava/lang/String;", false);
mv.visitMethodInsn(Opcodes.INVOKESTATIC, Type.getInternalName(String.class), "valueOf",
"(I)Ljava/lang/String;", false);
}
break;
default:
@ -368,8 +363,8 @@ public class BytecodeGenMethod implements StatementVisitor {
default:
break;
}
statement.genBCForRelOp(mv, branchLabel, endLabel, this);
statement.genBCForRelOp(mv, branchLabel, endLabel, this);
}
private void doVisitModOpInsn(String typeOfBinary) {
@ -687,17 +682,17 @@ public class BytecodeGenMethod implements StatementVisitor {
switch (op) {
case POSTDECREMENT:
case POSTINCREMENT:
if(isAssignStmt)
if (statement instanceof AssignStmt)
mv.visitInsn(Opcodes.DUP);
genBCForIncAndDec(op, typeOfUnary);
getValueOfIns(typeOfUnary);
doBoxing(typeOfUnary);
isIncOrDec = true;
break;
case PREDECREMENT:
case PREINCREMENT:
genBCForIncAndDec(op, typeOfUnary);
getValueOfIns(typeOfUnary);
if(isAssignStmt)
doBoxing(typeOfUnary);
if (statement instanceof AssignStmt)
mv.visitInsn(Opcodes.DUP);
isIncOrDec = true;
break;
@ -738,8 +733,8 @@ public class BytecodeGenMethod implements StatementVisitor {
private void genBCForIncAndDec(Operation op, String typeOfUnary) {
getVlaueIns(typeOfUnary);
doAssign(typeOfUnary, 1.0, true);
doUnboxing(typeOfUnary);
loadValue(typeOfUnary, 1.0, true);
switch (op) {
case POSTDECREMENT:
@ -759,22 +754,19 @@ public class BytecodeGenMethod implements StatementVisitor {
@Override
public void visit(Return aReturn) {
statement = new ReturnStmt(aReturn.retexpr);
isBinaryExp = statement.isExprBinary();
aReturn.retexpr.accept(this);
if (isBinaryExp) {
BinaryExpr binary = (BinaryExpr) aReturn.retexpr;
String lexpType = getResolvedType(binary.lexpr.getType());
String rexpType = getResolvedType(binary.rexpr.getType());
getValueOfIns(getLargerType(lexpType, rexpType));
doBoxing(getResolvedType(binary.getType()));
isBinaryExp = false;
}
mv.visitInsn(Opcodes.ARETURN);
statement = null;
}
@Override
@ -787,7 +779,8 @@ public class BytecodeGenMethod implements StatementVisitor {
// mv.visitMethodInsn(Opcodes.INVOKESTATIC,
// staticClassName.getType().toString().replace(".", "/"),
// staticClassName.toString(), staticClassName.getType().toString(), false);
//mv.visitFieldInsn(Opcodes.GETSTATIC, getResolvedType(staticClassName.getType()), fieldName, fieldDesc);
// mv.visitFieldInsn(Opcodes.GETSTATIC,
// getResolvedType(staticClassName.getType()), fieldName, fieldDesc);
throw new NotImplementedException("Static noch nicht implementiert!");
}
@ -803,16 +796,11 @@ public class BytecodeGenMethod implements StatementVisitor {
@Override
public void visit(WhileStmt whileStmt) {
statement = new LoopStmt(whileStmt.expr, whileStmt.loopBlock);
this.loopBlock = whileStmt.loopBlock;
isBinaryExp = statement.isExprBinary();
whileStmt.expr.accept(this);
isBinaryExp = false;
statement = null;
}
@Override
@ -825,12 +813,13 @@ public class BytecodeGenMethod implements StatementVisitor {
public void visit(Literal literal) {
Object value = literal.value;
String typeOfLiteral = getResolvedType(literal.getType());
// Name der Methode muss geändert werden
doAssign(typeOfLiteral, value, false);
// Der Wert des Literals wird auf den Stack geladen und
// geboxt, wenn es nötig ist.
loadValue(typeOfLiteral, value, false);
}
private void getVlaueIns(String type) {
// Unboxing: RefType -> prim
private void doUnboxing(String type) {
switch (type) {
case "java/lang/String":
mv.visitMethodInsn(Opcodes.INVOKEVIRTUAL, Type.getInternalName(StringBuilder.class), "append",
@ -860,11 +849,13 @@ public class BytecodeGenMethod implements StatementVisitor {
case "java/lang/Character":
break;
default:
// mv.visitMethodInsn(Opcodes.INVOKEVIRTUAL, "java/lang/Integer", "intValue",
// "()I", false);
break;
}
}
private void doAssign(String type, Object value, boolean isOperator) {
private void loadValue(String type, Object value, boolean isOperator) {
switch (type) {
case "java/lang/String":
mv.visitLdcInsn(String.valueOf(value));
@ -895,17 +886,21 @@ public class BytecodeGenMethod implements StatementVisitor {
visitCharLiteral((Character) value);
break;
default:
// wenn die Typ des Literals = Number ist, wird integer-value
// verwendet
// visitIntegerLiteral(((Double) value).intValue(), false);
break;
}
// Boxing
if (!type.equals("java/lang/String") && !type.equals("java/lang/Boolean")) {
if (!this.isBinaryExp && !isOperator)
getValueOfIns(type);
doBoxing(type);
}
}
private void getValueOfIns(String type) {
// Boxing: prim -> RefType
private void doBoxing(String type) {
switch (type) {
case "java/lang/String":
mv.visitMethodInsn(Opcodes.INVOKEVIRTUAL, "java/lang/StringBuilder", "toString", "()Ljava/lang/String;",
@ -1019,6 +1014,7 @@ public class BytecodeGenMethod implements StatementVisitor {
for (Expression al : argumentList.getArguments()) {
statement = new ArgumentExpr(al);
al.accept(this);
statement = null;
}
}

