// This is a GENERATED file. Use the scheme program at the end to // regenerate. Note that in jdk 1.3, Float.MIN_VALUE does not have a // proper constant value. If that ever gets fixed, look for "NOT // CORRECT IN 1.3" and uncomment that line. import org.aspectj.testing.Tester; public strictfp class BigOps2 { public static void main(String[] args) { byteTest(); shortTest(); charTest(); intTest(); longTest(); floatTest(); doubleTest(); booleanTest(); } // -------- // byte tests static byte bytePlus(byte x) { return (byte) + x; } static byte byteMinus(byte x) { return (byte) - x; } static byte byteBitNot(byte x) { return (byte) ~ x; } static byte byteTimes(byte x, byte y) { return (byte) (x * y); } static byte byteDiv(byte x, byte y) { return (byte) (x / y); } static byte byteRem(byte x, byte y) { return (byte) (x % y); } static byte byteAdd(byte x, byte y) { return (byte) (x + y); } static byte byteSub(byte x, byte y) { return (byte) (x - y); } static byte byteShl(byte x, byte y) { return (byte) (x << y); } static byte byteShr(byte x, byte y) { return (byte) (x >> y); } static byte byteUshr(byte x, byte y) { return (byte) (x >>> y); } static boolean byteLt(byte x, byte y) { return x < y; } static boolean byteGt(byte x, byte y) { return x > y; } static boolean byteLe(byte x, byte y) { return x <= y; } static boolean byteGe(byte x, byte y) { return x >= y; } static boolean byteEq(byte x, byte y) { return x == y; } static boolean byteNe(byte x, byte y) { return x != y; } static byte byteAnd(byte x, byte y) { return (byte) (x & y); } static byte byteXor(byte x, byte y) { return (byte) (x ^ y); } static byte byteOr(byte x, byte y) { return (byte) (x | y); } static void byteTest() { Tester.checkEqual(bytePlus(Byte.MIN_VALUE), (byte) + Byte.MIN_VALUE, "(byte) + Byte.MIN_VALUE"); Tester.checkEqual(bytePlus((byte) -1), (byte) + (byte) -1, "(byte) + (byte) -1"); Tester.checkEqual(bytePlus((byte) 0), (byte) + (byte) 0, "(byte) + (byte) 0"); Tester.checkEqual(bytePlus((byte) 1), (byte) + (byte) 1, "(byte) + (byte) 1"); Tester.checkEqual(bytePlus(Byte.MAX_VALUE), (byte) + Byte.MAX_VALUE, "(byte) + Byte.MAX_VALUE"); Tester.checkEqual(byteMinus(Byte.MIN_VALUE), (byte) - Byte.MIN_VALUE, "(byte) - Byte.MIN_VALUE"); Tester.checkEqual(byteMinus((byte) -1), (byte) - (byte) -1, "(byte) - (byte) -1"); Tester.checkEqual(byteMinus((byte) 0), (byte) - (byte) 0, "(byte) - (byte) 0"); Tester.checkEqual(byteMinus((byte) 1), (byte) - (byte) 1, "(byte) - (byte) 1"); Tester.checkEqual(byteMinus(Byte.MAX_VALUE), (byte) - Byte.MAX_VALUE, "(byte) - Byte.MAX_VALUE"); Tester.checkEqual(byteBitNot(Byte.MIN_VALUE), (byte) ~ Byte.MIN_VALUE, "(byte) ~ Byte.MIN_VALUE"); Tester.checkEqual(byteBitNot((byte) -1), (byte) ~ (byte) -1, "(byte) ~ (byte) -1"); Tester.checkEqual(byteBitNot((byte) 0), (byte) ~ (byte) 0, "(byte) ~ (byte) 0"); Tester.checkEqual(byteBitNot((byte) 1), (byte) ~ (byte) 1, "(byte) ~ (byte) 1"); Tester.checkEqual(byteBitNot(Byte.MAX_VALUE), (byte) ~ Byte.MAX_VALUE, "(byte) ~ Byte.MAX_VALUE"); Tester.checkEqual(byteTimes(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE * Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE * Byte.MIN_VALUE)"); Tester.checkEqual(byteTimes(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE * (byte) -1), "(byte) (Byte.MIN_VALUE * (byte) -1)"); Tester.checkEqual(byteTimes(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE * (byte) 0), "(byte) (Byte.MIN_VALUE * (byte) 0)"); Tester.checkEqual(byteTimes(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE * (byte) 1), "(byte) (Byte.MIN_VALUE * (byte) 1)"); Tester.checkEqual(byteTimes(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE * Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE * Byte.MAX_VALUE)"); Tester.checkEqual(byteTimes((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 * Byte.MIN_VALUE), "(byte) ((byte) -1 * Byte.MIN_VALUE)"); Tester.checkEqual(byteTimes((byte) -1, (byte) -1), (byte) ((byte) -1 * (byte) -1), "(byte) ((byte) -1 * (byte) -1)"); Tester.checkEqual(byteTimes((byte) -1, (byte) 0), (byte) ((byte) -1 * (byte) 0), "(byte) ((byte) -1 * (byte) 0)"); Tester.checkEqual(byteTimes((byte) -1, (byte) 1), (byte) ((byte) -1 * (byte) 1), "(byte) ((byte) -1 * (byte) 1)"); Tester.checkEqual(byteTimes((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 * Byte.MAX_VALUE), "(byte) ((byte) -1 * Byte.MAX_VALUE)"); Tester.checkEqual(byteTimes((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 * Byte.MIN_VALUE), "(byte) ((byte) 0 * Byte.MIN_VALUE)"); Tester.checkEqual(byteTimes((byte) 0, (byte) -1), (byte) ((byte) 0 * (byte) -1), "(byte) ((byte) 0 * (byte) -1)"); Tester.checkEqual(byteTimes((byte) 0, (byte) 0), (byte) ((byte) 0 * (byte) 0), "(byte) ((byte) 0 * (byte) 0)"); Tester.checkEqual(byteTimes((byte) 0, (byte) 1), (byte) ((byte) 0 * (byte) 1), "(byte) ((byte) 0 * (byte) 1)"); Tester.checkEqual(byteTimes((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 * Byte.MAX_VALUE), "(byte) ((byte) 0 * Byte.MAX_VALUE)"); Tester.checkEqual(byteTimes((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 * Byte.MIN_VALUE), "(byte) ((byte) 1 * Byte.MIN_VALUE)"); Tester.checkEqual(byteTimes((byte) 1, (byte) -1), (byte) ((byte) 1 * (byte) -1), "(byte) ((byte) 1 * (byte) -1)"); Tester.checkEqual(byteTimes((byte) 1, (byte) 0), (byte) ((byte) 1 * (byte) 0), "(byte) ((byte) 1 * (byte) 0)"); Tester.checkEqual(byteTimes((byte) 1, (byte) 1), (byte) ((byte) 1 * (byte) 1), "(byte) ((byte) 1 * (byte) 1)"); Tester.checkEqual(byteTimes((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 * Byte.MAX_VALUE), "(byte) ((byte) 1 * Byte.MAX_VALUE)"); Tester.checkEqual(byteTimes(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE * Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE * Byte.MIN_VALUE)"); Tester.checkEqual(byteTimes(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE * (byte) -1), "(byte) (Byte.MAX_VALUE * (byte) -1)"); Tester.checkEqual(byteTimes(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE * (byte) 0), "(byte) (Byte.MAX_VALUE * (byte) 0)"); Tester.checkEqual(byteTimes(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE * (byte) 1), "(byte) (Byte.MAX_VALUE * (byte) 1)"); Tester.checkEqual(byteTimes(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE * Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE * Byte.MAX_VALUE)"); Tester.checkEqual(byteDiv(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE / Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE / Byte.MIN_VALUE)"); Tester.checkEqual(byteDiv(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE / (byte) -1), "(byte) (Byte.MIN_VALUE / (byte) -1)"); Tester.checkEqual(byteDiv(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE / (byte) 1), "(byte) (Byte.MIN_VALUE / (byte) 1)"); Tester.checkEqual(byteDiv(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE / Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE / Byte.MAX_VALUE)"); Tester.checkEqual(byteDiv((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 / Byte.MIN_VALUE), "(byte) ((byte) -1 / Byte.MIN_VALUE)"); Tester.checkEqual(byteDiv((byte) -1, (byte) -1), (byte) ((byte) -1 / (byte) -1), "(byte) ((byte) -1 / (byte) -1)"); Tester.checkEqual(byteDiv((byte) -1, (byte) 1), (byte) ((byte) -1 / (byte) 1), "(byte) ((byte) -1 / (byte) 1)"); Tester.checkEqual(byteDiv((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 / Byte.MAX_VALUE), "(byte) ((byte) -1 / Byte.MAX_VALUE)"); Tester.checkEqual(byteDiv((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 / Byte.MIN_VALUE), "(byte) ((byte) 0 / Byte.MIN_VALUE)"); Tester.checkEqual(byteDiv((byte) 0, (byte) -1), (byte) ((byte) 0 / (byte) -1), "(byte) ((byte) 0 / (byte) -1)"); Tester.checkEqual(byteDiv((byte) 0, (byte) 1), (byte) ((byte) 0 / (byte) 1), "(byte) ((byte) 0 / (byte) 1)"); Tester.checkEqual(byteDiv((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 / Byte.MAX_VALUE), "(byte) ((byte) 0 / Byte.MAX_VALUE)"); Tester.checkEqual(byteDiv((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 / Byte.MIN_VALUE), "(byte) ((byte) 1 / Byte.MIN_VALUE)"); Tester.checkEqual(byteDiv((byte) 1, (byte) -1), (byte) ((byte) 1 / (byte) -1), "(byte) ((byte) 1 / (byte) -1)"); Tester.checkEqual(byteDiv((byte) 1, (byte) 1), (byte) ((byte) 1 / (byte) 1), "(byte) ((byte) 1 / (byte) 1)"); Tester.checkEqual(byteDiv((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 / Byte.MAX_VALUE), "(byte) ((byte) 1 / Byte.MAX_VALUE)"); Tester.checkEqual(byteDiv(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE / Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE / Byte.MIN_VALUE)"); Tester.checkEqual(byteDiv(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE / (byte) -1), "(byte) (Byte.MAX_VALUE / (byte) -1)"); Tester.checkEqual(byteDiv(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE / (byte) 1), "(byte) (Byte.MAX_VALUE / (byte) 1)"); Tester.checkEqual(byteDiv(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE / Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE / Byte.MAX_VALUE)"); Tester.checkEqual(byteRem(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE % Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE % Byte.MIN_VALUE)"); Tester.checkEqual(byteRem(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE % (byte) -1), "(byte) (Byte.MIN_VALUE % (byte) -1)"); Tester.checkEqual(byteRem(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE % (byte) 1), "(byte) (Byte.MIN_VALUE % (byte) 1)"); Tester.checkEqual(byteRem(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE % Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE % Byte.MAX_VALUE)"); Tester.checkEqual(byteRem((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 % Byte.MIN_VALUE), "(byte) ((byte) -1 % Byte.MIN_VALUE)"); Tester.checkEqual(byteRem((byte) -1, (byte) -1), (byte) ((byte) -1 % (byte) -1), "(byte) ((byte) -1 % (byte) -1)"); Tester.checkEqual(byteRem((byte) -1, (byte) 1), (byte) ((byte) -1 % (byte) 1), "(byte) ((byte) -1 % (byte) 1)"); Tester.checkEqual(byteRem((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 % Byte.MAX_VALUE), "(byte) ((byte) -1 % Byte.MAX_VALUE)"); Tester.checkEqual(byteRem((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 % Byte.MIN_VALUE), "(byte) ((byte) 0 % Byte.MIN_VALUE)"); Tester.checkEqual(byteRem((byte) 0, (byte) -1), (byte) ((byte) 0 % (byte) -1), "(byte) ((byte) 0 % (byte) -1)"); Tester.checkEqual(byteRem((byte) 0, (byte) 1), (byte) ((byte) 0 % (byte) 1), "(byte) ((byte) 0 % (byte) 1)"); Tester.checkEqual(byteRem((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 % Byte.MAX_VALUE), "(byte) ((byte) 0 % Byte.MAX_VALUE)"); Tester.checkEqual(byteRem((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 % Byte.MIN_VALUE), "(byte) ((byte) 1 % Byte.MIN_VALUE)"); Tester.checkEqual(byteRem((byte) 1, (byte) -1), (byte) ((byte) 1 % (byte) -1), "(byte) ((byte) 1 % (byte) -1)"); Tester.checkEqual(byteRem((byte) 1, (byte) 1), (byte) ((byte) 1 % (byte) 1), "(byte) ((byte) 1 % (byte) 1)"); Tester.checkEqual(byteRem((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 % Byte.MAX_VALUE), "(byte) ((byte) 1 % Byte.MAX_VALUE)"); Tester.checkEqual(byteRem(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE % Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE % Byte.MIN_VALUE)"); Tester.checkEqual(byteRem(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE % (byte) -1), "(byte) (Byte.MAX_VALUE % (byte) -1)"); Tester.checkEqual(byteRem(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE % (byte) 1), "(byte) (Byte.MAX_VALUE % (byte) 1)"); Tester.checkEqual(byteRem(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE % Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE % Byte.MAX_VALUE)"); Tester.checkEqual(byteAdd(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE + Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE + Byte.MIN_VALUE)"); Tester.checkEqual(byteAdd(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE + (byte) -1), "(byte) (Byte.MIN_VALUE + (byte) -1)"); Tester.checkEqual(byteAdd(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE + (byte) 0), "(byte) (Byte.MIN_VALUE + (byte) 0)"); Tester.checkEqual(byteAdd(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE + (byte) 1), "(byte) (Byte.MIN_VALUE + (byte) 1)"); Tester.checkEqual(byteAdd(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE + Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE + Byte.MAX_VALUE)"); Tester.checkEqual(byteAdd((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 + Byte.MIN_VALUE), "(byte) ((byte) -1 + Byte.MIN_VALUE)"); Tester.checkEqual(byteAdd((byte) -1, (byte) -1), (byte) ((byte) -1 + (byte) -1), "(byte) ((byte) -1 + (byte) -1)"); Tester.checkEqual(byteAdd((byte) -1, (byte) 0), (byte) ((byte) -1 + (byte) 0), "(byte) ((byte) -1 + (byte) 0)"); Tester.checkEqual(byteAdd((byte) -1, (byte) 1), (byte) ((byte) -1 + (byte) 1), "(byte) ((byte) -1 + (byte) 1)"); Tester.checkEqual(byteAdd((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 + Byte.MAX_VALUE), "(byte) ((byte) -1 + Byte.MAX_VALUE)"); Tester.checkEqual(byteAdd((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 + Byte.MIN_VALUE), "(byte) ((byte) 0 + Byte.MIN_VALUE)"); Tester.checkEqual(byteAdd((byte) 0, (byte) -1), (byte) ((byte) 0 + (byte) -1), "(byte) ((byte) 0 + (byte) -1)"); Tester.checkEqual(byteAdd((byte) 0, (byte) 0), (byte) ((byte) 0 + (byte) 0), "(byte) ((byte) 0 + (byte) 0)"); Tester.checkEqual(byteAdd((byte) 0, (byte) 1), (byte) ((byte) 0 + (byte) 1), "(byte) ((byte) 0 + (byte) 1)"); Tester.checkEqual(byteAdd((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 + Byte.MAX_VALUE), "(byte) ((byte) 0 + Byte.MAX_VALUE)"); Tester.checkEqual(byteAdd((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 + Byte.MIN_VALUE), "(byte) ((byte) 1 + Byte.MIN_VALUE)"); Tester.checkEqual(byteAdd((byte) 1, (byte) -1), (byte) ((byte) 1 + (byte) -1), "(byte) ((byte) 1 + (byte) -1)"); Tester.checkEqual(byteAdd((byte) 1, (byte) 0), (byte) ((byte) 1 + (byte) 0), "(byte) ((byte) 1 + (byte) 0)"); Tester.checkEqual(byteAdd((byte) 1, (byte) 1), (byte) ((byte) 1 + (byte) 1), "(byte) ((byte) 1 + (byte) 1)"); Tester.checkEqual(byteAdd((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 + Byte.MAX_VALUE), "(byte) ((byte) 1 + Byte.MAX_VALUE)"); Tester.checkEqual(byteAdd(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE + Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE + Byte.MIN_VALUE)"); Tester.checkEqual(byteAdd(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE + (byte) -1), "(byte) (Byte.MAX_VALUE + (byte) -1)"); Tester.checkEqual(byteAdd(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE + (byte) 0), "(byte) (Byte.MAX_VALUE + (byte) 0)"); Tester.checkEqual(byteAdd(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE + (byte) 1), "(byte) (Byte.MAX_VALUE + (byte) 1)"); Tester.checkEqual(byteAdd(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE + Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE + Byte.MAX_VALUE)"); Tester.checkEqual(byteSub(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE - Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE - Byte.MIN_VALUE)"); Tester.checkEqual(byteSub(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE - (byte) -1), "(byte) (Byte.MIN_VALUE - (byte) -1)"); Tester.checkEqual(byteSub(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE - (byte) 0), "(byte) (Byte.MIN_VALUE - (byte) 0)"); Tester.checkEqual(byteSub(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE - (byte) 1), "(byte) (Byte.MIN_VALUE - (byte) 1)"); Tester.checkEqual(byteSub(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE - Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE - Byte.MAX_VALUE)"); Tester.checkEqual(byteSub((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 - Byte.MIN_VALUE), "(byte) ((byte) -1 - Byte.MIN_VALUE)"); Tester.checkEqual(byteSub((byte) -1, (byte) -1), (byte) ((byte) -1 - (byte) -1), "(byte) ((byte) -1 - (byte) -1)"); Tester.checkEqual(byteSub((byte) -1, (byte) 0), (byte) ((byte) -1 - (byte) 0), "(byte) ((byte) -1 - (byte) 0)"); Tester.checkEqual(byteSub((byte) -1, (byte) 1), (byte) ((byte) -1 - (byte) 1), "(byte) ((byte) -1 - (byte) 1)"); Tester.checkEqual(byteSub((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 - Byte.MAX_VALUE), "(byte) ((byte) -1 - Byte.MAX_VALUE)"); Tester.checkEqual(byteSub((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 - Byte.MIN_VALUE), "(byte) ((byte) 0 - Byte.MIN_VALUE)"); Tester.checkEqual(byteSub((byte) 0, (byte) -1), (byte) ((byte) 0 - (byte) -1), "(byte) ((byte) 0 - (byte) -1)"); Tester.checkEqual(byteSub((byte) 0, (byte) 0), (byte) ((byte) 0 - (byte) 0), "(byte) ((byte) 0 - (byte) 0)"); Tester.checkEqual(byteSub((byte) 0, (byte) 1), (byte) ((byte) 0 - (byte) 1), "(byte) ((byte) 0 - (byte) 1)"); Tester.checkEqual(byteSub((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 - Byte.MAX_VALUE), "(byte) ((byte) 0 - Byte.MAX_VALUE)"); Tester.checkEqual(byteSub((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 - Byte.MIN_VALUE), "(byte) ((byte) 1 - Byte.MIN_VALUE)"); Tester.checkEqual(byteSub((byte) 1, (byte) -1), (byte) ((byte) 1 - (byte) -1), "(byte) ((byte) 1 - (byte) -1)"); Tester.checkEqual(byteSub((byte) 1, (byte) 0), (byte) ((byte) 1 - (byte) 0), "(byte) ((byte) 1 - (byte) 0)"); Tester.checkEqual(byteSub((byte) 1, (byte) 1), (byte) ((byte) 1 - (byte) 1), "(byte) ((byte) 1 - (byte) 1)"); Tester.checkEqual(byteSub((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 - Byte.MAX_VALUE), "(byte) ((byte) 1 - Byte.MAX_VALUE)"); Tester.checkEqual(byteSub(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE - Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE - Byte.MIN_VALUE)"); Tester.checkEqual(byteSub(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE - (byte) -1), "(byte) (Byte.MAX_VALUE - (byte) -1)"); Tester.checkEqual(byteSub(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE - (byte) 0), "(byte) (Byte.MAX_VALUE - (byte) 0)"); Tester.checkEqual(byteSub(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE - (byte) 1), "(byte) (Byte.MAX_VALUE - (byte) 1)"); Tester.checkEqual(byteSub(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE - Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE - Byte.MAX_VALUE)"); Tester.checkEqual(byteShl(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE << Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE << Byte.MIN_VALUE)"); Tester.checkEqual(byteShl(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE << (byte) -1), "(byte) (Byte.MIN_VALUE << (byte) -1)"); Tester.checkEqual(byteShl(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE << (byte) 0), "(byte) (Byte.MIN_VALUE << (byte) 0)"); Tester.checkEqual(byteShl(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE << (byte) 1), "(byte) (Byte.MIN_VALUE << (byte) 1)"); Tester.checkEqual(byteShl(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE << Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE << Byte.MAX_VALUE)"); Tester.checkEqual(byteShl((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 << Byte.MIN_VALUE), "(byte) ((byte) -1 << Byte.MIN_VALUE)"); Tester.checkEqual(byteShl((byte) -1, (byte) -1), (byte) ((byte) -1 << (byte) -1), "(byte) ((byte) -1 << (byte) -1)"); Tester.checkEqual(byteShl((byte) -1, (byte) 0), (byte) ((byte) -1 << (byte) 0), "(byte) ((byte) -1 << (byte) 0)"); Tester.checkEqual(byteShl((byte) -1, (byte) 1), (byte) ((byte) -1 << (byte) 1), "(byte) ((byte) -1 << (byte) 1)"); Tester.checkEqual(byteShl((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 << Byte.MAX_VALUE), "(byte) ((byte) -1 << Byte.MAX_VALUE)"); Tester.checkEqual(byteShl((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 << Byte.MIN_VALUE), "(byte) ((byte) 0 << Byte.MIN_VALUE)"); Tester.checkEqual(byteShl((byte) 0, (byte) -1), (byte) ((byte) 0 << (byte) -1), "(byte) ((byte) 0 << (byte) -1)"); Tester.checkEqual(byteShl((byte) 0, (byte) 0), (byte) ((byte) 0 << (byte) 0), "(byte) ((byte) 0 << (byte) 0)"); Tester.checkEqual(byteShl((byte) 0, (byte) 1), (byte) ((byte) 0 << (byte) 1), "(byte) ((byte) 0 << (byte) 1)"); Tester.checkEqual(byteShl((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 << Byte.MAX_VALUE), "(byte) ((byte) 0 << Byte.MAX_VALUE)"); Tester.checkEqual(byteShl((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 << Byte.MIN_VALUE), "(byte) ((byte) 1 << Byte.MIN_VALUE)"); Tester.checkEqual(byteShl((byte) 1, (byte) -1), (byte) ((byte) 1 << (byte) -1), "(byte) ((byte) 1 << (byte) -1)"); Tester.checkEqual(byteShl((byte) 1, (byte) 0), (byte) ((byte) 1 << (byte) 0), "(byte) ((byte) 1 << (byte) 0)"); Tester.checkEqual(byteShl((byte) 1, (byte) 1), (byte) ((byte) 1 << (byte) 1), "(byte) ((byte) 1 << (byte) 1)"); Tester.checkEqual(byteShl((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 << Byte.MAX_VALUE), "(byte) ((byte) 1 << Byte.MAX_VALUE)"); Tester.checkEqual(byteShl(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE << Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE << Byte.MIN_VALUE)"); Tester.checkEqual(byteShl(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE << (byte) -1), "(byte) (Byte.MAX_VALUE << (byte) -1)"); Tester.checkEqual(byteShl(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE << (byte) 0), "(byte) (Byte.MAX_VALUE << (byte) 0)"); Tester.checkEqual(byteShl(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE << (byte) 1), "(byte) (Byte.MAX_VALUE << (byte) 1)"); Tester.checkEqual(byteShl(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE << Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE << Byte.MAX_VALUE)"); Tester.checkEqual(byteShr(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE >> Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE >> Byte.MIN_VALUE)"); Tester.checkEqual(byteShr(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE >> (byte) -1), "(byte) (Byte.MIN_VALUE >> (byte) -1)"); Tester.checkEqual(byteShr(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE >> (byte) 0), "(byte) (Byte.MIN_VALUE >> (byte) 0)"); Tester.checkEqual(byteShr(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE >> (byte) 1), "(byte) (Byte.MIN_VALUE >> (byte) 1)"); Tester.checkEqual(byteShr(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE >> Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE >> Byte.MAX_VALUE)"); Tester.checkEqual(byteShr((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 >> Byte.MIN_VALUE), "(byte) ((byte) -1 >> Byte.MIN_VALUE)"); Tester.checkEqual(byteShr((byte) -1, (byte) -1), (byte) ((byte) -1 >> (byte) -1), "(byte) ((byte) -1 >> (byte) -1)"); Tester.checkEqual(byteShr((byte) -1, (byte) 0), (byte) ((byte) -1 >> (byte) 0), "(byte) ((byte) -1 >> (byte) 0)"); Tester.checkEqual(byteShr((byte) -1, (byte) 1), (byte) ((byte) -1 >> (byte) 1), "(byte) ((byte) -1 >> (byte) 1)"); Tester.checkEqual(byteShr((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 >> Byte.MAX_VALUE), "(byte) ((byte) -1 >> Byte.MAX_VALUE)"); Tester.checkEqual(byteShr((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 >> Byte.MIN_VALUE), "(byte) ((byte) 0 >> Byte.MIN_VALUE)"); Tester.checkEqual(byteShr((byte) 0, (byte) -1), (byte) ((byte) 0 >> (byte) -1), "(byte) ((byte) 0 >> (byte) -1)"); Tester.checkEqual(byteShr((byte) 0, (byte) 0), (byte) ((byte) 0 >> (byte) 0), "(byte) ((byte) 0 >> (byte) 0)"); Tester.checkEqual(byteShr((byte) 0, (byte) 1), (byte) ((byte) 0 >> (byte) 1), "(byte) ((byte) 0 >> (byte) 1)"); Tester.checkEqual(byteShr((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 >> Byte.MAX_VALUE), "(byte) ((byte) 0 >> Byte.MAX_VALUE)"); Tester.checkEqual(byteShr((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 >> Byte.MIN_VALUE), "(byte) ((byte) 1 >> Byte.MIN_VALUE)"); Tester.checkEqual(byteShr((byte) 1, (byte) -1), (byte) ((byte) 1 >> (byte) -1), "(byte) ((byte) 1 >> (byte) -1)"); Tester.checkEqual(byteShr((byte) 1, (byte) 0), (byte) ((byte) 1 >> (byte) 0), "(byte) ((byte) 1 >> (byte) 0)"); Tester.checkEqual(byteShr((byte) 1, (byte) 1), (byte) ((byte) 1 >> (byte) 1), "(byte) ((byte) 1 >> (byte) 1)"); Tester.checkEqual(byteShr((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 >> Byte.MAX_VALUE), "(byte) ((byte) 1 >> Byte.MAX_VALUE)"); Tester.checkEqual(byteShr(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE >> Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE >> Byte.MIN_VALUE)"); Tester.checkEqual(byteShr(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE >> (byte) -1), "(byte) (Byte.MAX_VALUE >> (byte) -1)"); Tester.checkEqual(byteShr(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE >> (byte) 0), "(byte) (Byte.MAX_VALUE >> (byte) 0)"); Tester.checkEqual(byteShr(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE >> (byte) 1), "(byte) (Byte.MAX_VALUE >> (byte) 1)"); Tester.checkEqual(byteShr(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE >> Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE >> Byte.MAX_VALUE)"); Tester.checkEqual(byteUshr(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE >>> Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE >>> Byte.MIN_VALUE)"); Tester.checkEqual(byteUshr(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE >>> (byte) -1), "(byte) (Byte.MIN_VALUE >>> (byte) -1)"); Tester.checkEqual(byteUshr(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE >>> (byte) 0), "(byte) (Byte.MIN_VALUE >>> (byte) 0)"); Tester.checkEqual(byteUshr(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE >>> (byte) 1), "(byte) (Byte.MIN_VALUE >>> (byte) 1)"); Tester.checkEqual(byteUshr(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE >>> Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE >>> Byte.MAX_VALUE)"); Tester.checkEqual(byteUshr((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 >>> Byte.MIN_VALUE), "(byte) ((byte) -1 >>> Byte.MIN_VALUE)"); Tester.checkEqual(byteUshr((byte) -1, (byte) -1), (byte) ((byte) -1 >>> (byte) -1), "(byte) ((byte) -1 >>> (byte) -1)"); Tester.checkEqual(byteUshr((byte) -1, (byte) 0), (byte) ((byte) -1 >>> (byte) 0), "(byte) ((byte) -1 >>> (byte) 0)"); Tester.checkEqual(byteUshr((byte) -1, (byte) 1), (byte) ((byte) -1 >>> (byte) 1), "(byte) ((byte) -1 >>> (byte) 1)"); Tester.checkEqual(byteUshr((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 >>> Byte.MAX_VALUE), "(byte) ((byte) -1 >>> Byte.MAX_VALUE)"); Tester.checkEqual(byteUshr((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 >>> Byte.MIN_VALUE), "(byte) ((byte) 0 >>> Byte.MIN_VALUE)"); Tester.checkEqual(byteUshr((byte) 0, (byte) -1), (byte) ((byte) 0 >>> (byte) -1), "(byte) ((byte) 0 >>> (byte) -1)"); Tester.checkEqual(byteUshr((byte) 0, (byte) 0), (byte) ((byte) 0 >>> (byte) 0), "(byte) ((byte) 0 >>> (byte) 0)"); Tester.checkEqual(byteUshr((byte) 0, (byte) 1), (byte) ((byte) 0 >>> (byte) 1), "(byte) ((byte) 0 >>> (byte) 1)"); Tester.checkEqual(byteUshr((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 >>> Byte.MAX_VALUE), "(byte) ((byte) 0 >>> Byte.MAX_VALUE)"); Tester.checkEqual(byteUshr((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 >>> Byte.MIN_VALUE), "(byte) ((byte) 1 >>> Byte.MIN_VALUE)"); Tester.checkEqual(byteUshr((byte) 1, (byte) -1), (byte) ((byte) 1 >>> (byte) -1), "(byte) ((byte) 1 >>> (byte) -1)"); Tester.checkEqual(byteUshr((byte) 1, (byte) 0), (byte) ((byte) 1 >>> (byte) 0), "(byte) ((byte) 1 >>> (byte) 0)"); Tester.checkEqual(byteUshr((byte) 1, (byte) 1), (byte) ((byte) 1 >>> (byte) 1), "(byte) ((byte) 1 >>> (byte) 1)"); Tester.checkEqual(byteUshr((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 >>> Byte.MAX_VALUE), "(byte) ((byte) 1 >>> Byte.MAX_VALUE)"); Tester.checkEqual(byteUshr(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE >>> Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE >>> Byte.MIN_VALUE)"); Tester.checkEqual(byteUshr(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE >>> (byte) -1), "(byte) (Byte.MAX_VALUE >>> (byte) -1)"); Tester.checkEqual(byteUshr(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE >>> (byte) 0), "(byte) (Byte.MAX_VALUE >>> (byte) 0)"); Tester.checkEqual(byteUshr(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE >>> (byte) 1), "(byte) (Byte.MAX_VALUE >>> (byte) 1)"); Tester.checkEqual(byteUshr(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE >>> Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE >>> Byte.MAX_VALUE)"); Tester.checkEqual(byteLt(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE < Byte.MIN_VALUE, "Byte.MIN_VALUE < Byte.MIN_VALUE"); Tester.checkEqual(byteLt(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE < (byte) -1, "Byte.MIN_VALUE < (byte) -1"); Tester.checkEqual(byteLt(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE < (byte) 0, "Byte.MIN_VALUE < (byte) 0"); Tester.checkEqual(byteLt(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE < (byte) 1, "Byte.MIN_VALUE < (byte) 1"); Tester.checkEqual(byteLt(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE < Byte.MAX_VALUE, "Byte.MIN_VALUE < Byte.MAX_VALUE"); Tester.checkEqual(byteLt((byte) -1, Byte.MIN_VALUE), (byte) -1 < Byte.MIN_VALUE, "(byte) -1 < Byte.MIN_VALUE"); Tester.checkEqual(byteLt((byte) -1, (byte) -1), (byte) -1 < (byte) -1, "(byte) -1 < (byte) -1"); Tester.checkEqual(byteLt((byte) -1, (byte) 0), (byte) -1 < (byte) 0, "(byte) -1 < (byte) 0"); Tester.checkEqual(byteLt((byte) -1, (byte) 1), (byte) -1 < (byte) 1, "(byte) -1 < (byte) 