use of de.mirkosertic.bytecoder.core.BytecodeInstructionIINC in project Bytecoder by mirkosertic.
the class NaiveProgramGenerator method initializeBlockWith.
private void initializeBlockWith(BytecodeClass aOwningClass, BytecodeMethod aMethod, RegionNode aTargetBlock, Function<BytecodeOpcodeAddress, BytecodeBasicBlock> aBlocksByAddress, ParsingHelper aHelper) {
// Finally we can start to parse the program
BytecodeBasicBlock theBytecodeBlock = aBlocksByAddress.apply(aTargetBlock.getStartAddress());
for (BytecodeInstruction theInstruction : theBytecodeBlock.getInstructions()) {
if (theInstruction instanceof BytecodeInstructionNOP) {
BytecodeInstructionNOP theINS = (BytecodeInstructionNOP) theInstruction;
// Completely ignored
} else if (theInstruction instanceof BytecodeInstructionMONITORENTER) {
BytecodeInstructionMONITORENTER theINS = (BytecodeInstructionMONITORENTER) theInstruction;
// Pop the reference for the lock from the stack
aHelper.pop();
// Completely ignored
} else if (theInstruction instanceof BytecodeInstructionMONITOREXIT) {
BytecodeInstructionMONITOREXIT theINS = (BytecodeInstructionMONITOREXIT) theInstruction;
// Pop the reference for the lock from the stack
aHelper.pop();
// Completely ignored
} else if (theInstruction instanceof BytecodeInstructionCHECKCAST) {
BytecodeInstructionCHECKCAST theINS = (BytecodeInstructionCHECKCAST) theInstruction;
Value theValue = aHelper.peek();
aTargetBlock.getExpressions().add(new CheckCastExpression(theValue, theINS.getTypeCheck()));
} else if (theInstruction instanceof BytecodeInstructionPOP) {
BytecodeInstructionPOP theINS = (BytecodeInstructionPOP) theInstruction;
aHelper.pop();
} else if (theInstruction instanceof BytecodeInstructionPOP2) {
BytecodeInstructionPOP2 theINS = (BytecodeInstructionPOP2) theInstruction;
Value theValue = aHelper.pop();
switch(theValue.resolveType().resolve()) {
case LONG:
break;
case DOUBLE:
break;
default:
aHelper.pop();
}
} else if (theInstruction instanceof BytecodeInstructionDUP) {
BytecodeInstructionDUP theINS = (BytecodeInstructionDUP) theInstruction;
Value theValue = aHelper.peek();
aHelper.push(theValue);
} else if (theInstruction instanceof BytecodeInstructionDUP2) {
BytecodeInstructionDUP2 theINS = (BytecodeInstructionDUP2) theInstruction;
Value theValue1 = aHelper.pop();
if (theValue1.resolveType().resolve() == TypeRef.Native.LONG || theValue1.resolveType().resolve() == TypeRef.Native.DOUBLE) {
// Category 2
aHelper.push(theValue1);
aHelper.push(theValue1);
} else {
// Category 1
Value theValue2 = aHelper.pop();
aHelper.push(theValue2);
aHelper.push(theValue1);
aHelper.push(theValue2);
aHelper.push(theValue1);
}
} else if (theInstruction instanceof BytecodeInstructionDUP2X1) {
BytecodeInstructionDUP2X1 theINS = (BytecodeInstructionDUP2X1) theInstruction;
Value theValue1 = aHelper.pop();
if (theValue1.resolveType().resolve() == TypeRef.Native.LONG || theValue1.resolveType().resolve() == TypeRef.Native.DOUBLE) {
Value theValue2 = aHelper.pop();
aHelper.push(theValue1);
aHelper.push(theValue2);
aHelper.push(theValue2);
} else {
Value theValue2 = aHelper.pop();
Value theValue3 = aHelper.pop();
aHelper.push(theValue2);
aHelper.push(theValue1);
aHelper.push(theValue3);
aHelper.push(theValue2);
aHelper.push(theValue2);
}
} else if (theInstruction instanceof BytecodeInstructionDUPX1) {
BytecodeInstructionDUPX1 theINS = (BytecodeInstructionDUPX1) theInstruction;
Value theValue1 = aHelper.pop();
Value theValue2 = aHelper.pop();
aHelper.push(theValue1);
aHelper.push(theValue2);
aHelper.push(theValue1);
} else if (theInstruction instanceof BytecodeInstructionDUPX2) {
BytecodeInstructionDUPX2 theINS = (BytecodeInstructionDUPX2) theInstruction;
Value theValue1 = aHelper.pop();
Value theValue2 = aHelper.pop();
if (theValue2.resolveType().resolve() == TypeRef.Native.LONG || theValue2.resolveType().resolve() == TypeRef.Native.DOUBLE) {
// Form 2
aHelper.push(theValue1);
aHelper.push(theValue2);
aHelper.push(theValue1);
} else {
// Form 1
Value theValue3 = aHelper.pop();
aHelper.push(theValue1);
aHelper.push(theValue3);
aHelper.push(theValue2);
aHelper.push(theValue1);
}
} else if (theInstruction instanceof BytecodeInstructionGETSTATIC) {
BytecodeInstructionGETSTATIC theINS = (BytecodeInstructionGETSTATIC) theInstruction;
GetStaticExpression theValue = new GetStaticExpression(theINS.getConstant());
Variable theVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getConstant().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().fieldType()), theValue);
aHelper.push(theVariable);
} else if (theInstruction instanceof BytecodeInstructionASTORE) {
BytecodeInstructionASTORE theINS = (BytecodeInstructionASTORE) theInstruction;
Value theValue = aHelper.pop();
aHelper.setLocalVariable(theInstruction.getOpcodeAddress(), theINS.getVariableIndex(), theValue);
} else if (theInstruction instanceof BytecodeInstructionGenericSTORE) {
BytecodeInstructionGenericSTORE theINS = (BytecodeInstructionGenericSTORE) theInstruction;
Value theValue = aHelper.pop();
Variable theOtherVariable = aTargetBlock.newVariable(theValue.resolveType().resolve(), theValue);
aHelper.setLocalVariable(theInstruction.getOpcodeAddress(), theINS.getVariableIndex(), theOtherVariable);
} else if (theInstruction instanceof BytecodeInstructionObjectArrayLOAD) {
BytecodeInstructionObjectArrayLOAD theINS = (BytecodeInstructionObjectArrayLOAD) theInstruction;
Value theIndex = aHelper.pop();