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@ -46,12 +46,18 @@ public class DescriptorToString implements DescriptorVisitor{
}else if(method.getGenericsAndBounds().containsKey(fpDesc)){
desc += "L"+method.getGenericsAndBounds().get(fpDesc)+ ";";
}else {
desc += "L"+resultSet.resolveType(fp.getType()).resolvedType.acceptTV(new TypeToDescriptor())+ ";";
// desc += "L"+resultSet.resolveType(fp.getType()).resolvedType.acceptTV(new TypeToDescriptor())+ ";";
String resType = resultSet.resolveType(fp.getType()).resolvedType.acceptTV(new TypeToDescriptor());
if(resType.subSequence(0, 4).equals("TPH ")) {
desc += "L"+method.getGenericsAndBoundsMethod().get(resType.substring(4)+"$")+ ";";
} else {
desc += "L"+resType+ ";";
}
}
}
//TODO: generate a class java%% ... %%
else if(resultSet.resolveType(fp.getType()).resolvedType.acceptTV(new TypeToDescriptor()).contains("<")){
desc += "L"+resultSet.resolveType(fp.getType()).resolvedType.toString().replace(".", "%").replace("<", "%%").replace(">", "%%")+ ";";
desc += "L"+resultSet.resolveType(fp.getType()).resolvedType.toString().replace(".", "$$").replace("<", "$$$").replace(">", "$$$")+ ";";
}
else {
desc += "L"+resultSet.resolveType(fp.getType()).resolvedType.acceptTV(new TypeToDescriptor())+ ";";
@ -68,7 +74,12 @@ public class DescriptorToString implements DescriptorVisitor{
}else if(method.getGenericsAndBounds().containsKey(ret)){
desc += ")L"+method.getGenericsAndBounds().get(ret)+ ";";
}else {
desc += ")" + "L"+resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToDescriptor())+ ";";
String resType = resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToDescriptor());
if(resType.subSequence(0, 4).equals("TPH ")) {
desc += ")" + "L"+method.getGenericsAndBoundsMethod().get(resType.substring(4)+"$")+ ";";
} else {
desc += ")" + "L"+resType+ ";";
}
}
}else {
desc += ")" + "L"+resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToDescriptor())+ ";";

