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An Execution Environment for Java SCOREs
package s.java.lang;
import i.*;
import org.aion.avm.RuntimeMethodFeeSchedule;
public final class Integer extends Number implements Comparable {
static {
// Shadow classes MUST be loaded during bootstrap phase.
IInstrumentation.attachedThreadInstrumentation.get().bootstrapOnly();
}
public static final int avm_MAX_VALUE = java.lang.Integer.MAX_VALUE;
public static final int avm_MIN_VALUE = java.lang.Integer.MIN_VALUE;
public static final int avm_SIZE = java.lang.Integer.SIZE;
public static final int avm_BYTES = java.lang.Integer.BYTES;
// Note that this type is actually NOT "java.lang.Integer" but "int" - the underlying JDK does an incorrect cast and we are inheriting it.
public static final Class avm_TYPE = new Class(java.lang.Integer.TYPE, new ConstantToken(ShadowClassConstantId.Integer_avm_TYPE));
public static String avm_toString(int i, int radix) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toString);
return new String(java.lang.Integer.toString(i, radix));
}
public static String avm_toUnsignedString(int i, int radix) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toUnsignedString);
return new String(java.lang.Integer.toUnsignedString(i, radix));
}
public static String avm_toHexString(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toHexString);
return new String(java.lang.Integer.toHexString(i));
}
public static String avm_toOctalString(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toOctalString);
return new String(java.lang.Integer.toOctalString(i));
}
public static String avm_toBinaryString(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toBinaryString);
return new String(java.lang.Integer.toBinaryString(i));
}
public static String avm_toString(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toString_1);
return new String(java.lang.Integer.toString(i));
}
public static String avm_toUnsignedString(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toUnsignedString_1);
return new String(java.lang.Integer.toUnsignedString(i));
}
public static int avm_parseInt(String s, int radix) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseInt);
return internalParseInt(s, radix);
}
public static int avm_parseInt(String s) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseInt_1);
return java.lang.Integer.parseInt(s.getUnderlying());
}
public static int avm_parseInt(CharSequence s, int beginIndex, int endIndex, int radix)
throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseInt_2);
return java.lang.Integer.parseInt(s.avm_toString().getUnderlying(), beginIndex, endIndex, radix);
}
public static int avm_parseUnsignedInt(String s, int radix) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseUnsignedInt);
return java.lang.Integer.parseUnsignedInt(s.getUnderlying(), radix);
}
public static int avm_parseUnsignedInt(String s) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseUnsignedInt_1);
return java.lang.Integer.parseUnsignedInt(s.getUnderlying());
}
public static int avm_parseUnsignedInt(CharSequence s, int beginIndex, int endIndex, int radix)
throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_parseUnsignedInt_2);
return java.lang.Integer.parseUnsignedInt(s.avm_toString().getUnderlying(), beginIndex, endIndex, radix);
}
public static Integer avm_valueOf(String s, int radix) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_valueOf);
return new Integer(internalParseInt(s, radix));
}
public static Integer avm_valueOf(String s) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_valueOf_1);
return new Integer(internalParseInt(s, 10));
}
public static Integer avm_valueOf(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_valueOf_2);
return new Integer(i);
}
// These are the constructors provided in the JDK but we mark them private since they are deprecated.
// (in the future, we may change these to not exist - depends on the kind of error we want to give the user).