Value theTarget = aHelper.pop();
TypeRef theType = theTarget.resolveType();
if (theType instanceof TypeRef.ArrayTypeRef) {
TypeRef.ArrayTypeRef theArrayTypeRef = (TypeRef.ArrayTypeRef) theTarget.resolveType();
Variable theVariable = aTargetBlock.newVariable(TypeRef.toType(theArrayTypeRef.arrayType()), new ArrayEntryExpression(TypeRef.Native.REFERENCE, theTarget, theIndex));
aHelper.push(theVariable);
} else {
Variable theVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new ArrayEntryExpression(TypeRef.Native.REFERENCE, theTarget, theIndex));
aHelper.push(theVariable);
}
} else if (theInstruction instanceof BytecodeInstructionGenericArrayLOAD) {
BytecodeInstructionGenericArrayLOAD theINS = (BytecodeInstructionGenericArrayLOAD) theInstruction;
Value theIndex = aHelper.pop();
Value theTarget = aHelper.pop();
Variable theVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new ArrayEntryExpression(TypeRef.toType(theINS.getType()), theTarget, theIndex));
aHelper.push(theVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericArraySTORE) {
BytecodeInstructionGenericArraySTORE theINS = (BytecodeInstructionGenericArraySTORE) theInstruction;
Value theValue = aHelper.pop();
Value theIndex = aHelper.pop();
Value theTarget = aHelper.pop();
aTargetBlock.getExpressions().add(new ArrayStoreExpression(TypeRef.toType(theINS.getType()), theTarget, theIndex, theValue));
} else if (theInstruction instanceof BytecodeInstructionObjectArraySTORE) {
BytecodeInstructionObjectArraySTORE theINS = (BytecodeInstructionObjectArraySTORE) theInstruction;
Value theValue = aHelper.pop();
Value theIndex = aHelper.pop();
Value theTarget = aHelper.pop();
aTargetBlock.getExpressions().add(new ArrayStoreExpression(TypeRef.Native.REFERENCE, theTarget, theIndex, theValue));
} else if (theInstruction instanceof BytecodeInstructionACONSTNULL) {
BytecodeInstructionACONSTNULL theINS = (BytecodeInstructionACONSTNULL) theInstruction;
aHelper.push(new NullValue());
} else if (theInstruction instanceof BytecodeInstructionPUTFIELD) {
BytecodeInstructionPUTFIELD theINS = (BytecodeInstructionPUTFIELD) theInstruction;
Value theValue = aHelper.pop();
Value theTarget = aHelper.pop();
aTargetBlock.getExpressions().add(new PutFieldExpression(theINS.getFieldRefConstant(), theTarget, theValue));
} else if (theInstruction instanceof BytecodeInstructionGETFIELD) {
BytecodeInstructionGETFIELD theINS = (BytecodeInstructionGETFIELD) theInstruction;
Value theTarget = aHelper.pop();
Variable theVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getFieldRefConstant().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().fieldType()), new GetFieldExpression(theINS.getFieldRefConstant(), theTarget));
aHelper.push(theVariable);
} else if (theInstruction instanceof BytecodeInstructionPUTSTATIC) {
BytecodeInstructionPUTSTATIC theINS = (BytecodeInstructionPUTSTATIC) theInstruction;
Value theValue = aHelper.pop();
aTargetBlock.getExpressions().add(new PutStaticExpression(theINS.getConstant(), theValue));
} else if (theInstruction instanceof BytecodeInstructionGenericLDC) {
BytecodeInstructionGenericLDC theINS = (BytecodeInstructionGenericLDC) theInstruction;
BytecodeConstant theConstant = theINS.constant();
if (theConstant instanceof BytecodeDoubleConstant) {
BytecodeDoubleConstant theC = (BytecodeDoubleConstant) theConstant;
aHelper.push(new DoubleValue(theC.getDoubleValue()));
} else if (theConstant instanceof BytecodeLongConstant) {
BytecodeLongConstant theC = (BytecodeLongConstant) theConstant;
aHelper.push(new LongValue(theC.getLongValue()));
} else if (theConstant instanceof BytecodeFloatConstant) {
BytecodeFloatConstant theC = (BytecodeFloatConstant) theConstant;
aHelper.push(new FloatValue(theC.getFloatValue()));
} else if (theConstant instanceof BytecodeIntegerConstant) {
BytecodeIntegerConstant theC = (BytecodeIntegerConstant) theConstant;
aHelper.push(new IntegerValue(theC.getIntegerValue()));
} else if (theConstant instanceof BytecodeStringConstant) {
BytecodeStringConstant theC = (BytecodeStringConstant) theConstant;
Variable theVariable = aTargetBlock.newVariable(TypeRef.toType(BytecodeObjectTypeRef.fromRuntimeClass(String.class)), new StringValue(theC.getValue().stringValue()));
aHelper.push(theVariable);
} else if (theConstant instanceof BytecodeClassinfoConstant) {
BytecodeClassinfoConstant theC = (BytecodeClassinfoConstant) theConstant;
BytecodeUtf8Constant theUTF8 = theC.getConstant();
if (theUTF8.stringValue().startsWith("[")) {
aHelper.push(new ClassReferenceValue(BytecodeObjectTypeRef.fromRuntimeClass(Array.class)));
} else {
aHelper.push(new ClassReferenceValue(BytecodeObjectTypeRef.fromUtf8Constant(theC.getConstant())));
}
} else {
throw new IllegalArgumentException("Unsupported constant type : " + theConstant);
}
} else if (theInstruction instanceof BytecodeInstructionBIPUSH) {
BytecodeInstructionBIPUSH theINS = (BytecodeInstructionBIPUSH) theInstruction;
aHelper.push(new IntegerValue(theINS.getByteValue()));
} else if (theInstruction instanceof BytecodeInstructionSIPUSH) {
BytecodeInstructionSIPUSH theINS = (BytecodeInstructionSIPUSH) theInstruction;
aHelper.push(new IntegerValue(theINS.getShortValue()));
} else if (theInstruction instanceof BytecodeInstructionICONST) {
BytecodeInstructionICONST theINS = (BytecodeInstructionICONST) theInstruction;
aHelper.push(new IntegerValue(theINS.getIntConst()));
} else if (theInstruction instanceof BytecodeInstructionFCONST) {
