compiler-design-eth/test/cd/backend/interpreter/JlValue.java

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2020-01-15 22:38:07 +01:00
package cd.backend.interpreter;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Map;
import java.util.Set;
import cd.backend.ExitCode;
import cd.ir.Symbol.ArrayTypeSymbol;
import cd.ir.Symbol.ClassSymbol;
import cd.ir.Symbol.PrimitiveTypeSymbol;
import cd.ir.Symbol.TypeSymbol;
import cd.ir.Symbol.VariableSymbol;
// Values:
abstract class JlValue {
public final TypeSymbol typeSym;
static public JlValue getDefault(TypeSymbol type) {
JlValue result = null;
if (type.isReferenceType())
result = new JlNull();
else if (type == PrimitiveTypeSymbol.booleanType)
result = new JlBoolean(false);
else if (type == PrimitiveTypeSymbol.intType)
result = new JlInt(0);
assert result != null;
return result;
}
public JlValue(TypeSymbol s) {
typeSym = s;
}
protected void defaultConversion() {
throw new StaticError("Type conversion between incompatible types.");
}
public boolean asBoolean() {
defaultConversion();
return false;
}
public int asInt() {
defaultConversion();
return 0;
}
public JlReference asRef() {
defaultConversion();
return null;
}
public JlObject asObject() {
defaultConversion();
return null;
}
// Binary Operations
// Arithmetic
protected JlValue defaultOperation() {
throw new StaticError("Operation not supported on " + this.getClass());
}
public JlValue times(JlValue value) {
return defaultOperation();
}
public JlValue div(JlValue value) {
return defaultOperation();
}
public JlValue add(JlValue value) {
return defaultOperation();
}
public JlValue subtract(JlValue value) {
return defaultOperation();
}
public JlValue mod(JlValue value) {
return defaultOperation();
}
// Boolean
public JlValue or(JlValue value) {
return defaultOperation();
}
public JlValue and(JlValue value) {
return defaultOperation();
}
// Comparison
public JlValue less(JlValue value) {
return defaultOperation();
}
public JlValue lessOrEqual(JlValue value) {
return defaultOperation();
}
public JlValue greater(JlValue value) {
return defaultOperation();
}
public JlValue greaterOrEqual(JlValue value) {
return defaultOperation();
}
// Unary Operation
public JlValue plus() {
return defaultOperation();
}
public JlValue minus() {
return defaultOperation();
}
public JlValue not() {
return defaultOperation();
}
}
abstract class JlReference extends JlValue {
public JlReference(TypeSymbol s) {
super(s);
}
@Override
public JlReference asRef() {
return this;
}
public abstract JlValue field(VariableSymbol name);
public abstract void setField(VariableSymbol name, JlValue val);
public abstract JlValue deref(int index);
public abstract void setDeref(int index, JlValue val);
public abstract boolean canBeCastTo(String typeName);
@Override
public String toString() {
return String.format("%s(%x)", typeSym, System.identityHashCode(this));
}
}
class JlObject extends JlReference {
protected Map<VariableSymbol, JlValue> fields = new HashMap<VariableSymbol, JlValue>();
public JlObject(ClassSymbol s) {
super(s);
}
@Override
public JlObject asObject() {
return this;
}
@Override
public JlValue field(VariableSymbol name) {
if (fields.containsKey(name)) {
return fields.get(name);
}
JlValue dflt = JlValue.getDefault(name.type);
setField(name, dflt);
return dflt;
}
@Override
public void setField(VariableSymbol name, JlValue val) {
fields.put(name, val);
}
@Override
public JlValue deref(int index) {
throw new StaticError("Not an array");
}
@Override
public void setDeref(int index, JlValue val) {
throw new StaticError("Not an array");
}
@Override
public boolean canBeCastTo(String typeName) {
// Can always cast to Object:
if (typeName.equals("Object"))
return true;
// Make up a set of acceptable types. Check for circular loops!