1"); Tester.checkEqual(byteLt((byte) -1, Byte.MAX_VALUE), (byte) -1 < Byte.MAX_VALUE, "(byte) -1 < Byte.MAX_VALUE"); Tester.checkEqual(byteLt((byte) 0, Byte.MIN_VALUE), (byte) 0 < Byte.MIN_VALUE, "(byte) 0 < Byte.MIN_VALUE"); Tester.checkEqual(byteLt((byte) 0, (byte) -1), (byte) 0 < (byte) -1, "(byte) 0 < (byte) -1"); Tester.checkEqual(byteLt((byte) 0, (byte) 0), (byte) 0 < (byte) 0, "(byte) 0 < (byte) 0"); Tester.checkEqual(byteLt((byte) 0, (byte) 1), (byte) 0 < (byte) 1, "(byte) 0 < (byte) 1"); Tester.checkEqual(byteLt((byte) 0, Byte.MAX_VALUE), (byte) 0 < Byte.MAX_VALUE, "(byte) 0 < Byte.MAX_VALUE"); Tester.checkEqual(byteLt((byte) 1, Byte.MIN_VALUE), (byte) 1 < Byte.MIN_VALUE, "(byte) 1 < Byte.MIN_VALUE"); Tester.checkEqual(byteLt((byte) 1, (byte) -1), (byte) 1 < (byte) -1, "(byte) 1 < (byte) -1"); Tester.checkEqual(byteLt((byte) 1, (byte) 0), (byte) 1 < (byte) 0, "(byte) 1 < (byte) 0"); Tester.checkEqual(byteLt((byte) 1, (byte) 1), (byte) 1 < (byte) 1, "(byte) 1 < (byte) 1"); Tester.checkEqual(byteLt((byte) 1, Byte.MAX_VALUE), (byte) 1 < Byte.MAX_VALUE, "(byte) 1 < Byte.MAX_VALUE"); Tester.checkEqual(byteLt(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE < Byte.MIN_VALUE, "Byte.MAX_VALUE < Byte.MIN_VALUE"); Tester.checkEqual(byteLt(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE < (byte) -1, "Byte.MAX_VALUE < (byte) -1"); Tester.checkEqual(byteLt(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE < (byte) 0, "Byte.MAX_VALUE < (byte) 0"); Tester.checkEqual(byteLt(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE < (byte) 1, "Byte.MAX_VALUE < (byte) 1"); Tester.checkEqual(byteLt(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE < Byte.MAX_VALUE, "Byte.MAX_VALUE < Byte.MAX_VALUE"); Tester.checkEqual(byteGt(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE > Byte.MIN_VALUE, "Byte.MIN_VALUE > Byte.MIN_VALUE"); Tester.checkEqual(byteGt(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE > (byte) -1, "Byte.MIN_VALUE > (byte) -1"); Tester.checkEqual(byteGt(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE > (byte) 0, "Byte.MIN_VALUE > (byte) 0"); Tester.checkEqual(byteGt(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE > (byte) 1, "Byte.MIN_VALUE > (byte) 1"); Tester.checkEqual(byteGt(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE > Byte.MAX_VALUE, "Byte.MIN_VALUE > Byte.MAX_VALUE"); Tester.checkEqual(byteGt((byte) -1, Byte.MIN_VALUE), (byte) -1 > Byte.MIN_VALUE, "(byte) -1 > Byte.MIN_VALUE"); Tester.checkEqual(byteGt((byte) -1, (byte) -1), (byte) -1 > (byte) -1, "(byte) -1 > (byte) -1"); Tester.checkEqual(byteGt((byte) -1, (byte) 0), (byte) -1 > (byte) 0, "(byte) -1 > (byte) 0"); Tester.checkEqual(byteGt((byte) -1, (byte) 1), (byte) -1 > (byte) 1, "(byte) -1 > (byte) 1"); Tester.checkEqual(byteGt((byte) -1, Byte.MAX_VALUE), (byte) -1 > Byte.MAX_VALUE, "(byte) -1 > Byte.MAX_VALUE"); Tester.checkEqual(byteGt((byte) 0, Byte.MIN_VALUE), (byte) 0 > Byte.MIN_VALUE, "(byte) 0 > Byte.MIN_VALUE"); Tester.checkEqual(byteGt((byte) 0, (byte) -1), (byte) 0 > (byte) -1, "(byte) 0 > (byte) -1"); Tester.checkEqual(byteGt((byte) 0, (byte) 0), (byte) 0 > (byte) 0, "(byte) 0 > (byte) 0"); Tester.checkEqual(byteGt((byte) 0, (byte) 1), (byte) 0 > (byte) 1, "(byte) 0 > (byte) 1"); Tester.checkEqual(byteGt((byte) 0, Byte.MAX_VALUE), (byte) 0 > Byte.MAX_VALUE, "(byte) 0 > Byte.MAX_VALUE"); Tester.checkEqual(byteGt((byte) 1, Byte.MIN_VALUE), (byte) 1 > Byte.MIN_VALUE, "(byte) 1 > Byte.MIN_VALUE"); Tester.checkEqual(byteGt((byte) 1, (byte) -1), (byte) 1 > (byte) -1, "(byte) 1 > (byte) -1"); Tester.checkEqual(byteGt((byte) 1, (byte) 0), (byte) 1 > (byte) 0, "(byte) 1 > (byte) 0"); Tester.checkEqual(byteGt((byte) 1, (byte) 1), (byte) 1 > (byte) 1, "(byte) 1 > (byte) 1"); Tester.checkEqual(byteGt((byte) 1, Byte.MAX_VALUE), (byte) 1 > Byte.MAX_VALUE, "(byte) 1 > Byte.MAX_VALUE"); Tester.checkEqual(byteGt(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE > Byte.MIN_VALUE, "Byte.MAX_VALUE > Byte.MIN_VALUE"); Tester.checkEqual(byteGt(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE > (byte) -1, "Byte.MAX_VALUE > (byte) -1"); Tester.checkEqual(byteGt(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE > (byte) 0, "Byte.MAX_VALUE > (byte) 0"); Tester.checkEqual(byteGt(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE > (byte) 1, "Byte.MAX_VALUE > (byte) 1"); Tester.checkEqual(byteGt(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE > Byte.MAX_VALUE, "Byte.MAX_VALUE > Byte.MAX_VALUE"); Tester.checkEqual(byteLe(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE <= Byte.MIN_VALUE, "Byte.MIN_VALUE <= Byte.MIN_VALUE"); Tester.checkEqual(byteLe(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE <= (byte) -1, "Byte.MIN_VALUE <= (byte) -1"); Tester.checkEqual(byteLe(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE <= (byte) 0, "Byte.MIN_VALUE <= (byte) 0"); Tester.checkEqual(byteLe(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE <= (byte) 1, "Byte.MIN_VALUE <= (byte) 1"); Tester.checkEqual(byteLe(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE <= Byte.MAX_VALUE, "Byte.MIN_VALUE <= Byte.MAX_VALUE"); Tester.checkEqual(byteLe((byte) -1, Byte.MIN_VALUE), (byte) -1 <= Byte.MIN_VALUE, "(byte) -1 <= Byte.MIN_VALUE"); Tester.checkEqual(byteLe((byte) -1, (byte) -1), (byte) -1 <= (byte) -1, "(byte) -1 <= (byte) -1"); Tester.checkEqual(byteLe((byte) -1, (byte) 0), (byte) -1 <= (byte) 0, "(byte) -1 <= (byte) 0"); Tester.checkEqual(byteLe((byte) -1, (byte) 1), (byte) -1 <= (byte) 1, "(byte) -1 <= (byte) 1"); Tester.checkEqual(byteLe((byte) -1, Byte.MAX_VALUE), (byte) -1 <= Byte.MAX_VALUE, "(byte) -1 <= Byte.MAX_VALUE"); Tester.checkEqual(byteLe((byte) 0, Byte.MIN_VALUE), (byte) 0 <= Byte.MIN_VALUE, "(byte) 0 <= Byte.MIN_VALUE"); Tester.checkEqual(byteLe((byte) 0, (byte) -1), (byte) 0 <= (byte) -1, "(byte) 0 <= (byte) -1"); Tester.checkEqual(byteLe((byte) 0, (byte) 0), (byte) 0 <= (byte) 0, "(byte) 0 <= (byte) 0"); Tester.checkEqual(byteLe((byte) 0, (byte) 1), (byte) 0 <= (byte) 1, "(byte) 0 <= (byte) 1"); Tester.checkEqual(byteLe((byte) 0, Byte.MAX_VALUE), (byte) 0 <= Byte.MAX_VALUE, "(byte) 0 <= Byte.MAX_VALUE"); Tester.checkEqual(byteLe((byte) 1, Byte.MIN_VALUE), (byte) 1 <= Byte.MIN_VALUE, "(byte) 1 <= Byte.MIN_VALUE"); Tester.checkEqual(byteLe((byte) 1, (byte) -1), (byte) 1 <= (byte) -1, "(byte) 1 <= (byte) -1"); Tester.checkEqual(byteLe((byte) 1, (byte) 0), (byte) 1 <= (byte) 0, "(byte) 1 <= (byte) 0"); Tester.checkEqual(byteLe((byte) 1, (byte) 1), (byte) 1 <= (byte) 1, "(byte) 1 <= (byte) 1"); Tester.checkEqual(byteLe((byte) 1, Byte.MAX_VALUE), (byte) 1 <= Byte.MAX_VALUE, "(byte) 1 <= Byte.MAX_VALUE"); Tester.checkEqual(byteLe(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE <= Byte.MIN_VALUE, "Byte.MAX_VALUE <= Byte.MIN_VALUE"); Tester.checkEqual(byteLe(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE <= (byte) -1, "Byte.MAX_VALUE <= (byte) -1"); Tester.checkEqual(byteLe(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE <= (byte) 0, "Byte.MAX_VALUE <= (byte) 0"); Tester.checkEqual(byteLe(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE <= (byte) 1, "Byte.MAX_VALUE <= (byte) 1"); Tester.checkEqual(byteLe(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE <= Byte.MAX_VALUE, "Byte.MAX_VALUE <= Byte.MAX_VALUE"); Tester.checkEqual(byteGe(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE >= Byte.MIN_VALUE, "Byte.MIN_VALUE >= Byte.MIN_VALUE"); Tester.checkEqual(byteGe(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE >= (byte) -1, "Byte.MIN_VALUE >= (byte) -1"); Tester.checkEqual(byteGe(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE >= (byte) 0, "Byte.MIN_VALUE >= (byte) 0"); Tester.checkEqual(byteGe(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE >= (byte) 1, "Byte.MIN_VALUE >= (byte) 1"); Tester.checkEqual(byteGe(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE >= Byte.MAX_VALUE, "Byte.MIN_VALUE >= Byte.MAX_VALUE"); Tester.checkEqual(byteGe((byte) -1, Byte.MIN_VALUE), (byte) -1 >= Byte.MIN_VALUE, "(byte) -1 >= Byte.MIN_VALUE"); Tester.checkEqual(byteGe((byte) -1, (byte) -1), (byte) -1 >= (byte) -1, "(byte) -1 >= (byte) -1"); Tester.checkEqual(byteGe((byte) -1, (byte) 0), (byte) -1 >= (byte) 0, "(byte) -1 >= (byte) 0"); Tester.checkEqual(byteGe((byte) -1, (byte) 1), (byte) -1 >= (byte) 1, "(byte) -1 >= (byte) 1"); Tester.checkEqual(byteGe((byte) -1, Byte.MAX_VALUE), (byte) -1 >= Byte.MAX_VALUE, "(byte) -1 >= Byte.MAX_VALUE"); Tester.checkEqual(byteGe((byte) 0, Byte.MIN_VALUE), (byte) 0 >= Byte.MIN_VALUE, "(byte) 0 >= Byte.MIN_VALUE"); Tester.checkEqual(byteGe((byte) 0, (byte) -1), (byte) 0 >= (byte) -1, "(byte) 0 >= (byte) -1"); Tester.checkEqual(byteGe((byte) 0, (byte) 0), (byte) 0 >= (byte) 0, "(byte) 0 >= (byte) 0"); Tester.checkEqual(byteGe((byte) 0, (byte) 1), (byte) 0 >= (byte) 1, "(byte) 0 >= (byte) 1"); Tester.checkEqual(byteGe((byte) 0, Byte.MAX_VALUE), (byte) 0 >= Byte.MAX_VALUE, "(byte) 0 >= Byte.MAX_VALUE"); Tester.checkEqual(byteGe((byte) 1, Byte.MIN_VALUE), (byte) 1 >= Byte.MIN_VALUE, "(byte) 1 >= Byte.MIN_VALUE"); Tester.checkEqual(byteGe((byte) 1, (byte) -1), (byte) 1 >= (byte) -1, "(byte) 1 >= (byte) -1"); Tester.checkEqual(byteGe((byte) 1, (byte) 0), (byte) 1 >= (byte) 0, "(byte) 1 >= (byte) 0"); Tester.checkEqual(byteGe((byte) 1, (byte) 1), (byte) 1 >= (byte) 1, "(byte) 1 >= (byte) 1"); Tester.checkEqual(byteGe((byte) 1, Byte.MAX_VALUE), (byte) 1 >= Byte.MAX_VALUE, "(byte) 1 >= Byte.MAX_VALUE"); Tester.checkEqual(byteGe(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE >= Byte.MIN_VALUE, "Byte.MAX_VALUE >= Byte.MIN_VALUE"); Tester.checkEqual(byteGe(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE >= (byte) -1, "Byte.MAX_VALUE >= (byte) -1"); Tester.checkEqual(byteGe(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE >= (byte) 0, "Byte.MAX_VALUE >= (byte) 0"); Tester.checkEqual(byteGe(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE >= (byte) 1, "Byte.MAX_VALUE >= (byte) 1"); Tester.checkEqual(byteGe(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE >= Byte.MAX_VALUE, "Byte.MAX_VALUE >= Byte.MAX_VALUE"); Tester.checkEqual(byteEq(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE == Byte.MIN_VALUE, "Byte.MIN_VALUE == Byte.MIN_VALUE"); Tester.checkEqual(byteEq(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE == (byte) -1, "Byte.MIN_VALUE == (byte) -1"); Tester.checkEqual(byteEq(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE == (byte) 0, "Byte.MIN_VALUE == (byte) 0"); Tester.checkEqual(byteEq(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE == (byte) 1, "Byte.MIN_VALUE == (byte) 1"); Tester.checkEqual(byteEq(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE == Byte.MAX_VALUE, "Byte.MIN_VALUE == Byte.MAX_VALUE"); Tester.checkEqual(byteEq((byte) -1, Byte.MIN_VALUE), (byte) -1 == Byte.MIN_VALUE, "(byte) -1 == Byte.MIN_VALUE"); Tester.checkEqual(byteEq((byte) -1, (byte) -1), (byte) -1 == (byte) -1, "(byte) -1 == (byte) -1"); Tester.checkEqual(byteEq((byte) -1, (byte) 0), (byte) -1 == (byte) 0, "(byte) -1 == (byte) 0"); Tester.checkEqual(byteEq((byte) -1, (byte) 1), (byte) -1 == (byte) 1, "(byte) -1 == (byte) 1"); Tester.checkEqual(byteEq((byte) -1, Byte.MAX_VALUE), (byte) -1 == Byte.MAX_VALUE, "(byte) -1 == Byte.MAX_VALUE"); Tester.checkEqual(byteEq((byte) 0, Byte.MIN_VALUE), (byte) 0 == Byte.MIN_VALUE, "(byte) 0 == Byte.MIN_VALUE"); Tester.checkEqual(byteEq((byte) 0, (byte) -1), (byte) 0 == (byte) -1, "(byte) 0 == (byte) -1"); Tester.checkEqual(byteEq((byte) 0, (byte) 0), (byte) 0 == (byte) 0, "(byte) 0 == (byte) 0"); Tester.checkEqual(byteEq((byte) 0, (byte) 1), (byte) 0 == (byte) 1, "(byte) 0 == (byte) 1"); Tester.checkEqual(byteEq((byte) 0, Byte.MAX_VALUE), (byte) 0 == Byte.MAX_VALUE, "(byte) 0 == Byte.MAX_VALUE"); Tester.checkEqual(byteEq((byte) 1, Byte.MIN_VALUE), (byte) 1 == Byte.MIN_VALUE, "(byte) 1 == Byte.MIN_VALUE"); Tester.checkEqual(byteEq((byte) 1, (byte) -1), (byte) 1 == (byte) -1, "(byte) 1 == (byte) -1"); Tester.checkEqual(byteEq((byte) 1, (byte) 0), (byte) 1 == (byte) 0, "(byte) 1 == (byte) 0"); Tester.checkEqual(byteEq((byte) 1, (byte) 1), (byte) 1 == (byte) 1, "(byte) 1 == (byte) 1"); Tester.checkEqual(byteEq((byte) 1, Byte.MAX_VALUE), (byte) 1 == Byte.MAX_VALUE, "(byte) 1 == Byte.MAX_VALUE"); Tester.checkEqual(byteEq(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE == Byte.MIN_VALUE, "Byte.MAX_VALUE == Byte.MIN_VALUE"); Tester.checkEqual(byteEq(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE == (byte) -1, "Byte.MAX_VALUE == (byte) -1"); Tester.checkEqual(byteEq(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE == (byte) 0, "Byte.MAX_VALUE == (byte) 0"); Tester.checkEqual(byteEq(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE == (byte) 1, "Byte.MAX_VALUE == (byte) 1"); Tester.checkEqual(byteEq(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE == Byte.MAX_VALUE, "Byte.MAX_VALUE == Byte.MAX_VALUE"); Tester.checkEqual(byteNe(Byte.MIN_VALUE, Byte.MIN_VALUE), Byte.MIN_VALUE != Byte.MIN_VALUE, "Byte.MIN_VALUE != Byte.MIN_VALUE"); Tester.checkEqual(byteNe(Byte.MIN_VALUE, (byte) -1), Byte.MIN_VALUE != (byte) -1, "Byte.MIN_VALUE != (byte) -1"); Tester.checkEqual(byteNe(Byte.MIN_VALUE, (byte) 0), Byte.MIN_VALUE != (byte) 0, "Byte.MIN_VALUE != (byte) 0"); Tester.checkEqual(byteNe(Byte.MIN_VALUE, (byte) 1), Byte.MIN_VALUE != (byte) 1, "Byte.MIN_VALUE != (byte) 1"); Tester.checkEqual(byteNe(Byte.MIN_VALUE, Byte.MAX_VALUE), Byte.MIN_VALUE != Byte.MAX_VALUE, "Byte.MIN_VALUE != Byte.MAX_VALUE"); Tester.checkEqual(byteNe((byte) -1, Byte.MIN_VALUE), (byte) -1 != Byte.MIN_VALUE, "(byte) -1 != Byte.MIN_VALUE"); Tester.checkEqual(byteNe((byte) -1, (byte) -1), (byte) -1 != (byte) -1, "(byte) -1 != (byte) -1"); Tester.checkEqual(byteNe((byte) -1, (byte) 0), (byte) -1 != (byte) 0, "(byte) -1 != (byte) 0"); Tester.checkEqual(byteNe((byte) -1, (byte) 1), (byte) -1 != (byte) 1, "(byte) -1 != (byte) 1"); Tester.checkEqual(byteNe((byte) -1, Byte.MAX_VALUE), (byte) -1 != Byte.MAX_VALUE, "(byte) -1 != Byte.MAX_VALUE"); Tester.checkEqual(byteNe((byte) 0, Byte.MIN_VALUE), (byte) 0 != Byte.MIN_VALUE, "(byte) 0 != Byte.MIN_VALUE"); Tester.checkEqual(byteNe((byte) 0, (byte) -1), (byte) 0 != (byte) -1, "(byte) 0 != (byte) -1"); Tester.checkEqual(byteNe((byte) 0, (byte) 0), (byte) 0 != (byte) 0, "(byte) 0 != (byte) 0"); Tester.checkEqual(byteNe((byte) 0, (byte) 1), (byte) 0 != (byte) 1, "(byte) 0 != (byte) 1"); Tester.checkEqual(byteNe((byte) 0, Byte.MAX_VALUE), (byte) 0 != Byte.MAX_VALUE, "(byte) 0 != Byte.MAX_VALUE"); Tester.checkEqual(byteNe((byte) 1, Byte.MIN_VALUE), (byte) 1 != Byte.MIN_VALUE, "(byte) 1 != Byte.MIN_VALUE"); Tester.checkEqual(byteNe((byte) 1, (byte) -1), (byte) 1 != (byte) -1, "(byte) 1 != (byte) -1"); Tester.checkEqual(byteNe((byte) 1, (byte) 0), (byte) 1 != (byte) 0, "(byte) 1 != (byte) 0"); Tester.checkEqual(byteNe((byte) 1, (byte) 1), (byte) 1 != (byte) 1, "(byte) 1 != (byte) 1"); Tester.checkEqual(byteNe((byte) 1, Byte.MAX_VALUE), (byte) 1 != Byte.MAX_VALUE, "(byte) 1 != Byte.MAX_VALUE"); Tester.checkEqual(byteNe(Byte.MAX_VALUE, Byte.MIN_VALUE), Byte.MAX_VALUE != Byte.MIN_VALUE, "Byte.MAX_VALUE != Byte.MIN_VALUE"); Tester.checkEqual(byteNe(Byte.MAX_VALUE, (byte) -1), Byte.MAX_VALUE != (byte) -1, "Byte.MAX_VALUE != (byte) -1"); Tester.checkEqual(byteNe(Byte.MAX_VALUE, (byte) 0), Byte.MAX_VALUE != (byte) 0, "Byte.MAX_VALUE != (byte) 0"); Tester.checkEqual(byteNe(Byte.MAX_VALUE, (byte) 1), Byte.MAX_VALUE != (byte) 1, "Byte.MAX_VALUE != (byte) 1"); Tester.checkEqual(byteNe(Byte.MAX_VALUE, Byte.MAX_VALUE), Byte.MAX_VALUE != Byte.MAX_VALUE, "Byte.MAX_VALUE != Byte.MAX_VALUE"); Tester.checkEqual(byteAnd(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE & Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE & Byte.MIN_VALUE)"); Tester.checkEqual(byteAnd(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE & (byte) -1), "(byte) (Byte.MIN_VALUE & (byte) -1)"); Tester.checkEqual(byteAnd(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE & (byte) 0), "(byte) (Byte.MIN_VALUE & (byte) 0)"); Tester.checkEqual(byteAnd(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE & (byte) 1), "(byte) (Byte.MIN_VALUE & (byte) 1)"); Tester.checkEqual(byteAnd(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE & Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE & Byte.MAX_VALUE)"); Tester.checkEqual(byteAnd((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 & Byte.MIN_VALUE), "(byte) ((byte) -1 & Byte.MIN_VALUE)"); Tester.checkEqual(byteAnd((byte) -1, (byte) -1), (byte) ((byte) -1 & (byte) -1), "(byte) ((byte) -1 & (byte) -1)"); Tester.checkEqual(byteAnd((byte) -1, (byte) 0), (byte) ((byte) -1 & (byte) 0), "(byte) ((byte) -1 & (byte) 0)"); Tester.checkEqual(byteAnd((byte) -1, (byte) 1), (byte) ((byte) -1 & (byte) 1), "(byte) ((byte) -1 & (byte) 1)"); Tester.checkEqual(byteAnd((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 & Byte.MAX_VALUE), "(byte) ((byte) -1 & Byte.MAX_VALUE)"); Tester.checkEqual(byteAnd((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 & Byte.MIN_VALUE), "(byte) ((byte) 0 & Byte.MIN_VALUE)"); Tester.checkEqual(byteAnd((byte) 0, (byte) -1), (byte) ((byte) 0 & (byte) -1), "(byte) ((byte) 0 & (byte) -1)"); Tester.checkEqual(byteAnd((byte) 0, (byte) 0), (byte) ((byte) 0 & (byte) 0), "(byte) ((byte) 0 & (byte) 0)"); Tester.checkEqual(byteAnd((byte) 0, (byte) 1), (byte) ((byte) 0 & (byte) 1), "(byte) ((byte) 0 & (byte) 1)"); Tester.checkEqual(byteAnd((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 & Byte.MAX_VALUE), "(byte) ((byte) 0 & Byte.MAX_VALUE)"); Tester.checkEqual(byteAnd((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 & Byte.MIN_VALUE), "(byte) ((byte) 1 & Byte.MIN_VALUE)"); Tester.checkEqual(byteAnd((byte) 1, (byte) -1), (byte) ((byte) 1 & (byte) -1), "(byte) ((byte) 1 & (byte) -1)"); Tester.checkEqual(byteAnd((byte) 1, (byte) 0), (byte) ((byte) 1 & (byte) 0), "(byte) ((byte) 1 & (byte) 0)"); Tester.checkEqual(byteAnd((byte) 1, (byte) 1), (byte) ((byte) 1 & (byte) 1), "(byte) ((byte) 1 & (byte) 1)"); Tester.checkEqual(byteAnd((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 & Byte.MAX_VALUE), "(byte) ((byte) 1 & Byte.MAX_VALUE)"); Tester.checkEqual(byteAnd(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE & Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE & Byte.MIN_VALUE)"); Tester.checkEqual(byteAnd(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE & (byte) -1), "(byte) (Byte.MAX_VALUE & (byte) -1)"); Tester.checkEqual(byteAnd(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE & (byte) 0), "(byte) (Byte.MAX_VALUE & (byte) 0)"); Tester.checkEqual(byteAnd(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE & (byte) 1), "(byte) (Byte.MAX_VALUE & (byte) 1)"); Tester.checkEqual(byteAnd(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE & Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE & Byte.MAX_VALUE)"); Tester.checkEqual(byteXor(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE ^ Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE ^ Byte.MIN_VALUE)"); Tester.checkEqual(byteXor(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE ^ (byte) -1), "(byte) (Byte.MIN_VALUE ^ (byte) -1)"); Tester.checkEqual(byteXor(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE ^ (byte) 0), "(byte) (Byte.MIN_VALUE ^ (byte) 0)"); Tester.checkEqual(byteXor(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE ^ (byte) 1), "(byte) (Byte.MIN_VALUE ^ (byte) 1)"); Tester.checkEqual(byteXor(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE ^ Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE ^ Byte.MAX_VALUE)"); Tester.checkEqual(byteXor((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 ^ Byte.MIN_VALUE), "(byte) ((byte) -1 ^ Byte.MIN_VALUE)"); Tester.checkEqual(byteXor((byte) -1, (byte) -1), (byte) ((byte) -1 ^ (byte) -1), "(byte) ((byte) -1 ^ (byte) -1)"); Tester.checkEqual(byteXor((byte) -1, (byte) 0), (byte) ((byte) -1 ^ (byte) 0), "(byte) ((byte) -1 ^ (byte) 0)"); Tester.checkEqual(byteXor((byte) -1, (byte) 1), (byte) ((byte) -1 ^ (byte) 1), "(byte) ((byte) -1 ^ (byte) 1)"); Tester.checkEqual(byteXor((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 ^ Byte.MAX_VALUE), "(byte) ((byte) -1 ^ Byte.MAX_VALUE)"); Tester.checkEqual(byteXor((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 ^ Byte.MIN_VALUE), "(byte) ((byte) 0 ^ Byte.MIN_VALUE)"); Tester.checkEqual(byteXor((byte) 0, (byte) -1), (byte) ((byte) 0 ^ (byte) -1), "(byte) ((byte) 0 ^ (byte) -1)"); Tester.checkEqual(byteXor((byte) 0, (byte) 0), (byte) ((byte) 0 ^ (byte) 0), "(byte) ((byte) 0 ^ (byte) 0)"); Tester.checkEqual(byteXor((byte) 0, (byte) 1), (byte) ((byte) 0 ^ (byte) 1), "(byte) ((byte) 0 ^ (byte) 1)"); Tester.checkEqual(byteXor((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 ^ Byte.MAX_VALUE), "(byte) ((byte) 0 ^ Byte.MAX_VALUE)"); Tester.checkEqual(byteXor((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 ^ Byte.MIN_VALUE), "(byte) ((byte) 1 ^ Byte.MIN_VALUE)"); Tester.checkEqual(byteXor((byte) 1, (byte) -1), (byte) ((byte) 1 ^ (byte) -1), "(byte) ((byte) 1 ^ (byte) -1)"); Tester.checkEqual(byteXor((byte) 1, (byte) 0), (byte) ((byte) 1 ^ (byte) 0), "(byte) ((byte) 1 ^ (byte) 0)"); Tester.checkEqual(byteXor((byte) 1, (byte) 1), (byte) ((byte) 1 ^ (byte) 1), "(byte) ((byte) 1 ^ (byte) 1)"); Tester.checkEqual(byteXor((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 ^ Byte.MAX_VALUE), "(byte) ((byte) 1 ^ Byte.MAX_VALUE)"); Tester.checkEqual(byteXor(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE ^ Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE ^ Byte.MIN_VALUE)"); Tester.checkEqual(byteXor(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE ^ (byte) -1), "(byte) (Byte.MAX_VALUE ^ (byte) -1)"); Tester.checkEqual(byteXor(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE ^ (byte) 0), "(byte) (Byte.MAX_VALUE ^ (byte) 0)"); Tester.checkEqual(byteXor(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE ^ (byte) 1), "(byte) (Byte.MAX_VALUE ^ (byte) 1)"); Tester.checkEqual(byteXor(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE ^ Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE ^ Byte.MAX_VALUE)"); Tester.checkEqual(byteOr(Byte.MIN_VALUE, Byte.MIN_VALUE), (byte) (Byte.MIN_VALUE | Byte.MIN_VALUE), "(byte) (Byte.MIN_VALUE | Byte.MIN_VALUE)"); Tester.checkEqual(byteOr(Byte.MIN_VALUE, (byte) -1), (byte) (Byte.MIN_VALUE | (byte) -1), "(byte) (Byte.MIN_VALUE | (byte) -1)"); Tester.checkEqual(byteOr(Byte.MIN_VALUE, (byte) 0), (byte) (Byte.MIN_VALUE | (byte) 0), "(byte) (Byte.MIN_VALUE | (byte) 0)"); Tester.checkEqual(byteOr(Byte.MIN_VALUE, (byte) 1), (byte) (Byte.MIN_VALUE | (byte) 1), "(byte) (Byte.MIN_VALUE | (byte) 1)"); Tester.checkEqual(byteOr(Byte.MIN_VALUE, Byte.MAX_VALUE), (byte) (Byte.MIN_VALUE | Byte.MAX_VALUE), "(byte) (Byte.MIN_VALUE | Byte.MAX_VALUE)"); Tester.checkEqual(byteOr((byte) -1, Byte.MIN_VALUE), (byte) ((byte) -1 | Byte.MIN_VALUE), "(byte) ((byte) -1 | Byte.MIN_VALUE)"); Tester.checkEqual(byteOr((byte) -1, (byte) -1), (byte) ((byte) -1 | (byte) -1), "(byte) ((byte) -1 | (byte) -1)"); Tester.checkEqual(byteOr((byte) -1, (byte) 0), (byte) ((byte) -1 | (byte) 0), "(byte) ((byte) -1 | (byte) 0)"); Tester.checkEqual(byteOr((byte) -1, (byte) 1), (byte) ((byte) -1 | (byte) 1), "(byte) ((byte) -1 | (byte) 1)"); Tester.checkEqual(byteOr((byte) -1, Byte.MAX_VALUE), (byte) ((byte) -1 | Byte.MAX_VALUE), "(byte) ((byte) -1 | Byte.MAX_VALUE)"); Tester.checkEqual(byteOr((byte) 0, Byte.MIN_VALUE), (byte) ((byte) 0 | Byte.MIN_VALUE), "(byte) ((byte) 0 | Byte.MIN_VALUE)"); Tester.checkEqual(byteOr((byte) 0, (byte) -1), (byte) ((byte) 0 | (byte) -1), "(byte) ((byte) 0 | (byte) -1)"); Tester.checkEqual(byteOr((byte) 0, (byte) 0), (byte) ((byte) 0 | (byte) 0), "(byte) ((byte) 0 | (byte) 0)"); Tester.checkEqual(byteOr((byte) 0, (byte) 1), (byte) ((byte) 0 | (byte) 1), "(byte) ((byte) 0 | (byte) 1)"); Tester.checkEqual(byteOr((byte) 0, Byte.MAX_VALUE), (byte) ((byte) 0 | Byte.MAX_VALUE), "(byte) ((byte) 0 | Byte.MAX_VALUE)"); Tester.checkEqual(byteOr((byte) 1, Byte.MIN_VALUE), (byte) ((byte) 1 | Byte.MIN_VALUE), "(byte) ((byte) 1 | Byte.MIN_VALUE)"); Tester.checkEqual(byteOr((byte) 1, (byte) -1), (byte) ((byte) 1 | (byte) -1), "(byte) ((byte) 1 | (byte) -1)"); Tester.checkEqual(byteOr((byte) 1, (byte) 0), (byte) ((byte) 1 | (byte) 0), "(byte) ((byte) 1 | (byte) 0)"); Tester.checkEqual(byteOr((byte) 1, (byte) 1), (byte) ((byte) 1 | (byte) 1), "(byte) ((byte) 1 | (byte) 1)"); Tester.checkEqual(byteOr((byte) 1, Byte.MAX_VALUE), (byte) ((byte) 1 | Byte.MAX_VALUE), "(byte) ((byte) 1 | Byte.MAX_VALUE)"); Tester.checkEqual(byteOr(Byte.MAX_VALUE, Byte.MIN_VALUE), (byte) (Byte.MAX_VALUE | Byte.MIN_VALUE), "(byte) (Byte.MAX_VALUE | Byte.MIN_VALUE)"); Tester.checkEqual(byteOr(Byte.MAX_VALUE, (byte) -1), (byte) (Byte.MAX_VALUE | (byte) -1), "(byte) (Byte.MAX_VALUE | (byte) -1)"); Tester.checkEqual(byteOr(Byte.MAX_VALUE, (byte) 0), (byte) (Byte.MAX_VALUE | (byte) 0), "(byte) (Byte.MAX_VALUE | (byte) 0)"); Tester.checkEqual(byteOr(Byte.MAX_VALUE, (byte) 1), (byte) (Byte.MAX_VALUE | (byte) 1), "(byte) (Byte.MAX_VALUE | (byte) 1)"); Tester.checkEqual(byteOr(Byte.MAX_VALUE, Byte.MAX_VALUE), (byte) (Byte.MAX_VALUE | Byte.MAX_VALUE), "(byte) (Byte.MAX_VALUE | Byte.MAX_VALUE)"); } static void byteSwitch() { switch(0) { case ((((byte) + Byte.MIN_VALUE) == 0) ? 0 : 0): case ((((byte) + (byte) -1) == 0) ? 1 : 1): case ((((byte) + (byte) 0) == 0) ? 2 : 2): case ((((byte) + (byte) 1) == 0) ? 3 : 3): case ((((byte) + Byte.MAX_VALUE) == 0) ? 4 : 4): case ((((byte) - Byte.MIN_VALUE) == 0) ? 5 : 5): case ((((byte) - (byte) -1) == 0) ? 6 : 6): case ((((byte) - (byte) 0) == 0) ? 7 : 7): case ((((byte) - (byte) 1) == 0) ? 8 : 8): case ((((byte) - Byte.MAX_VALUE) == 0) ? 9 : 9): case ((((byte) ~ Byte.MIN_VALUE) == 0) ? 10 : 10): case ((((byte) ~ (byte) -1) == 0) ? 11 : 11): case ((((byte) ~ (byte) 0) == 0) ? 12 : 12): case ((((byte) ~ (byte) 1) == 0) ? 13 : 13): case ((((byte) ~ Byte.MAX_VALUE) == 0) ? 14 : 14): case ((((byte) (Byte.MIN_VALUE * Byte.MIN_VALUE)) == 0) ? 15 : 15): case ((((byte) (Byte.MIN_VALUE * (byte) -1)) == 0) ? 16 : 16): case ((((byte) (Byte.MIN_VALUE * (byte) 0)) == 0) ? 17 : 17): case ((((byte) (Byte.MIN_VALUE * (byte) 1)) == 0) ? 18 : 18): case ((((byte) (Byte.MIN_VALUE * Byte.MAX_VALUE)) == 0) ? 19 : 19): case ((((byte) ((byte) -1 * Byte.MIN_VALUE)) == 0) ? 20 : 20): case ((((byte) ((byte) -1 * (byte) -1)) == 0) ? 21 : 21): case ((((byte) ((byte) -1 * (byte) 0)) == 0) ? 22 : 22): case ((((byte) ((byte) -1 * (byte) 1)) == 0) ? 23 : 23): case ((((byte) ((byte) -1 * Byte.MAX_VALUE)) == 0) ? 24 : 24): case ((((byte) ((byte) 0 * Byte.MIN_VALUE)) == 0) ? 25 : 25): case ((((byte) ((byte) 0 * (byte) -1)) == 0) ? 26 : 26): case ((((byte) ((byte) 0 * (byte) 0)) == 0) ? 27 : 27): case ((((byte) ((byte) 0 * (byte) 1)) == 0) ? 28 : 28): case ((((byte) ((byte) 0 * Byte.MAX_VALUE)) == 0) ? 29 : 29): case ((((byte) ((byte) 1 * Byte.MIN_VALUE)) == 0) ? 30 : 30): case ((((byte) ((byte) 1 * (byte) -1)) == 0) ? 31 : 31): case ((((byte) ((byte) 1 * (byte) 0)) == 0) ? 32 : 32): case ((((byte) ((byte) 1 * (byte) 1)) == 0) ? 33 : 33): case ((((byte) ((byte) 1 * Byte.MAX_VALUE)) == 0) ? 34 : 34): case ((((byte) (Byte.MAX_VALUE * Byte.MIN_VALUE)) == 0) ? 35 : 35): case ((((byte) (Byte.MAX_VALUE * (byte) -1)) == 0) ? 36 : 36): case ((((byte) (Byte.MAX_VALUE * (byte) 0)) == 0) ? 37 : 37): case ((((byte) (Byte.MAX_VALUE * (byte) 1)) == 0) ? 38 : 38): case ((((byte) (Byte.MAX_VALUE * Byte.MAX_VALUE)) == 0) ? 39 : 39): case ((((byte) (Byte.MIN_VALUE / Byte.MIN_VALUE)) == 0) ? 40 : 40): case ((((byte) (Byte.MIN_VALUE / (byte) -1)) == 0) ? 41 : 41): case ((((byte) (Byte.MIN_VALUE / (byte) 1)) == 0) ? 42 : 42): case ((((byte) (Byte.MIN_VALUE / Byte.MAX_VALUE)) == 0) ? 43 : 43): case ((((byte) ((byte) -1 / Byte.MIN_VALUE)) == 0) ? 44 : 44): case ((((byte) ((byte) -1 / (byte) -1)) == 0) ? 45 : 45): case ((((byte) ((byte) -1 / (byte) 1)) == 0) ? 46 : 46): case ((((byte) ((byte) -1 / Byte.MAX_VALUE)) == 0) ? 47 : 47): case ((((byte) ((byte) 0 / Byte.MIN_VALUE)) == 0) ? 48 : 48): case ((((byte) ((byte) 0 / (byte) -1)) == 0) ? 49 : 49): case ((((byte) ((byte) 0 / (byte) 1)) == 0) ? 50 : 50): case ((((byte) ((byte) 0 / Byte.MAX_VALUE)) == 0) ? 51 : 51): case ((((byte) ((byte) 1 / Byte.MIN_VALUE)) == 0) ? 52 : 52): case ((((byte) ((byte) 1 / (byte) -1)) == 0) ? 53 : 53): case ((((byte) ((byte) 1 / (byte) 1)) == 0) ? 54 : 54): case ((((byte) ((byte) 1 / Byte.MAX_VALUE)) == 0) ? 55 : 55): case ((((byte) (Byte.MAX_VALUE / Byte.MIN_VALUE)) == 0) ? 56 : 56): case ((((byte) (Byte.MAX_VALUE / (byte) -1)) == 0) ? 57 : 57): case ((((byte) (Byte.MAX_VALUE / (byte) 1)) == 0) ? 58 : 58): case ((((byte) (Byte.MAX_VALUE / Byte.MAX_VALUE)) == 0) ? 59 : 59): case ((((byte) (Byte.MIN_VALUE % Byte.MIN_VALUE)) == 0) ? 60 : 60): case ((((byte) (Byte.MIN_VALUE % (byte) -1)) == 0) ? 61 : 61): case ((((byte) (Byte.MIN_VALUE % (byte) 1)) == 0) ? 62 : 62): case ((((byte) (Byte.MIN_VALUE % Byte.MAX_VALUE)) == 0) ? 63 : 63): case ((((byte) ((byte) -1 % Byte.MIN_VALUE)) == 0) ? 64 : 64): case ((((byte) ((byte) -1 % (byte) -1)) == 0) ? 65 : 65): case ((((byte) ((byte) -1 % (byte) 1)) == 0) ? 66 : 66): case ((((byte) ((byte) -1 % Byte.MAX_VALUE)) == 0) ? 67 : 67): case ((((byte) ((byte) 0 % Byte.MIN_VALUE)) == 0) ? 