BytecodeInstructionFCONST theINS = (BytecodeInstructionFCONST) theInstruction;
aHelper.push(new FloatValue(theINS.getFloatValue()));
} else if (theInstruction instanceof BytecodeInstructionDCONST) {
BytecodeInstructionDCONST theINS = (BytecodeInstructionDCONST) theInstruction;
aHelper.push(new DoubleValue(theINS.getDoubleConst()));
} else if (theInstruction instanceof BytecodeInstructionLCONST) {
BytecodeInstructionLCONST theINS = (BytecodeInstructionLCONST) theInstruction;
aHelper.push(new LongValue(theINS.getLongConst()));
} else if (theInstruction instanceof BytecodeInstructionGenericNEG) {
BytecodeInstructionGenericNEG theINS = (BytecodeInstructionGenericNEG) theInstruction;
Value theValue = aHelper.pop();
Variable theNegatedValue = aTargetBlock.newVariable(theValue.resolveType(), new NegatedExpression(theValue));
aHelper.push(theNegatedValue);
} else if (theInstruction instanceof BytecodeInstructionARRAYLENGTH) {
BytecodeInstructionARRAYLENGTH theINS = (BytecodeInstructionARRAYLENGTH) theInstruction;
Value theValue = aHelper.pop();
Variable theNegatedValue = aTargetBlock.newVariable(TypeRef.Native.INT, new ArrayLengthExpression(theValue));
aHelper.push(theNegatedValue);
} else if (theInstruction instanceof BytecodeInstructionGenericLOAD) {
BytecodeInstructionGenericLOAD theINS = (BytecodeInstructionGenericLOAD) theInstruction;
Value theValue = aHelper.getLocalVariable(theINS.getVariableIndex());
aHelper.push(theValue);
} else if (theInstruction instanceof BytecodeInstructionALOAD) {
BytecodeInstructionALOAD theINS = (BytecodeInstructionALOAD) theInstruction;
Value theValue = aHelper.getLocalVariable(theINS.getVariableIndex());
aHelper.push(theValue);
} else if (theInstruction instanceof BytecodeInstructionGenericCMP) {
BytecodeInstructionGenericCMP theINS = (BytecodeInstructionGenericCMP) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, new CompareExpression(theValue1, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionLCMP) {
BytecodeInstructionLCMP theINS = (BytecodeInstructionLCMP) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, new CompareExpression(theValue1, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionIINC) {
BytecodeInstructionIINC theINS = (BytecodeInstructionIINC) theInstruction;
Value theValueToIncrement = aHelper.getLocalVariable(theINS.getIndex());
Value theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, new BinaryExpression(TypeRef.Native.INT, theValueToIncrement, BinaryExpression.Operator.ADD, new IntegerValue(theINS.getConstant())));
aHelper.setLocalVariable(theInstruction.getOpcodeAddress(), theINS.getIndex(), theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericREM) {
BytecodeInstructionGenericREM theINS = (BytecodeInstructionGenericREM) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.REMAINDER, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericADD) {
BytecodeInstructionGenericADD theINS = (BytecodeInstructionGenericADD) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.ADD, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericDIV) {
BytecodeInstructionGenericDIV theINS = (BytecodeInstructionGenericDIV) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable;
Value theDivValue = new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.DIV, theValue2);
switch(theINS.getType()) {
case FLOAT:
theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), theDivValue);
break;
case DOUBLE:
theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), theDivValue);
break;
default:
theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new FloorExpression(theDivValue, TypeRef.toType(theINS.getType())));
break;
}
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericMUL) {
BytecodeInstructionGenericMUL theINS = (BytecodeInstructionGenericMUL) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.MUL, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericSUB) {
BytecodeInstructionGenericSUB theINS = (BytecodeInstructionGenericSUB) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.SUB, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericXOR) {
BytecodeInstructionGenericXOR theINS = (BytecodeInstructionGenericXOR) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYXOR, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericOR) {
BytecodeInstructionGenericOR theINS = (BytecodeInstructionGenericOR) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYOR, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericAND) {
BytecodeInstructionGenericAND theINS = (BytecodeInstructionGenericAND) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYAND, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericSHL) {
BytecodeInstructionGenericSHL theINS = (BytecodeInstructionGenericSHL) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYSHIFTLEFT, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericSHR) {
BytecodeInstructionGenericSHR theINS = (BytecodeInstructionGenericSHR) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYSHIFTRIGHT, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGenericUSHR) {
BytecodeInstructionGenericUSHR theINS = (BytecodeInstructionGenericUSHR) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getType()), new BinaryExpression(TypeRef.toType(theINS.getType()), theValue1, BinaryExpression.Operator.BINARYUNSIGNEDSHIFTRIGHT, theValue2));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionIFNULL) {