Set<String> superTypes = new HashSet<String>();
ClassSymbol currentType = (ClassSymbol)typeSym;
while (!currentType.name.equals("Object")) {
if (superTypes.contains(currentType.name)) {
throw new StaticError("Circular inheritance: " + currentType.name);
}
superTypes.add(currentType.name);
currentType = currentType.superClass;
}
return superTypes.contains(typeName);
}
}
class JlArray extends JlReference {
private JlValue contents[];
public JlArray(ArrayTypeSymbol s, int size) {
super(s);
if (size < 0) {
throw new DynamicError("Invalid array size: " + size,
ExitCode.INVALID_ARRAY_SIZE);
}
this.contents = new JlValue[size];
for (int i = 0; i < size; i++) {
this.contents[i] = JlValue.getDefault(s.elementType);
}
}
@Override
public JlReference asRef() {
return this;
}
public JlArray asArray() {
return this;
}
@Override
public JlValue deref(int idx) {
try {
return contents[idx];
} catch (final ArrayIndexOutOfBoundsException ex) {
throw new DynamicError("Array index out of bounds " + idx,
ExitCode.INVALID_ARRAY_BOUNDS);
}
}
@Override
public void setDeref(int idx, JlValue value) {
try {
contents[idx] = value;
} catch (final ArrayIndexOutOfBoundsException ex) {
throw new DynamicError("Array index out of bounds " + idx,
ExitCode.INVALID_ARRAY_BOUNDS);
}
}
@Override
public JlValue field(VariableSymbol name) {
throw new StaticError("Not an object");
}
@Override
public void setField(VariableSymbol name, JlValue value) {
throw new StaticError("Not an object");
}
@Override
public boolean canBeCastTo(String typeName) {
return this.typeSym.name.equals(typeName) || typeName.equals("Object");
}
}
class JlNull extends JlReference {
public JlNull() {
super(ClassSymbol.nullType);
}
@Override
public boolean equals(Object o) {
if (o instanceof JlNull) {
return true;
}
return false;
}
@Override
public JlReference asRef() {
return this;
}
@Override
public JlObject asObject() {
throw new DynamicError("Null pointer dereferenced",
ExitCode.NULL_POINTER);
}
@Override
public JlValue field(VariableSymbol name) {
throw new DynamicError("Null pointer dereferenced",
ExitCode.NULL_POINTER);
}
@Override
public void setField(VariableSymbol name, JlValue value) {
throw new DynamicError("Null pointer dereferenced",
ExitCode.NULL_POINTER);
}
@Override
public JlValue deref(int idx) {
throw new DynamicError("Null pointer dereferenced",
ExitCode.NULL_POINTER);
}
@Override
public void setDeref(int idx, JlValue value) {
throw new DynamicError("Null pointer dereferenced",
ExitCode.NULL_POINTER);
}
@Override
public boolean canBeCastTo(String typeName) {
return true;
}
@Override
public String toString() {
return "null";
}
}
class JlInt extends JlValue {
private final int value;
JlInt(int value) {
super(PrimitiveTypeSymbol.intType);
this.value = value;
}
@Override
public boolean equals(Object o) {
if (o instanceof JlInt) {
return value == ((JlInt) o).value;
}
return false;
}
@Override
public JlValue times(JlValue obj) {
if (obj instanceof JlInt) {
return new JlInt(this.value * ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue div(JlValue obj) {
if (obj instanceof JlInt) {
return new JlInt(this.value / ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue mod(JlValue obj) {
if (obj instanceof JlInt) {
return new JlInt(this.value % ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue add(JlValue obj) {
if (obj instanceof JlInt) {
return new JlInt(this.value + ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue subtract(JlValue obj) {
if (obj instanceof JlInt) {
return new JlInt(this.value - ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue less(JlValue obj) {
if (obj instanceof JlInt) {
return new JlBoolean(this.value < ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue lessOrEqual(JlValue obj) {
if (obj instanceof JlInt) {
return new JlBoolean(this.value <= ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue greater(JlValue obj) {
if (obj instanceof JlInt) {
return new JlBoolean(this.value > ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue greaterOrEqual(JlValue obj) {
if (obj instanceof JlInt) {
return new JlBoolean(this.value >= ((JlInt) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue plus() {
return new JlInt(value);
}
@Override
public JlValue minus() {
return new JlInt(-value);
}
@Override
public int asInt() {
return value;
}
@Override
public String toString() {
return Integer.toString(value);
}
}
class JlBoolean extends JlValue {
private final boolean value;
JlBoolean(boolean value) {
super(PrimitiveTypeSymbol.booleanType);
this.value = value;
}
@Override
public boolean equals(Object o) {
if (o instanceof JlBoolean) {
return value == ((JlBoolean) o).value;
}
return false;
}
@Override
public JlValue not() {
return new JlBoolean(!value);
};
@Override
public JlValue or(JlValue obj) {
if (obj instanceof JlBoolean) {
return new JlBoolean(this.value || ((JlBoolean) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public JlValue and(JlValue obj) {
if (obj instanceof JlBoolean) {
return new JlBoolean(this.value && ((JlBoolean) obj).value);
}
throw new DynamicError("Invalid type!", ExitCode.INTERNAL_ERROR);
}
@Override
public boolean asBoolean() {
return value;
}
@Override
public String toString() {
return Boolean.toString(value);
}
}