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@ -13,6 +13,8 @@ public class TypeToDescriptor implements TypeVisitor<String>{
@Override
public String visit(RefType refType) {
return refType.getName().toString().replace(".", "/");
// String t = refType.getName().toString().replace(".", "/");
// return t.equals("Fun1")?(t+"$$"):t;
}
@Override
@ -27,7 +29,8 @@ public class TypeToDescriptor implements TypeVisitor<String>{
@Override
public String visit(ExtendsWildcardType extendsWildcardType) {
throw new NotImplementedException();
return extendsWildcardType.getInnerType().toString();
//throw new NotImplementedException();
}
@Override

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@ -59,7 +59,7 @@ public class Signature {
private void createSignatureForFunN(LambdaExpression lambdaExpression, int numberOfParams) {
sw.visitClassBound().visitEnd();
// sw.visitClassBound().visitEnd();
for(int i = 0;i<numberOfParams;i++) {
int j = i+1;
sw.visitFormalTypeParameter("T"+ j);
@ -92,7 +92,31 @@ public class Signature {
GenericTypeVar g = itr.next();
getBoundsOfTypeVar(g,genericsAndBoundsMethod);
}
// visits each method-parameter to create the signature
// Wenn die RückgabeType eine TPH ist, wird als generic behandelt
// z.B: Type = TPH K => wird eine Formal Type Parameter K$ erzeugt und Bound = Object
String ret = resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToSignature());
if(ret.substring(0,4).equals("TPH ")) {
String g = ret.substring(4)+"$";
sw.visitFormalTypeParameter(g);
sw.visitClassBound().visitClassType(Type.getInternalName(Object.class));
genericsAndBoundsMethod.put(g, Type.getInternalName(Object.class));
sw.visitClassBound().visitEnd();
}
for(String paramName : methodParamsAndTypes.keySet()) {
RefTypeOrTPHOrWildcardOrGeneric t = methodParamsAndTypes.get(paramName);
String pT = t.acceptTV(new TypeToSignature());
// S.o
if(pT.substring(0,4).equals("TPH ") && !genericsAndBoundsMethod.containsKey(pT)) {
String gP = pT.substring(4)+"$";
sw.visitFormalTypeParameter(gP);
sw.visitClassBound().visitClassType(Type.getInternalName(Object.class));
genericsAndBoundsMethod.put(gP, Type.getInternalName(Object.class));
sw.visitClassBound().visitEnd();
}
}
// visit each method-parameter to create the signature
for(String paramName : methodParamsAndTypes.keySet()) {
RefTypeOrTPHOrWildcardOrGeneric t = methodParamsAndTypes.get(paramName);
// parameter type deswegen ist true
@ -101,6 +125,15 @@ public class Signature {
if(isConstructor) {
sw.visitReturnType().visitBaseType('V');
}else {
// String ret = resultSet.resolveType(method.getReturnType()).resolvedType.acceptTV(new TypeToSignature());
// if(ret.substring(0,4).equals("TPH ")) {
// String g = ret.substring(4);
// if(!genericsAndBoundsMethod.containsKey(g)) {
// genericsAndBoundsMethod.put(g, Type.getInternalName(Object.class));
// } else {
// genericsAndBoundsMethod.put(g+"_", Type.getInternalName(Object.class));
// }
// }
RefTypeOrTPHOrWildcardOrGeneric returnType = method.getReturnType();
// return type deswegen ist false
doVisitParamsOrReturn(returnType, false);
@ -132,10 +165,16 @@ public class Signature {
break;
case "TPH":
RefTypeOrTPHOrWildcardOrGeneric r = resultSet.resolveType(t).resolvedType;
if(!r.acceptTV(new TypeToSignature()).substring(0, 4).equals("TPH "))
sv.visitInterface().visitClassType(r.acceptTV(new TypeToSignature()));
// sv.visitClassType(r.acceptTV(new TypeToSignature()));
// der Fall wenn die Type eine Interface ist, muss betrachtet werden
// Deswegen muss in ResutSet noch enthalten werden, ob die Type eine
// Interface oder eine Klasse ist.
if(!r.acceptTV(new TypeToSignature()).substring(0, 4).equals("TPH ")) {
// sv.visitInterface().visitClassType(r.acceptTV(new TypeToSignature()));
sv.visitClassType(r.acceptTV(new TypeToSignature()));
} else {
System.out.println(r.getClass()+" Signature TPH: "+r.acceptTV(new TypeToSignature()));
sv.visitTypeVariable(r.acceptTV(new TypeToSignature()).substring(4)+"$");
}
break;
default:
if(!isParameterType)