BytecodeInstructionIFNULL theINS = (BytecodeInstructionIFNULL) theInstruction;
Value theValue = aHelper.pop();
FixedBinaryExpression theBinaryValue = new FixedBinaryExpression(theValue, FixedBinaryExpression.Operator.ISNULL);
ExpressionList theExpressions = new ExpressionList();
theExpressions.add(new GotoExpression(theINS.getJumpTarget()));
aTargetBlock.getExpressions().add(new IFExpression(theINS.getOpcodeAddress(), theINS.getJumpTarget(), theBinaryValue, theExpressions));
} else if (theInstruction instanceof BytecodeInstructionIFNONNULL) {
BytecodeInstructionIFNONNULL theINS = (BytecodeInstructionIFNONNULL) theInstruction;
Value theValue = aHelper.pop();
FixedBinaryExpression theBinaryValue = new FixedBinaryExpression(theValue, FixedBinaryExpression.Operator.ISNONNULL);
ExpressionList theExpressions = new ExpressionList();
theExpressions.add(new GotoExpression(theINS.getJumpTarget()));
aTargetBlock.getExpressions().add(new IFExpression(theINS.getOpcodeAddress(), theINS.getJumpTarget(), theBinaryValue, theExpressions));
} else if (theInstruction instanceof BytecodeInstructionIFICMP) {
BytecodeInstructionIFICMP theINS = (BytecodeInstructionIFICMP) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
BinaryExpression theBinaryValue;
switch(theINS.getType()) {
case lt:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.LESSTHAN, theValue2);
break;
case eq:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.EQUALS, theValue2);
break;
case gt:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.GREATERTHAN, theValue2);
break;
case ge:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.GREATEROREQUALS, theValue2);
break;
case le:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.LESSTHANOREQUALS, theValue2);
break;
case ne:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.NOTEQUALS, theValue2);
break;
default:
throw new IllegalStateException("Not supported operation : " + theINS.getType());
}
ExpressionList theExpressions = new ExpressionList();
theExpressions.add(new GotoExpression(theINS.getJumpTarget()));
aTargetBlock.getExpressions().add(new IFExpression(theINS.getOpcodeAddress(), theINS.getJumpTarget(), theBinaryValue, theExpressions));
} else if (theInstruction instanceof BytecodeInstructionIFACMP) {
BytecodeInstructionIFACMP theINS = (BytecodeInstructionIFACMP) theInstruction;
Value theValue2 = aHelper.pop();
Value theValue1 = aHelper.pop();
BinaryExpression theBinaryValue;
switch(theINS.getType()) {
case eq:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.EQUALS, theValue2);
break;
case ne:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue1, BinaryExpression.Operator.NOTEQUALS, theValue2);
break;
default:
throw new IllegalStateException("Not supported operation : " + theINS.getType());
}
ExpressionList theExpressions = new ExpressionList();
theExpressions.add(new GotoExpression(theINS.getJumpTarget()));
aTargetBlock.getExpressions().add(new IFExpression(theINS.getOpcodeAddress(), theINS.getJumpTarget(), theBinaryValue, theExpressions));
} else if (theInstruction instanceof BytecodeInstructionIFCOND) {
BytecodeInstructionIFCOND theINS = (BytecodeInstructionIFCOND) theInstruction;
Value theValue = aHelper.pop();
BinaryExpression theBinaryValue;
switch(theINS.getType()) {
case lt:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.LESSTHAN, new IntegerValue(0));
break;
case eq:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.EQUALS, new IntegerValue(0));
break;
case gt:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.GREATERTHAN, new IntegerValue(0));
break;
case ge:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.GREATEROREQUALS, new IntegerValue(0));
break;
case le:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.LESSTHANOREQUALS, new IntegerValue(0));
break;
case ne:
theBinaryValue = new BinaryExpression(TypeRef.Native.BOOLEAN, theValue, BinaryExpression.Operator.NOTEQUALS, new IntegerValue(0));
break;
default:
throw new IllegalStateException("Not supported operation : " + theINS.getType());
}
ExpressionList theExpressions = new ExpressionList();
theExpressions.add(new GotoExpression(theINS.getJumpTarget()));
aTargetBlock.getExpressions().add(new IFExpression(theINS.getOpcodeAddress(), theINS.getJumpTarget(), theBinaryValue, theExpressions));
} else if (theInstruction instanceof BytecodeInstructionObjectRETURN) {
BytecodeInstructionObjectRETURN theINS = (BytecodeInstructionObjectRETURN) theInstruction;
Value theValue = aHelper.pop();
aTargetBlock.getExpressions().add(new ReturnValueExpression(theValue));
} else if (theInstruction instanceof BytecodeInstructionGenericRETURN) {
BytecodeInstructionGenericRETURN theINS = (BytecodeInstructionGenericRETURN) theInstruction;
Value theValue = aHelper.pop();
aTargetBlock.getExpressions().add(new ReturnValueExpression(theValue));
} else if (theInstruction instanceof BytecodeInstructionATHROW) {
BytecodeInstructionATHROW theINS = (BytecodeInstructionATHROW) theInstruction;
Value theValue = aHelper.pop();
aTargetBlock.getExpressions().add(new ThrowExpression(theValue));
} else if (theInstruction instanceof BytecodeInstructionRETURN) {
BytecodeInstructionRETURN theINS = (BytecodeInstructionRETURN) theInstruction;
aTargetBlock.getExpressions().add(new ReturnExpression());
} else if (theInstruction instanceof BytecodeInstructionNEW) {
BytecodeInstructionNEW theINS = (BytecodeInstructionNEW) theInstruction;
BytecodeClassinfoConstant theClassInfo = theINS.getClassInfoForObjectToCreate();