68 : 68): case ((((byte) ((byte) 0 % (byte) -1)) == 0) ? 69 : 69): case ((((byte) ((byte) 0 % (byte) 1)) == 0) ? 70 : 70): case ((((byte) ((byte) 0 % Byte.MAX_VALUE)) == 0) ? 71 : 71): case ((((byte) ((byte) 1 % Byte.MIN_VALUE)) == 0) ? 72 : 72): case ((((byte) ((byte) 1 % (byte) -1)) == 0) ? 73 : 73): case ((((byte) ((byte) 1 % (byte) 1)) == 0) ? 74 : 74): case ((((byte) ((byte) 1 % Byte.MAX_VALUE)) == 0) ? 75 : 75): case ((((byte) (Byte.MAX_VALUE % Byte.MIN_VALUE)) == 0) ? 76 : 76): case ((((byte) (Byte.MAX_VALUE % (byte) -1)) == 0) ? 77 : 77): case ((((byte) (Byte.MAX_VALUE % (byte) 1)) == 0) ? 78 : 78): case ((((byte) (Byte.MAX_VALUE % Byte.MAX_VALUE)) == 0) ? 79 : 79): case ((((byte) (Byte.MIN_VALUE + Byte.MIN_VALUE)) == 0) ? 80 : 80): case ((((byte) (Byte.MIN_VALUE + (byte) -1)) == 0) ? 81 : 81): case ((((byte) (Byte.MIN_VALUE + (byte) 0)) == 0) ? 82 : 82): case ((((byte) (Byte.MIN_VALUE + (byte) 1)) == 0) ? 83 : 83): case ((((byte) (Byte.MIN_VALUE + Byte.MAX_VALUE)) == 0) ? 84 : 84): case ((((byte) ((byte) -1 + Byte.MIN_VALUE)) == 0) ? 85 : 85): case ((((byte) ((byte) -1 + (byte) -1)) == 0) ? 86 : 86): case ((((byte) ((byte) -1 + (byte) 0)) == 0) ? 87 : 87): case ((((byte) ((byte) -1 + (byte) 1)) == 0) ? 88 : 88): case ((((byte) ((byte) -1 + Byte.MAX_VALUE)) == 0) ? 89 : 89): case ((((byte) ((byte) 0 + Byte.MIN_VALUE)) == 0) ? 90 : 90): case ((((byte) ((byte) 0 + (byte) -1)) == 0) ? 91 : 91): case ((((byte) ((byte) 0 + (byte) 0)) == 0) ? 92 : 92): case ((((byte) ((byte) 0 + (byte) 1)) == 0) ? 93 : 93): case ((((byte) ((byte) 0 + Byte.MAX_VALUE)) == 0) ? 94 : 94): case ((((byte) ((byte) 1 + Byte.MIN_VALUE)) == 0) ? 95 : 95): case ((((byte) ((byte) 1 + (byte) -1)) == 0) ? 96 : 96): case ((((byte) ((byte) 1 + (byte) 0)) == 0) ? 97 : 97): case ((((byte) ((byte) 1 + (byte) 1)) == 0) ? 98 : 98): case ((((byte) ((byte) 1 + Byte.MAX_VALUE)) == 0) ? 99 : 99): case ((((byte) (Byte.MAX_VALUE + Byte.MIN_VALUE)) == 0) ? 100 : 100): case ((((byte) (Byte.MAX_VALUE + (byte) -1)) == 0) ? 101 : 101): case ((((byte) (Byte.MAX_VALUE + (byte) 0)) == 0) ? 102 : 102): case ((((byte) (Byte.MAX_VALUE + (byte) 1)) == 0) ? 103 : 103): case ((((byte) (Byte.MAX_VALUE + Byte.MAX_VALUE)) == 0) ? 104 : 104): case ((((byte) (Byte.MIN_VALUE - Byte.MIN_VALUE)) == 0) ? 105 : 105): case ((((byte) (Byte.MIN_VALUE - (byte) -1)) == 0) ? 106 : 106): case ((((byte) (Byte.MIN_VALUE - (byte) 0)) == 0) ? 107 : 107): case ((((byte) (Byte.MIN_VALUE - (byte) 1)) == 0) ? 108 : 108): case ((((byte) (Byte.MIN_VALUE - Byte.MAX_VALUE)) == 0) ? 109 : 109): case ((((byte) ((byte) -1 - Byte.MIN_VALUE)) == 0) ? 110 : 110): case ((((byte) ((byte) -1 - (byte) -1)) == 0) ? 111 : 111): case ((((byte) ((byte) -1 - (byte) 0)) == 0) ? 112 : 112): case ((((byte) ((byte) -1 - (byte) 1)) == 0) ? 113 : 113): case ((((byte) ((byte) -1 - Byte.MAX_VALUE)) == 0) ? 114 : 114): case ((((byte) ((byte) 0 - Byte.MIN_VALUE)) == 0) ? 115 : 115): case ((((byte) ((byte) 0 - (byte) -1)) == 0) ? 116 : 116): case ((((byte) ((byte) 0 - (byte) 0)) == 0) ? 117 : 117): case ((((byte) ((byte) 0 - (byte) 1)) == 0) ? 118 : 118): case ((((byte) ((byte) 0 - Byte.MAX_VALUE)) == 0) ? 119 : 119): case ((((byte) ((byte) 1 - Byte.MIN_VALUE)) == 0) ? 120 : 120): case ((((byte) ((byte) 1 - (byte) -1)) == 0) ? 121 : 121): case ((((byte) ((byte) 1 - (byte) 0)) == 0) ? 122 : 122): case ((((byte) ((byte) 1 - (byte) 1)) == 0) ? 123 : 123): case ((((byte) ((byte) 1 - Byte.MAX_VALUE)) == 0) ? 124 : 124): case ((((byte) (Byte.MAX_VALUE - Byte.MIN_VALUE)) == 0) ? 125 : 125): case ((((byte) (Byte.MAX_VALUE - (byte) -1)) == 0) ? 126 : 126): case ((((byte) (Byte.MAX_VALUE - (byte) 0)) == 0) ? 127 : 127): case ((((byte) (Byte.MAX_VALUE - (byte) 1)) == 0) ? 128 : 128): case ((((byte) (Byte.MAX_VALUE - Byte.MAX_VALUE)) == 0) ? 129 : 129): case ((((byte) (Byte.MIN_VALUE << Byte.MIN_VALUE)) == 0) ? 130 : 130): case ((((byte) (Byte.MIN_VALUE << (byte) -1)) == 0) ? 131 : 131): case ((((byte) (Byte.MIN_VALUE << (byte) 0)) == 0) ? 132 : 132): case ((((byte) (Byte.MIN_VALUE << (byte) 1)) == 0) ? 133 : 133): case ((((byte) (Byte.MIN_VALUE << Byte.MAX_VALUE)) == 0) ? 134 : 134): case ((((byte) ((byte) -1 << Byte.MIN_VALUE)) == 0) ? 135 : 135): case ((((byte) ((byte) -1 << (byte) -1)) == 0) ? 136 : 136): case ((((byte) ((byte) -1 << (byte) 0)) == 0) ? 137 : 137): case ((((byte) ((byte) -1 << (byte) 1)) == 0) ? 138 : 138): case ((((byte) ((byte) -1 << Byte.MAX_VALUE)) == 0) ? 139 : 139): case ((((byte) ((byte) 0 << Byte.MIN_VALUE)) == 0) ? 140 : 140): case ((((byte) ((byte) 0 << (byte) -1)) == 0) ? 141 : 141): case ((((byte) ((byte) 0 << (byte) 0)) == 0) ? 142 : 142): case ((((byte) ((byte) 0 << (byte) 1)) == 0) ? 143 : 143): case ((((byte) ((byte) 0 << Byte.MAX_VALUE)) == 0) ? 144 : 144): case ((((byte) ((byte) 1 << Byte.MIN_VALUE)) == 0) ? 145 : 145): case ((((byte) ((byte) 1 << (byte) -1)) == 0) ? 146 : 146): case ((((byte) ((byte) 1 << (byte) 0)) == 0) ? 147 : 147): case ((((byte) ((byte) 1 << (byte) 1)) == 0) ? 148 : 148): case ((((byte) ((byte) 1 << Byte.MAX_VALUE)) == 0) ? 149 : 149): case ((((byte) (Byte.MAX_VALUE << Byte.MIN_VALUE)) == 0) ? 150 : 150): case ((((byte) (Byte.MAX_VALUE << (byte) -1)) == 0) ? 151 : 151): case ((((byte) (Byte.MAX_VALUE << (byte) 0)) == 0) ? 152 : 152): case ((((byte) (Byte.MAX_VALUE << (byte) 1)) == 0) ? 153 : 153): case ((((byte) (Byte.MAX_VALUE << Byte.MAX_VALUE)) == 0) ? 154 : 154): case ((((byte) (Byte.MIN_VALUE >> Byte.MIN_VALUE)) == 0) ? 155 : 155): case ((((byte) (Byte.MIN_VALUE >> (byte) -1)) == 0) ? 156 : 156): case ((((byte) (Byte.MIN_VALUE >> (byte) 0)) == 0) ? 157 : 157): case ((((byte) (Byte.MIN_VALUE >> (byte) 1)) == 0) ? 158 : 158): case ((((byte) (Byte.MIN_VALUE >> Byte.MAX_VALUE)) == 0) ? 159 : 159): case ((((byte) ((byte) -1 >> Byte.MIN_VALUE)) == 0) ? 160 : 160): case ((((byte) ((byte) -1 >> (byte) -1)) == 0) ? 161 : 161): case ((((byte) ((byte) -1 >> (byte) 0)) == 0) ? 162 : 162): case ((((byte) ((byte) -1 >> (byte) 1)) == 0) ? 163 : 163): case ((((byte) ((byte) -1 >> Byte.MAX_VALUE)) == 0) ? 164 : 164): case ((((byte) ((byte) 0 >> Byte.MIN_VALUE)) == 0) ? 165 : 165): case ((((byte) ((byte) 0 >> (byte) -1)) == 0) ? 166 : 166): case ((((byte) ((byte) 0 >> (byte) 0)) == 0) ? 167 : 167): case ((((byte) ((byte) 0 >> (byte) 1)) == 0) ? 168 : 168): case ((((byte) ((byte) 0 >> Byte.MAX_VALUE)) == 0) ? 169 : 169): case ((((byte) ((byte) 1 >> Byte.MIN_VALUE)) == 0) ? 170 : 170): case ((((byte) ((byte) 1 >> (byte) -1)) == 0) ? 171 : 171): case ((((byte) ((byte) 1 >> (byte) 0)) == 0) ? 172 : 172): case ((((byte) ((byte) 1 >> (byte) 1)) == 0) ? 173 : 173): case ((((byte) ((byte) 1 >> Byte.MAX_VALUE)) == 0) ? 174 : 174): case ((((byte) (Byte.MAX_VALUE >> Byte.MIN_VALUE)) == 0) ? 175 : 175): case ((((byte) (Byte.MAX_VALUE >> (byte) -1)) == 0) ? 176 : 176): case ((((byte) (Byte.MAX_VALUE >> (byte) 0)) == 0) ? 177 : 177): case ((((byte) (Byte.MAX_VALUE >> (byte) 1)) == 0) ? 178 : 178): case ((((byte) (Byte.MAX_VALUE >> Byte.MAX_VALUE)) == 0) ? 179 : 179): case ((((byte) (Byte.MIN_VALUE >>> Byte.MIN_VALUE)) == 0) ? 180 : 180): case ((((byte) (Byte.MIN_VALUE >>> (byte) -1)) == 0) ? 181 : 181): case ((((byte) (Byte.MIN_VALUE >>> (byte) 0)) == 0) ? 182 : 182): case ((((byte) (Byte.MIN_VALUE >>> (byte) 1)) == 0) ? 183 : 183): case ((((byte) (Byte.MIN_VALUE >>> Byte.MAX_VALUE)) == 0) ? 184 : 184): case ((((byte) ((byte) -1 >>> Byte.MIN_VALUE)) == 0) ? 185 : 185): case ((((byte) ((byte) -1 >>> (byte) -1)) == 0) ? 186 : 186): case ((((byte) ((byte) -1 >>> (byte) 0)) == 0) ? 187 : 187): case ((((byte) ((byte) -1 >>> (byte) 1)) == 0) ? 188 : 188): case ((((byte) ((byte) -1 >>> Byte.MAX_VALUE)) == 0) ? 189 : 189): case ((((byte) ((byte) 0 >>> Byte.MIN_VALUE)) == 0) ? 190 : 190): case ((((byte) ((byte) 0 >>> (byte) -1)) == 0) ? 191 : 191): case ((((byte) ((byte) 0 >>> (byte) 0)) == 0) ? 192 : 192): case ((((byte) ((byte) 0 >>> (byte) 1)) == 0) ? 193 : 193): case ((((byte) ((byte) 0 >>> Byte.MAX_VALUE)) == 0) ? 194 : 194): case ((((byte) ((byte) 1 >>> Byte.MIN_VALUE)) == 0) ? 195 : 195): case ((((byte) ((byte) 1 >>> (byte) -1)) == 0) ? 196 : 196): case ((((byte) ((byte) 1 >>> (byte) 0)) == 0) ? 197 : 197): case ((((byte) ((byte) 1 >>> (byte) 1)) == 0) ? 198 : 198): case ((((byte) ((byte) 1 >>> Byte.MAX_VALUE)) == 0) ? 199 : 199): case ((((byte) (Byte.MAX_VALUE >>> Byte.MIN_VALUE)) == 0) ? 200 : 200): case ((((byte) (Byte.MAX_VALUE >>> (byte) -1)) == 0) ? 201 : 201): case ((((byte) (Byte.MAX_VALUE >>> (byte) 0)) == 0) ? 202 : 202): case ((((byte) (Byte.MAX_VALUE >>> (byte) 1)) == 0) ? 203 : 203): case ((((byte) (Byte.MAX_VALUE >>> Byte.MAX_VALUE)) == 0) ? 204 : 204): case ((Byte.MIN_VALUE < Byte.MIN_VALUE) ? 205 : 205): case ((Byte.MIN_VALUE < (byte) -1) ? 206 : 206): case ((Byte.MIN_VALUE < (byte) 0) ? 207 : 207): case ((Byte.MIN_VALUE < (byte) 1) ? 208 : 208): case ((Byte.MIN_VALUE < Byte.MAX_VALUE) ? 209 : 209): case (((byte) -1 < Byte.MIN_VALUE) ? 210 : 210): case (((byte) -1 < (byte) -1) ? 211 : 211): case (((byte) -1 < (byte) 0) ? 212 : 212): case (((byte) -1 < (byte) 1) ? 213 : 213): case (((byte) -1 < Byte.MAX_VALUE) ? 214 : 214): case (((byte) 0 < Byte.MIN_VALUE) ? 215 : 215): case (((byte) 0 < (byte) -1) ? 216 : 216): case (((byte) 0 < (byte) 0) ? 217 : 217): case (((byte) 0 < (byte) 1) ? 218 : 218): case (((byte) 0 < Byte.MAX_VALUE) ? 219 : 219): case (((byte) 1 < Byte.MIN_VALUE) ? 220 : 220): case (((byte) 1 < (byte) -1) ? 221 : 221): case (((byte) 1 < (byte) 0) ? 222 : 222): case (((byte) 1 < (byte) 1) ? 223 : 223): case (((byte) 1 < Byte.MAX_VALUE) ? 224 : 224): case ((Byte.MAX_VALUE < Byte.MIN_VALUE) ? 225 : 225): case ((Byte.MAX_VALUE < (byte) -1) ? 226 : 226): case ((Byte.MAX_VALUE < (byte) 0) ? 227 : 227): case ((Byte.MAX_VALUE < (byte) 1) ? 228 : 228): case ((Byte.MAX_VALUE < Byte.MAX_VALUE) ? 