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@ -27,6 +27,8 @@ public class TypeToSignature implements TypeVisitor<String> {
}
params += ";>";
}
// String t = refType.getName().toString().replace(".", "/");
// return t.equals("Fun1")?t+"$$"+params+";":t+params+";";
return refType.getName().toString().replace(".", "/") + params+";";
}

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@ -0,0 +1,40 @@
package bytecode;
import static org.junit.Assert.*;
import java.io.File;
import java.net.URL;
import java.net.URLClassLoader;
import org.junit.BeforeClass;
import org.junit.Test;
import de.dhbwstuttgart.core.JavaTXCompiler;
public class BinaryTest {
private static String path;
private static File fileToTest;
private static JavaTXCompiler compiler;
private static ClassLoader loader;
private static Class<?> classToTest;
private static String pathToClassFile;
private static Object instanceOfClass;
@BeforeClass
public static void setUpBeforeClass() throws Exception {
path = System.getProperty("user.dir")+"/test/bytecode/javFiles/BinaryInMeth.jav";
fileToTest = new File(path);
compiler = new JavaTXCompiler(fileToTest);
compiler.generateBytecode();
pathToClassFile = System.getProperty("user.dir")+"/testBytecode/generatedBC/";
loader = new URLClassLoader(new URL[] {new URL("file://"+pathToClassFile)});
classToTest = loader.loadClass("BinaryInMeth");
instanceOfClass = classToTest.getDeclaredConstructor().newInstance();
}
@Test
public void test() {
fail("Not yet implemented");
}
}

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@ -0,0 +1,44 @@
package bytecode;
import static org.junit.Assert.*;
import java.io.File;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.URL;
import java.net.URLClassLoader;
import org.junit.BeforeClass;
import org.junit.Test;
import de.dhbwstuttgart.core.JavaTXCompiler;
public class FacTest {
private static String path;
private static File fileToTest;
private static JavaTXCompiler compiler;
private static ClassLoader loader;
private static Class<?> classToTest;
private static String pathToClassFile;
private static Object instanceOfClass;
@BeforeClass
public static void setUpBeforeClass() throws Exception {
path = System.getProperty("user.dir")+"/test/bytecode/javFiles/Fac.jav";
fileToTest = new File(path);
compiler = new JavaTXCompiler(fileToTest);
compiler.generateBytecode();
pathToClassFile = System.getProperty("user.dir")+"/testBytecode/generatedBC/";
loader = new URLClassLoader(new URL[] {new URL("file://"+pathToClassFile)});
classToTest = loader.loadClass("Fac");
instanceOfClass = classToTest.getDeclaredConstructor().newInstance();
}
@Test
public void test() throws NoSuchMethodException, SecurityException, IllegalAccessException, IllegalArgumentException, InvocationTargetException {
Method getFac = classToTest.getDeclaredMethod("getFac", Integer.class,Integer.class);
Integer result = (Integer) getFac.invoke(instanceOfClass,3);
assertEquals(result, 6);
}
}

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@ -29,7 +29,7 @@ public class PlusTest {
compiler = new JavaTXCompiler(fileToTest);
compiler.generateBytecode();
pathToClassFile = System.getProperty("user.dir")+"/testBytecode/generatedBC/examples/";
pathToClassFile = System.getProperty("user.dir")+"/testBytecode/generatedBC/";
loader = new URLClassLoader(new URL[] {new URL("file://"+pathToClassFile)});
classToTest = loader.loadClass("Plus");
instanceOfClass = classToTest.getDeclaredConstructor().newInstance();