BytecodeObjectTypeRef theObjectType = BytecodeObjectTypeRef.fromUtf8Constant(theClassInfo.getConstant());
if (Objects.equals(theObjectType.name(), Address.class.getName())) {
// At this time the exact location is unknown, the value
// will be set at constructor invocation time
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT);
aHelper.push(theNewVariable);
} else {
if (Objects.equals(theObjectType, BytecodeObjectTypeRef.fromRuntimeClass(VM.RuntimeGeneratedType.class))) {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new RuntimeGeneratedTypeExpression());
aHelper.push(theNewVariable);
} else {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theObjectType), new NewObjectExpression(theClassInfo));
aHelper.push(theNewVariable);
}
}
} else if (theInstruction instanceof BytecodeInstructionNEWARRAY) {
BytecodeInstructionNEWARRAY theINS = (BytecodeInstructionNEWARRAY) theInstruction;
Value theLength = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new NewArrayExpression(theINS.getPrimitiveType(), theLength));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionNEWMULTIARRAY) {
BytecodeInstructionNEWMULTIARRAY theINS = (BytecodeInstructionNEWMULTIARRAY) theInstruction;
List<Value> theDimensions = new ArrayList<>();
for (int i = 0; i < theINS.getDimensions(); i++) {
theDimensions.add(aHelper.pop());
}
Collections.reverse(theDimensions);
BytecodeTypeRef theTypeRef = linkerContext.getSignatureParser().toFieldType(new BytecodeUtf8Constant(theINS.getTypeConstant().getConstant().stringValue()));
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new NewMultiArrayExpression(theTypeRef, theDimensions));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionANEWARRAY) {
BytecodeInstructionANEWARRAY theINS = (BytecodeInstructionANEWARRAY) theInstruction;
Value theLength = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new NewArrayExpression(theINS.getObjectType(), theLength));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionGOTO) {
BytecodeInstructionGOTO theINS = (BytecodeInstructionGOTO) theInstruction;
aTargetBlock.getExpressions().add(new GotoExpression(theINS.getJumpAddress()));
} else if (theInstruction instanceof BytecodeInstructionL2Generic) {
BytecodeInstructionL2Generic theINS = (BytecodeInstructionL2Generic) theInstruction;
Value theValue = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getTargetType()), new TypeConversionExpression(theValue, TypeRef.toType(theINS.getTargetType())));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionI2Generic) {
BytecodeInstructionI2Generic theINS = (BytecodeInstructionI2Generic) theInstruction;
Value theValue = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getTargetType()), new TypeConversionExpression(theValue, TypeRef.toType(theINS.getTargetType())));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionF2Generic) {
BytecodeInstructionF2Generic theINS = (BytecodeInstructionF2Generic) theInstruction;
Value theValue = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getTargetType()), new TypeConversionExpression(theValue, TypeRef.toType(theINS.getTargetType())));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionD2Generic) {
BytecodeInstructionD2Generic theINS = (BytecodeInstructionD2Generic) theInstruction;
Value theValue = aHelper.pop();
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theINS.getTargetType()), new TypeConversionExpression(theValue, TypeRef.toType(theINS.getTargetType())));
aHelper.push(theNewVariable);
} else if (theInstruction instanceof BytecodeInstructionINVOKESPECIAL) {
BytecodeInstructionINVOKESPECIAL theINS = (BytecodeInstructionINVOKESPECIAL) theInstruction;
BytecodeMethodSignature theSignature = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
List<Value> theArguments = new ArrayList<>();
BytecodeTypeRef[] theArgumentTypes = theSignature.getArguments();
for (BytecodeTypeRef theArgumentType : theArgumentTypes) {
theArguments.add(aHelper.pop());
}
Collections.reverse(theArguments);
Variable theTarget = (Variable) aHelper.pop();
BytecodeObjectTypeRef theType = BytecodeObjectTypeRef.fromUtf8Constant(theINS.getMethodReference().getClassIndex().getClassConstant().getConstant());
if (Objects.equals(theType, BytecodeObjectTypeRef.fromRuntimeClass(VM.RuntimeGeneratedType.class))) {
RuntimeGeneratedTypeExpression theValue = (RuntimeGeneratedTypeExpression) theTarget.incomingDataFlows().get(0);
theValue.setType(theArguments.get(0));
theValue.setMethodRef(theArguments.get(1));
} else if (Objects.equals(theType, BytecodeObjectTypeRef.fromRuntimeClass(Address.class))) {
theTarget.initializeWith(theArguments.get(0));
aTargetBlock.getExpressions().add(new VariableAssignmentExpression(theTarget, theArguments.get(0)));
} else {
String theMethodName = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue();
if ("getClass".equals(theMethodName) && BytecodeLinkedClass.GET_CLASS_SIGNATURE.metchesExactlyTo(theSignature)) {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), new TypeOfExpression(theTarget));
aHelper.push(theNewVariable);
} else {
DirectInvokeMethodExpression theExpression = new DirectInvokeMethodExpression(theType, theMethodName, theSignature, theTarget, theArguments);
if (theSignature.getReturnType().isVoid()) {
aTargetBlock.getExpressions().add(theExpression);
} else {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theExpression);
aHelper.push(theNewVariable);
}
}
}