private Integer(int v) {
this.v = v;
}
@SuppressWarnings("unused")
private Integer(String s) {
throw RuntimeAssertionError.unimplemented("This is only provided for a consistent error to user code - not to be called");
}
public byte avm_byteValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_byteValue);
lazyLoad();
return (byte) v;
}
public short avm_shortValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_shortValue);
lazyLoad();
return (short) v;
}
public int avm_intValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_intValue);
lazyLoad();
return v;
}
public long avm_longValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_longValue);
lazyLoad();
return (long) v;
}
public float avm_floatValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_floatValue);
lazyLoad();
return (float) v;
}
public double avm_doubleValue() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_doubleValue);
lazyLoad();
return (double) v;
}
public String avm_toString() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toString_2);
lazyLoad();
return new String(java.lang.Integer.toString(this.v));
}
@Override
public int avm_hashCode() {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_hashCode);
lazyLoad();
return this.v;
}
public static int avm_hashCode(int value) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_hashCode_1);
return value;
}
public boolean avm_equals(IObject obj) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_equals);
boolean isEqual = false;
if (obj instanceof Integer) {
Integer other = (Integer) obj;
lazyLoad();
other.lazyLoad();
isEqual = this.v == other.v;
}
return isEqual;
}
public static Integer avm_decode(String nm) throws NumberFormatException {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_decode);
return new Integer(java.lang.Integer.decode(nm.getUnderlying()).intValue());
}
public int avm_compareTo(Integer anotherInteger) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_compareTo);
lazyLoad();
anotherInteger.lazyLoad();
return internalCompare(this.v, anotherInteger.v);
}
public static int avm_compare(int x, int y) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_compare);
return internalCompare(x, y);
}
public static int avm_compareUnsigned(int x, int y) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_compareUnsigned);
return internalCompare(x + avm_MIN_VALUE, y + avm_MIN_VALUE);
}
public static long avm_toUnsignedLong(int x) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_toUnsignedLong);
return internalToUnsignedLong(x);
}
public static int avm_divideUnsigned(int dividend, int divisor) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_divideUnsigned);
// In lieu of tricky code, for now just use long arithmetic.
return (int)(internalToUnsignedLong(dividend) / internalToUnsignedLong(divisor));
}
public static int avm_remainderUnsigned(int dividend, int divisor) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_remainderUnsigned);
// In lieu of tricky code, for now just use long arithmetic.
return (int)(internalToUnsignedLong(dividend) % internalToUnsignedLong(divisor));
}
public static int avm_highestOneBit(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_highestOneBit);
return java.lang.Integer.highestOneBit(i);
}
public static int avm_lowestOneBit(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_lowestOneBit);
return java.lang.Integer.lowestOneBit(i);
}
public static int avm_numberOfLeadingZeros(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_numberOfLeadingZeros);
return java.lang.Integer.numberOfLeadingZeros(i);
}
public static int avm_numberOfTrailingZeros(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_numberOfTrailingZeros);
return java.lang.Integer.numberOfTrailingZeros(i);
}
public static int avm_bitCount(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_bitCount);
return java.lang.Integer.bitCount(i);
}
public static int avm_reverse(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_reverse);
return java.lang.Integer.reverse(i);
}
public static int avm_signum(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_signum);
return (i >> 31) | (-i >>> 31);
}
public static int avm_reverseBytes(int i) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_reverseBytes);
return java.lang.Integer.reverseBytes(i);
}
public static int avm_sum(int a, int b) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_sum);
return a + b;
}
public static int avm_max(int a, int b) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_max);
return java.lang.Math.max(a, b);
}
public static int avm_min(int a, int b) {
IInstrumentation.attachedThreadInstrumentation.get().chargeEnergy(RuntimeMethodFeeSchedule.Integer_avm_min);
return java.lang.Math.min(a, b);
}
private static int internalParseInt(String s, int radix) throws NumberFormatException {
return java.lang.Integer.parseInt(s.getUnderlying(), radix);
}
private static int internalCompare(int x, int y) {
return (x < y) ? -1 : ((x == y) ? 0 : 1);
}
private static long internalToUnsignedLong(int x) {
return ((long) x) & 0xffffffffL;
}
//========================================================
// Methods below are used by runtime and test code only!
//========================================================
public Integer(java.lang.Void ignore, int readIndex) {
super(ignore, readIndex);
}
private int v;
public int getUnderlying() {
lazyLoad();
return this.v;
}
public static Integer valueOf(int v) {
return new Integer(v);
}
//========================================================
// Methods below are excluded from shadowing
//========================================================
// public static Integer avm_getInteger(String nm){}
// public static Integer avm_getInteger(String nm, int val) {}
// public static Integer avm_getInteger(String nm, Integer val) {}
}
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