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@ -0,0 +1,44 @@
package bytecode;
import static org.junit.Assert.*;
import java.io.File;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.net.URL;
import java.net.URLClassLoader;
import org.junit.BeforeClass;
import org.junit.Test;
import de.dhbwstuttgart.core.JavaTXCompiler;
public class RelOpsTest {
private static String path;
private static File fileToTest;
private static JavaTXCompiler compiler;
private static ClassLoader loader;
private static Class<?> classToTest;
private static String pathToClassFile;
private static Object instanceOfClass;
@BeforeClass
public static void setUpBeforeClass() throws Exception {
path = System.getProperty("user.dir")+"/test/bytecode/javFiles/RelOps.jav";
fileToTest = new File(path);
compiler = new JavaTXCompiler(fileToTest);
compiler.generateBytecode();
pathToClassFile = System.getProperty("user.dir")+"/testBytecode/generatedBC/";
loader = new URLClassLoader(new URL[] {new URL("file://"+pathToClassFile)});
classToTest = loader.loadClass("RelOps");
instanceOfClass = classToTest.getDeclaredConstructor().newInstance();
}
@Test
public void test() throws NoSuchMethodException, SecurityException, IllegalAccessException, IllegalArgumentException, InvocationTargetException {
Method m = classToTest.getDeclaredMethod("m", Integer.class,Integer.class);
Boolean result = (Boolean) m.invoke(instanceOfClass, 7,3);
assertFalse(result);
}
}

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@ -0,0 +1,11 @@
import java.lang.Integer;
public class BinaryInMeth {
m(a){
return ++a;
}
m2(a,b){
return m(a+b);
}
}

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@ -0,0 +1,16 @@
import java.lang.Integer;
import java.lang.Long;
import java.lang.Double;
public class Fac {
getFac(n){
var res = 1;
var i = 1;
while(i<=n) {
res = res * i;
i++;
}
return res;
}
}

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@ -2,7 +2,7 @@ import java.lang.Integer;
import java.util.Vector;
public class Gen{
Vector<? extends Integer> m(Vector<Integer> v){
Vector<Integer> m(Vector<Integer> v){
return v;
}
}

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@ -7,19 +7,19 @@ class Matrix extends Vector<Vector<Integer>> {
var ret = new Matrix();
var i = 0;
while(i < size()) {
var v1 = this.elementAt(i);
var v2 = new Vector<Integer>();
var j = 0;
while(j < v1.size()) {
var erg = 0;
var k = 0;
while(k < v1.size()) {
erg = erg + v1.elementAt(k)
* m.elementAt(k).elementAt(j);
k++; }
v2.addElement(new Integer(erg));
j++; }
ret.addElement(v2);
// var v1 = this.elementAt(i);
// var v2 = new Vector<Integer>();
// var j = 0;
// while(j < v1.size()) {
// var erg = 0;
// var k = 0;
// while(k < v1.size()) {
// erg = erg + v1.elementAt(k)
// * m.elementAt(k).elementAt(j);
// k++; }
// v2.addElement(new Integer(erg));
// j++; }
// ret.addElement(v2);
i++;
}
return ret;

View File

@ -9,7 +9,7 @@ import java.lang.Byte;
public class Op {
Integer m(Integer a, Integer b) {
m(a, b) {
//var c = a+b;
return a+b;
}

View File

@ -1,4 +1,4 @@
import java.lang.Integer;
//import java.lang.Integer;
public class Plus {

View File

@ -0,0 +1,7 @@
import java.lang.Integer;
public class RelOps {
m(a,b){
return a<b;
}
}

View File

@ -1,4 +1,8 @@
import java.lang.Integer;
// wenn nur ein Import da steht,wird die Type von
// dem Literal 2 Number berechnet => Deswegen kann
// nicht auf den Stack geladen.
//import java.lang.Long;
public class While {
m(x) {