} else if (theInstruction instanceof BytecodeInstructionINVOKEVIRTUAL) {
BytecodeInstructionINVOKEVIRTUAL theINS = (BytecodeInstructionINVOKEVIRTUAL) theInstruction;
BytecodeMethodSignature theSignature = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
if (theSignature.metchesExactlyTo(BytecodeLinkedClass.GET_CLASS_SIGNATURE) && "getClass".equals(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue())) {
Value theValue = new TypeOfExpression(aHelper.pop());
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theValue);
aHelper.push(theNewVariable);
continue;
}
List<Value> theArguments = new ArrayList<>();
BytecodeTypeRef[] theArgumentTypes = theSignature.getArguments();
for (BytecodeTypeRef theArgumentType : theArgumentTypes) {
theArguments.add(aHelper.pop());
}
Collections.reverse(theArguments);
Value theTarget = aHelper.pop();
InvokeVirtualMethodExpression theExpression = new InvokeVirtualMethodExpression(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType(), theTarget, theArguments);
if (theSignature.getReturnType().isVoid()) {
aTargetBlock.getExpressions().add(theExpression);
} else {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theExpression);
aHelper.push(theNewVariable);
}
} else if (theInstruction instanceof BytecodeInstructionINVOKEINTERFACE) {
BytecodeInstructionINVOKEINTERFACE theINS = (BytecodeInstructionINVOKEINTERFACE) theInstruction;
BytecodeMethodSignature theSignature = theINS.getMethodDescriptor().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
List<Value> theArguments = new ArrayList<>();
BytecodeTypeRef[] theArgumentTypes = theSignature.getArguments();
for (BytecodeTypeRef theArgumentType : theArgumentTypes) {
theArguments.add(aHelper.pop());
}
Collections.reverse(theArguments);
Value theTarget = aHelper.pop();
InvokeVirtualMethodExpression theExpression = new InvokeVirtualMethodExpression(theINS.getMethodDescriptor().getNameAndTypeIndex().getNameAndType(), theTarget, theArguments);
if (theSignature.getReturnType().isVoid()) {
aTargetBlock.getExpressions().add(theExpression);
} else {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theExpression);
aHelper.push(theNewVariable);
}
} else if (theInstruction instanceof BytecodeInstructionINVOKESTATIC) {
BytecodeInstructionINVOKESTATIC theINS = (BytecodeInstructionINVOKESTATIC) theInstruction;
BytecodeMethodSignature theSignature = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
List<Value> theArguments = new ArrayList<>();
BytecodeTypeRef[] theArgumentTypes = theSignature.getArguments();
for (BytecodeTypeRef theArgumentType : theArgumentTypes) {
theArguments.add(aHelper.pop());
}
Collections.reverse(theArguments);
BytecodeClassinfoConstant theTargetClass = theINS.getMethodReference().getClassIndex().getClassConstant();
BytecodeObjectTypeRef theObjectType = BytecodeObjectTypeRef.fromUtf8Constant(theTargetClass.getConstant());
if (Objects.equals(theObjectType.name(), MemoryManager.class.getName()) && "initTestMemory".equals(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue())) {
// This invocation can be skipped!!!
} else if (Objects.equals(theObjectType.name(), Address.class.getName())) {
String theMethodName = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue();
switch(theMethodName) {
case "setIntValue":
{
Value theTarget = theArguments.get(0);
Value theOffset = theArguments.get(1);
Value theNewValue = theArguments.get(2);
ComputedMemoryLocationWriteExpression theLocation = new ComputedMemoryLocationWriteExpression(theTarget, theOffset);
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, theLocation);
aTargetBlock.getExpressions().add(new SetMemoryLocationExpression(theNewVariable, theNewValue));
break;
}
case "getStart":
{
Value theTarget = theArguments.get(0);
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, theTarget);
aHelper.push(theNewVariable);
break;
}
case "getStackTop":
{
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, new StackTopExpression());
aHelper.push(theNewVariable);
break;
}
case "getMemorySize":
{
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, new MemorySizeExpression());
aHelper.push(theNewVariable);
break;
}
case "getIntValue":
{
Value theTarget = theArguments.get(0);
Value theOffset = theArguments.get(1);
ComputedMemoryLocationReadExpression theLocation = new ComputedMemoryLocationReadExpression(theTarget, theOffset);
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.Native.INT, theLocation);
aHelper.push(theNewVariable);
break;
}
case "unreachable":
{
aTargetBlock.getExpressions().add(new UnreachableExpression());
break;
}
default:
throw new IllegalStateException("Not implemented : " + theMethodName);
}
} else {
BytecodeObjectTypeRef theClassToInvoke = BytecodeObjectTypeRef.fromUtf8Constant(theINS.getMethodReference().getClassIndex().getClassConstant().getConstant());
linkerContext.resolveClass(theClassToInvoke).resolveStaticMethod(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue(), theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature());
BytecodeMethodSignature theCalledSignature = theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
if ("sqrt".equals(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue()) && "java.lang.StrictMath".equals(theClassToInvoke.name())) {
Value theValue = new SqrtExpression(TypeRef.toType(theCalledSignature.getReturnType()), theArguments.get(0));
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theValue);
aHelper.push(theNewVariable);