107
test/logFiles/log Normal file
View File

@ -0,0 +1,107 @@
FC:\{java.lang.Number=Elem: Node(java.lang.Number)
Prec: [java.lang.Object, java.io.Serializable]
Desc: [java.lang.Integer]
, java.lang.Comparable=Elem: Node(java.lang.Comparable)
Prec: []
Desc: [java.lang.Integer]
, java.lang.Comparable<BWE>=Elem: Node(java.lang.Comparable<BWE>)
Prec: [java.lang.Object]
Desc: []
, java.lang.Integer=Elem: Node(java.lang.Integer)
Prec: [java.lang.Number, java.lang.Object, java.lang.Comparable, java.io.Serializable]
Desc: []
, java.lang.Iterable<CWZ>=Elem: Node(java.lang.Iterable<CWZ>)
Prec: [java.lang.Object]
Desc: []
, java.lang.Iterable<CFZ>=Elem: Node(java.lang.Iterable<CFZ>)
Prec: [java.lang.Object]
Desc: []
, java.util.Collection=Elem: Node(java.util.Collection)
Prec: []
Desc: [java.util.AbstractList<BXU>, java.util.Vector<BXU>, java.util.List<BXU>, java.util.AbstractCollection<BXU>]
, java.util.AbstractCollection<BXU>=Elem: Node(java.util.AbstractCollection<BXU>)
Prec: [java.lang.Object, java.util.Collection]
Desc: [java.util.AbstractList<BXU>, java.util.Vector<BXU>]
, java.util.AbstractList<BXU>=Elem: Node(java.util.AbstractList<BXU>)
Prec: [java.lang.Object, java.util.Collection, java.util.AbstractCollection<BXU>, java.util.List]
Desc: [java.util.Vector<BXU>]
, java.lang.Cloneable=Elem: Node(java.lang.Cloneable)
Prec: [java.lang.Object]
Desc: [java.util.Vector<BXU>]
, java.lang.Comparable<BPP>=Elem: Node(java.lang.Comparable<BPP>)
Prec: [java.lang.Object]
Desc: []
, java.lang.Object=Elem: Node(java.lang.Object)
Prec: [java.lang.Object]
Desc: [java.lang.Number, java.lang.Comparable<BWE>, java.lang.Integer, java.lang.Iterable<CWZ>, java.lang.Iterable<CFZ>, java.util.AbstractCollection<BXU>, java.util.AbstractList<BXU>, java.lang.Cloneable, java.lang.Comparable<BPP>, Gen, java.lang.Object, java.util.Vector<BXU>, java.util.Collection<CMJ>, java.util.RandomAccess, java.util.Collection<CDW>, java.util.List<BXU>, java.io.Serializable, java.lang.Iterable<COM>, java.util.Collection<CUW>]
, java.util.Vector<BXU>=Elem: Node(java.util.Vector<BXU>)
Prec: [java.util.AbstractList<BXU>, java.lang.Cloneable, java.lang.Object, java.util.Collection, java.util.RandomAccess, java.io.Serializable, java.util.AbstractCollection<BXU>, java.util.List]
Desc: []
, Gen=Elem: Node(Gen)
Prec: [java.lang.Object]
Desc: []
, java.util.Collection<CMJ>=Elem: Node(java.util.Collection<CMJ>)
Prec: [java.lang.Object, java.lang.Iterable]
Desc: []
, java.util.RandomAccess=Elem: Node(java.util.RandomAccess)
Prec: [java.lang.Object]
Desc: [java.util.Vector<BXU>]
, java.util.List<BXU>=Elem: Node(java.util.List<BXU>)
Prec: [java.lang.Object, java.util.Collection]
Desc: []
, java.util.Collection<CDW>=Elem: Node(java.util.Collection<CDW>)
Prec: [java.lang.Object, java.lang.Iterable]
Desc: []
, java.io.Serializable=Elem: Node(java.io.Serializable)
Prec: [java.lang.Object]
Desc: [java.lang.Number, java.util.Vector<BXU>, java.lang.Integer]
, java.lang.Iterable<COM>=Elem: Node(java.lang.Iterable<COM>)
Prec: [java.lang.Object]
Desc: []
, java.lang.Iterable=Elem: Node(java.lang.Iterable)
Prec: []
Desc: [java.util.Collection<CMJ>, java.util.Collection<CDW>, java.util.Collection<CUW>]
, java.util.Collection<CUW>=Elem: Node(java.util.Collection<CUW>)
Prec: [java.lang.Object, java.lang.Iterable]
Desc: []
, java.util.List=Elem: Node(java.util.List)
Prec: []
Desc: [java.util.AbstractList<BXU>, java.util.Vector<BXU>]
}
class Gen {
java.util.Vector<java.lang.Integer> m(java.util.Vector<java.lang.Integer> v)({
return (v)::java.util.Vector<java.lang.Integer>;
})::TPH K
Gen()({
super(());
})::TPH N
}Unifikation: [(java.util.Vector<java.lang.Integer> <. java.util.Vector<java.lang.Integer>, )]
Unifikation: []
[]
RES: []