} else if ("newInstance".equals(theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue()) && "java.lang.reflect.Array".equals(theClassToInvoke.name())) {
Value theArrayType = theArguments.get(0);
Value theArraySize = theArguments.get(1);
Value theValue = new NewArrayExpression(BytecodeObjectTypeRef.fromRuntimeClass(Object.class), theArraySize);
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theValue);
aHelper.push(theNewVariable);
} else {
InvokeStaticMethodExpression theExpression = new InvokeStaticMethodExpression(theClassToInvoke, theINS.getMethodReference().getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue(), theCalledSignature, theArguments);
if (theSignature.getReturnType().isVoid()) {
aTargetBlock.getExpressions().add(theExpression);
} else {
Variable theNewVariable = aTargetBlock.newVariable(TypeRef.toType(theSignature.getReturnType()), theExpression);
aHelper.push(theNewVariable);
}
}
}
} else if (theInstruction instanceof BytecodeInstructionINSTANCEOF) {
BytecodeInstructionINSTANCEOF theINS = (BytecodeInstructionINSTANCEOF) theInstruction;
Value theValueToCheck = aHelper.pop();
InstanceOfExpression theValue = new InstanceOfExpression(theValueToCheck, theINS.getTypeRef());
Variable theCheckResult = aTargetBlock.newVariable(TypeRef.Native.BOOLEAN, theValue);
aHelper.push(theCheckResult);
} else if (theInstruction instanceof BytecodeInstructionTABLESWITCH) {
BytecodeInstructionTABLESWITCH theINS = (BytecodeInstructionTABLESWITCH) theInstruction;
Value theValue = aHelper.pop();
ExpressionList theDefault = new ExpressionList();
theDefault.add(new GotoExpression(theINS.getDefaultJumpTarget()));
Map<Long, ExpressionList> theOffsets = new HashMap<>();
long[] theJumpTargets = theINS.getOffsets();
for (int i = 0; i < theJumpTargets.length; i++) {
ExpressionList theJump = new ExpressionList();
theJump.add(new GotoExpression(theINS.getOpcodeAddress().add((int) theJumpTargets[i])));
theOffsets.put((long) i, theJump);
}
aTargetBlock.getExpressions().add(new TableSwitchExpression(theValue, theINS.getLowValue(), theINS.getHighValue(), theDefault, theOffsets));
} else if (theInstruction instanceof BytecodeInstructionLOOKUPSWITCH) {
BytecodeInstructionLOOKUPSWITCH theINS = (BytecodeInstructionLOOKUPSWITCH) theInstruction;
Value theValue = aHelper.pop();
ExpressionList theDefault = new ExpressionList();
theDefault.add(new GotoExpression(theINS.getDefaultJumpTarget()));
Map<Long, ExpressionList> thePairs = new HashMap<>();
for (BytecodeInstructionLOOKUPSWITCH.Pair thePair : theINS.getPairs()) {
ExpressionList thePairExpressions = new ExpressionList();
thePairExpressions.add(new GotoExpression(theINS.getOpcodeAddress().add((int) thePair.getOffset())));
thePairs.put(thePair.getMatch(), thePairExpressions);
}
aTargetBlock.getExpressions().add(new LookupSwitchExpression(theValue, theDefault, thePairs));
} else if (theInstruction instanceof BytecodeInstructionINVOKEDYNAMIC) {
BytecodeInstructionINVOKEDYNAMIC theINS = (BytecodeInstructionINVOKEDYNAMIC) theInstruction;
BytecodeInvokeDynamicConstant theConstant = theINS.getCallSite();
BytecodeMethodSignature theInitSignature = theConstant.getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
BytecodeBootstrapMethodsAttributeInfo theBootStrapMethods = aOwningClass.getAttributes().getByType(BytecodeBootstrapMethodsAttributeInfo.class);
BytecodeBootstrapMethod theBootstrapMethod = theBootStrapMethods.methodByIndex(theConstant.getBootstrapMethodAttributeIndex().getIndex());
BytecodeMethodHandleConstant theMethodRef = theBootstrapMethod.getMethodRef();
BytecodeMethodRefConstant theBootstrapMethodToInvoke = (BytecodeMethodRefConstant) theMethodRef.getReferenceIndex().getConstant();
Program theProgram = new Program();
RegionNode theInitNode = theProgram.getControlFlowGraph().createAt(BytecodeOpcodeAddress.START_AT_ZERO, RegionNode.BlockType.NORMAL);
switch(theMethodRef.getReferenceKind()) {
case REF_invokeStatic:
{
BytecodeObjectTypeRef theClassWithBootstrapMethod = BytecodeObjectTypeRef.fromUtf8Constant(theBootstrapMethodToInvoke.getClassIndex().getClassConstant().getConstant());
BytecodeMethodSignature theSignature = theBootstrapMethodToInvoke.getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature();
List<Value> theArguments = new ArrayList<>();
// Add the three default constants
// TMethodHandles.Lookup aCaller,
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new MethodHandlesGeneratedLookupExpression(theClassWithBootstrapMethod)));
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new StringValue(theConstant.getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue())));
// TMethodType aInvokedType,
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new MethodTypeExpression(theInitSignature)));
// Revolve the static arguments
for (BytecodeConstant theArgumentConstant : theBootstrapMethod.getArguments()) {
if (theArgumentConstant instanceof BytecodeMethodTypeConstant) {
BytecodeMethodTypeConstant theMethodType = (BytecodeMethodTypeConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new MethodTypeExpression(theMethodType.getDescriptorIndex().methodSignature())));
continue;
}
if (theArgumentConstant instanceof BytecodeStringConstant) {
BytecodeStringConstant thePrimitive = (BytecodeStringConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new StringValue(thePrimitive.getValue().stringValue())));
continue;
}
if (theArgumentConstant instanceof BytecodeLongConstant) {
BytecodeLongConstant thePrimitive = (BytecodeLongConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.LONG, new LongValue(thePrimitive.getLongValue())));
continue;
}
if (theArgumentConstant instanceof BytecodeIntegerConstant) {
BytecodeIntegerConstant thePrimitive = (BytecodeIntegerConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.INT, new LongValue(thePrimitive.getIntegerValue())));
continue;
}
if (theArgumentConstant instanceof BytecodeFloatConstant) {
BytecodeFloatConstant thePrimitive = (BytecodeFloatConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.FLOAT, new FloatValue(thePrimitive.getFloatValue())));
continue;
}
if (theArgumentConstant instanceof BytecodeDoubleConstant) {
BytecodeDoubleConstant thePrimitive = (BytecodeDoubleConstant) theArgumentConstant;
theArguments.add(theInitNode.newVariable(TypeRef.Native.DOUBLE, new DoubleValue(thePrimitive.getDoubleValue())));
continue;
}
if (theArgumentConstant instanceof BytecodeMethodHandleConstant) {
BytecodeMethodHandleConstant theMethodHandle = (BytecodeMethodHandleConstant) theArgumentConstant;
BytecodeReferenceIndex theReference = theMethodHandle.getReferenceIndex();
BytecodeMethodRefConstant theReferenceConstant = (BytecodeMethodRefConstant) theReference.getConstant();
theArguments.add(theInitNode.newVariable(TypeRef.Native.REFERENCE, new MethodRefExpression(theReferenceConstant)));
continue;
}
throw new IllegalStateException("Unsupported argument type : " + theArgumentConstant);
}
// Ok, is the last argument of the bootstrap method a vararg argument
BytecodeTypeRef theLastArgument = theSignature.getArguments()[theSignature.getArguments().length - 1];
if (theLastArgument.isArray()) {
// Yes, so we have to wrap everything from this position on in an array
int theSignatureLength = theSignature.getArguments().length;
int theArgumentsLength = theArguments.size();
int theVarArgsLength = theArgumentsLength - theSignatureLength + 1;
Variable theNewVarargsArray = theInitNode.newVariable(TypeRef.Native.REFERENCE, new NewArrayExpression(BytecodeObjectTypeRef.fromRuntimeClass(Object.class), new IntegerValue(theVarArgsLength)));
for (int i = theSignatureLength - 1; i < theArgumentsLength; i++) {
Value theVariable = theArguments.get(i);
theArguments.remove(theVariable);
theInitNode.getExpressions().add(new ArrayStoreExpression(TypeRef.Native.REFERENCE, theNewVarargsArray, new IntegerValue(i - theSignatureLength + 1), theVariable));
}
theArguments.add(theNewVarargsArray);
}
InvokeStaticMethodExpression theInvokeStaticValue = new InvokeStaticMethodExpression(BytecodeObjectTypeRef.fromUtf8Constant(theBootstrapMethodToInvoke.getClassIndex().getClassConstant().getConstant()), theBootstrapMethodToInvoke.getNameAndTypeIndex().getNameAndType().getNameIndex().getName().stringValue(), theBootstrapMethodToInvoke.getNameAndTypeIndex().getNameAndType().getDescriptorIndex().methodSignature(), theArguments);
Variable theNewVariable = theInitNode.newVariable(TypeRef.Native.REFERENCE, theInvokeStaticValue);
theInitNode.getExpressions().add(new ReturnValueExpression(theNewVariable));
// First step, we construct a callsite
ResolveCallsiteObjectExpression theValue = new ResolveCallsiteObjectExpression(aOwningClass.getThisInfo().getConstant().stringValue() + "_" + aMethod.getName().stringValue() + "_" + theINS.getOpcodeAddress().getAddress(), aOwningClass, theProgram, theInitNode);
Variable theCallsiteVariable = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, theValue);
List<Value> theInvokeArguments = new ArrayList<>();
Variable theArray = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, new NewArrayExpression(BytecodeObjectTypeRef.fromRuntimeClass(Object.class), new IntegerValue(theInitSignature.getArguments().length)));
for (int i = theInitSignature.getArguments().length - 1; i >= 0; i--) {
Value theIndex = new IntegerValue(i);
Value theStoredValue = aHelper.pop();
if (theStoredValue.resolveType() == TypeRef.Native.INT) {
// Create Integer object to contain int
BytecodeObjectTypeRef theType = BytecodeObjectTypeRef.fromRuntimeClass(Integer.class);
BytecodeTypeRef[] args_def = new BytecodeTypeRef[] { BytecodePrimitiveTypeRef.INT };
BytecodeMethodSignature sig = new BytecodeMethodSignature(theType, args_def);
List<Value> args = new ArrayList<>();
args.add(theStoredValue);
theStoredValue = new InvokeStaticMethodExpression(theType, "valueOf", sig, args);
theStoredValue = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, theStoredValue);
}
aTargetBlock.getExpressions().add(new ArrayStoreExpression(TypeRef.Native.REFERENCE, theArray, theIndex, theStoredValue));
}
theInvokeArguments.add(theArray);
InvokeVirtualMethodExpression theInvokeValue = new InvokeVirtualMethodExpression("invokeExact", new BytecodeMethodSignature(BytecodeObjectTypeRef.fromRuntimeClass(Object.class), new BytecodeTypeRef[] { new BytecodeArrayTypeRef(BytecodeObjectTypeRef.fromRuntimeClass(Object.class), 1) }), theCallsiteVariable, theInvokeArguments);
Variable theInvokeExactResult = aTargetBlock.newVariable(TypeRef.Native.REFERENCE, theInvokeValue);
aHelper.push(theInvokeExactResult);
break;
}
default:
throw new IllegalStateException("Nut supported reference kind for invoke dynamic : " + theMethodRef.getReferenceKind());
}
} else {
throw new IllegalArgumentException("Not implemented : " + theInstruction);
}
}
aHelper.finalizeExportState();
}
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