229 : 229): case ((Byte.MIN_VALUE > Byte.MIN_VALUE) ? 230 : 230): case ((Byte.MIN_VALUE > (byte) -1) ? 231 : 231): case ((Byte.MIN_VALUE > (byte) 0) ? 232 : 232): case ((Byte.MIN_VALUE > (byte) 1) ? 233 : 233): case ((Byte.MIN_VALUE > Byte.MAX_VALUE) ? 234 : 234): case (((byte) -1 > Byte.MIN_VALUE) ? 235 : 235): case (((byte) -1 > (byte) -1) ? 236 : 236): case (((byte) -1 > (byte) 0) ? 237 : 237): case (((byte) -1 > (byte) 1) ? 238 : 238): case (((byte) -1 > Byte.MAX_VALUE) ? 239 : 239): case (((byte) 0 > Byte.MIN_VALUE) ? 240 : 240): case (((byte) 0 > (byte) -1) ? 241 : 241): case (((byte) 0 > (byte) 0) ? 242 : 242): case (((byte) 0 > (byte) 1) ? 243 : 243): case (((byte) 0 > Byte.MAX_VALUE) ? 244 : 244): case (((byte) 1 > Byte.MIN_VALUE) ? 245 : 245): case (((byte) 1 > (byte) -1) ? 246 : 246): case (((byte) 1 > (byte) 0) ? 247 : 247): case (((byte) 1 > (byte) 1) ? 248 : 248): case (((byte) 1 > Byte.MAX_VALUE) ? 249 : 249): case ((Byte.MAX_VALUE > Byte.MIN_VALUE) ? 250 : 250): case ((Byte.MAX_VALUE > (byte) -1) ? 251 : 251): case ((Byte.MAX_VALUE > (byte) 0) ? 252 : 252): case ((Byte.MAX_VALUE > (byte) 1) ? 253 : 253): case ((Byte.MAX_VALUE > Byte.MAX_VALUE) ? 254 : 254): case ((Byte.MIN_VALUE <= Byte.MIN_VALUE) ? 255 : 255): case ((Byte.MIN_VALUE <= (byte) -1) ? 256 : 256): case ((Byte.MIN_VALUE <= (byte) 0) ? 257 : 257): case ((Byte.MIN_VALUE <= (byte) 1) ? 258 : 258): case ((Byte.MIN_VALUE <= Byte.MAX_VALUE) ? 259 : 259): case (((byte) -1 <= Byte.MIN_VALUE) ? 260 : 260): case (((byte) -1 <= (byte) -1) ? 261 : 261): case (((byte) -1 <= (byte) 0) ? 262 : 262): case (((byte) -1 <= (byte) 1) ? 263 : 263): case (((byte) -1 <= Byte.MAX_VALUE) ? 264 : 264): case (((byte) 0 <= Byte.MIN_VALUE) ? 265 : 265): case (((byte) 0 <= (byte) -1) ? 266 : 266): case (((byte) 0 <= (byte) 0) ? 267 : 267): case (((byte) 0 <= (byte) 1) ? 268 : 268): case (((byte) 0 <= Byte.MAX_VALUE) ? 269 : 269): case (((byte) 1 <= Byte.MIN_VALUE) ? 270 : 270): case (((byte) 1 <= (byte) -1) ? 271 : 271): case (((byte) 1 <= (byte) 0) ? 272 : 272): case (((byte) 1 <= (byte) 1) ? 273 : 273): case (((byte) 1 <= Byte.MAX_VALUE) ? 274 : 274): case ((Byte.MAX_VALUE <= Byte.MIN_VALUE) ? 275 : 275): case ((Byte.MAX_VALUE <= (byte) -1) ? 276 : 276): case ((Byte.MAX_VALUE <= (byte) 0) ? 277 : 277): case ((Byte.MAX_VALUE <= (byte) 1) ? 278 : 278): case ((Byte.MAX_VALUE <= Byte.MAX_VALUE) ? 279 : 279): case ((Byte.MIN_VALUE >= Byte.MIN_VALUE) ? 280 : 280): case ((Byte.MIN_VALUE >= (byte) -1) ? 281 : 281): case ((Byte.MIN_VALUE >= (byte) 0) ? 282 : 282): case ((Byte.MIN_VALUE >= (byte) 1) ? 283 : 283): case ((Byte.MIN_VALUE >= Byte.MAX_VALUE) ? 284 : 284): case (((byte) -1 >= Byte.MIN_VALUE) ? 285 : 285): case (((byte) -1 >= (byte) -1) ? 286 : 286): case (((byte) -1 >= (byte) 0) ? 287 : 287): case (((byte) -1 >= (byte) 1) ? 288 : 288): case (((byte) -1 >= Byte.MAX_VALUE) ? 289 : 289): case (((byte) 0 >= Byte.MIN_VALUE) ? 290 : 290): case (((byte) 0 >= (byte) -1) ? 291 : 291): case (((byte) 0 >= (byte) 0) ? 292 : 292): case (((byte) 0 >= (byte) 1) ? 293 : 293): case (((byte) 0 >= Byte.MAX_VALUE) ? 294 : 294): case (((byte) 1 >= Byte.MIN_VALUE) ? 295 : 295): case (((byte) 1 >= (byte) -1) ? 296 : 296): case (((byte) 1 >= (byte) 0) ? 297 : 297): case (((byte) 1 >= (byte) 1) ? 298 : 298): case (((byte) 1 >= Byte.MAX_VALUE) ? 299 : 299): case ((Byte.MAX_VALUE >= Byte.MIN_VALUE) ? 300 : 300): case ((Byte.MAX_VALUE >= (byte) -1) ? 301 : 301): case ((Byte.MAX_VALUE >= (byte) 0) ? 302 : 302): case ((Byte.MAX_VALUE >= (byte) 1) ? 303 : 303): case ((Byte.MAX_VALUE >= Byte.MAX_VALUE) ? 304 : 304): case ((Byte.MIN_VALUE == Byte.MIN_VALUE) ? 305 : 305): case ((Byte.MIN_VALUE == (byte) -1) ? 306 : 306): case ((Byte.MIN_VALUE == (byte) 0) ? 307 : 307): case ((Byte.MIN_VALUE == (byte) 1) ? 308 : 308): case ((Byte.MIN_VALUE == Byte.MAX_VALUE) ? 309 : 309): case (((byte) -1 == Byte.MIN_VALUE) ? 310 : 310): case (((byte) -1 == (byte) -1) ? 311 : 311): case (((byte) -1 == (byte) 0) ? 312 : 312): case (((byte) -1 == (byte) 1) ? 313 : 313): case (((byte) -1 == Byte.MAX_VALUE) ? 314 : 314): case (((byte) 0 == Byte.MIN_VALUE) ? 315 : 315): case (((byte) 0 == (byte) -1) ? 316 : 316): case (((byte) 0 == (byte) 0) ? 317 : 317): case (((byte) 0 == (byte) 1) ? 318 : 318): case (((byte) 0 == Byte.MAX_VALUE) ? 319 : 319): case (((byte) 1 == Byte.MIN_VALUE) ? 320 : 320): case (((byte) 1 == (byte) -1) ? 321 : 321): case (((byte) 1 == (byte) 0) ? 322 : 322): case (((byte) 1 == (byte) 1) ? 323 : 323): case (((byte) 1 == Byte.MAX_VALUE) ? 324 : 324): case ((Byte.MAX_VALUE == Byte.MIN_VALUE) ? 325 : 325): case ((Byte.MAX_VALUE == (byte) -1) ? 326 : 326): case ((Byte.MAX_VALUE == (byte) 0) ? 327 : 327): case ((Byte.MAX_VALUE == (byte) 1) ? 328 : 328): case ((Byte.MAX_VALUE == Byte.MAX_VALUE) ? 329 : 329): case ((Byte.MIN_VALUE != Byte.MIN_VALUE) ? 330 : 330): case ((Byte.MIN_VALUE != (byte) -1) ? 331 : 331): case ((Byte.MIN_VALUE != (byte) 0) ? 332 : 332): case ((Byte.MIN_VALUE != (byte) 1) ? 333 : 333): case ((Byte.MIN_VALUE != Byte.MAX_VALUE) ? 334 : 334): case (((byte) -1 != Byte.MIN_VALUE) ? 335 : 335): case (((byte) -1 != (byte) -1) ? 336 : 336): case (((byte) -1 != (byte) 0) ? 337 : 337): case (((byte) -1 != (byte) 1) ? 338 : 338): case (((byte) -1 != Byte.MAX_VALUE) ? 339 : 339): case (((byte) 0 != Byte.MIN_VALUE) ? 340 : 340): case (((byte) 0 != (byte) -1) ? 341 : 341): case (((byte) 0 != (byte) 0) ? 342 : 342): case (((byte) 0 != (byte) 1) ? 343 : 343): case (((byte) 0 != Byte.MAX_VALUE) ? 344 : 344): case (((byte) 1 != Byte.MIN_VALUE) ? 345 : 345): case (((byte) 1 != (byte) -1) ? 346 : 346): case (((byte) 1 != (byte) 0) ? 347 : 347): case (((byte) 1 != (byte) 1) ? 348 : 348): case (((byte) 1 != Byte.MAX_VALUE) ? 349 : 349): case ((Byte.MAX_VALUE != Byte.MIN_VALUE) ? 350 : 350): case ((Byte.MAX_VALUE != (byte) -1) ? 351 : 351): case ((Byte.MAX_VALUE != (byte) 0) ? 352 : 352): case ((Byte.MAX_VALUE != (byte) 1) ? 353 : 353): case ((Byte.MAX_VALUE != Byte.MAX_VALUE) ? 354 : 354): case ((((byte) (Byte.MIN_VALUE & Byte.MIN_VALUE)) == 0) ? 355 : 355): case ((((byte) (Byte.MIN_VALUE & (byte) -1)) == 0) ? 356 : 356): case ((((byte) (Byte.MIN_VALUE & (byte) 0)) == 0) ? 357 : 357): case ((((byte) (Byte.MIN_VALUE & (byte) 1)) == 0) ? 358 : 358): case ((((byte) (Byte.MIN_VALUE & Byte.MAX_VALUE)) == 0) ? 359 : 359): case ((((byte) ((byte) -1 & Byte.MIN_VALUE)) == 0) ? 360 : 360): case ((((byte) ((byte) -1 & (byte) -1)) == 0) ? 361 : 361): case ((((byte) ((byte) -1 & (byte) 0)) == 0) ? 362 : 362): case ((((byte) ((byte) -1 & (byte) 1)) == 0) ? 363 : 363): case ((((byte) ((byte) -1 & Byte.MAX_VALUE)) == 0) ? 364 : 364): case ((((byte) ((byte) 0 & Byte.MIN_VALUE)) == 0) ? 365 : 365): case ((((byte) ((byte) 0 & (byte) -1)) == 0) ? 366 : 366): case ((((byte) ((byte) 0 & (byte) 0)) == 0) ? 367 : 367): case ((((byte) ((byte) 0 & (byte) 1)) == 0) ? 368 : 368): case ((((byte) ((byte) 0 & Byte.MAX_VALUE)) == 0) ? 369 : 369): case ((((byte) ((byte) 1 & Byte.MIN_VALUE)) == 0) ? 370 : 370): case ((((byte) ((byte) 1 & (byte) -1)) == 0) ? 371 : 371): case ((((byte) ((byte) 1 & (byte) 0)) == 0) ? 372 : 372): case ((((byte) ((byte) 1 & (byte) 1)) == 0) ? 373 : 373): case ((((byte) ((byte) 1 & Byte.MAX_VALUE)) == 0) ? 374 : 374): case ((((byte) (Byte.MAX_VALUE & Byte.MIN_VALUE)) == 0) ? 375 : 375): case ((((byte) (Byte.MAX_VALUE & (byte) -1)) == 0) ? 376 : 376): case ((((byte) (Byte.MAX_VALUE & (byte) 0)) == 0) ? 377 : 377): case ((((byte) (Byte.MAX_VALUE & (byte) 1)) == 0) ? 378 : 378): case ((((byte) (Byte.MAX_VALUE & Byte.MAX_VALUE)) == 0) ? 379 : 379): case ((((byte) (Byte.MIN_VALUE ^ Byte.MIN_VALUE)) == 0) ? 380 : 380): case ((((byte) (Byte.MIN_VALUE ^ (byte) -1)) == 0) ? 381 : 381): case ((((byte) (Byte.MIN_VALUE ^ (byte) 0)) == 0) ? 382 : 382): case ((((byte) (Byte.MIN_VALUE ^ (byte) 1)) == 0) ? 383 : 383): case ((((byte) (Byte.MIN_VALUE ^ Byte.MAX_VALUE)) == 0) ? 384 : 384): case ((((byte) ((byte) -1 ^ Byte.MIN_VALUE)) == 0) ? 385 : 385): case ((((byte) ((byte) -1 ^ (byte) -1)) == 0) ? 386 : 386): case ((((byte) ((byte) -1 ^ (byte) 0)) == 0) ? 387 : 387): case ((((byte) ((byte) -1 ^ (byte) 1)) == 0) ? 388 : 388): case ((((byte) ((byte) -1 ^ Byte.MAX_VALUE)) == 0) ? 389 : 389): case ((((byte) ((byte) 0 ^ Byte.MIN_VALUE)) == 0) ? 390 : 390): case ((((byte) ((byte) 0 ^ (byte) -1)) == 0) ? 391 : 391): case ((((byte) ((byte) 0 ^ (byte) 0)) == 0) ? 392 : 392): case ((((byte) ((byte) 0 ^ (byte) 1)) == 0) ? 393 : 393): case ((((byte) ((byte) 0 ^ Byte.MAX_VALUE)) == 0) ? 394 : 394): case ((((byte) ((byte) 1 ^ Byte.MIN_VALUE)) == 0) ? 395 : 395): case ((((byte) ((byte) 1 ^ (byte) -1)) == 0) ? 396 : 396): case ((((byte) ((byte) 1 ^ (byte) 0)) == 0) ? 397 : 397): case ((((byte) ((byte) 1 ^ (byte) 1)) == 0) ? 398 : 398): case ((((byte) ((byte) 1 ^ Byte.MAX_VALUE)) == 0) ? 399 : 399): case ((((byte) (Byte.MAX_VALUE ^ Byte.MIN_VALUE)) == 0) ? 400 : 400): case ((((byte) (Byte.MAX_VALUE ^ (byte) -1)) == 0) ? 401 : 401): case ((((byte) (Byte.MAX_VALUE ^ (byte) 0)) == 0) ? 402 : 402): case ((((byte) (Byte.MAX_VALUE ^ (byte) 1)) == 0) ? 403 : 403): case ((((byte) (Byte.MAX_VALUE ^ Byte.MAX_VALUE)) == 0) ? 404 : 404): case ((((byte) (Byte.MIN_VALUE | Byte.MIN_VALUE)) == 0) ? 405 : 405): case ((((byte) (Byte.MIN_VALUE | (byte) -1)) == 0) ? 406 : 406): case ((((byte) (Byte.MIN_VALUE | (byte) 0)) == 0) ? 407 : 407): case ((((byte) (Byte.MIN_VALUE | (byte) 1)) == 0) ? 408 : 408): case ((((byte) (Byte.MIN_VALUE | Byte.MAX_VALUE)) == 0) ? 409 : 409): case ((((byte) ((byte) -1 | Byte.MIN_VALUE)) == 0) ? 410 : 410): case ((((byte) ((byte) -1 | (byte) -1)) == 0) ? 411 : 411): case ((((byte) ((byte) -1 | (byte) 0)) == 0) ? 412 : 412): case ((((byte) ((byte) -1 | (byte) 1)) == 0) ? 413 : 413): case ((((byte) ((byte) -1 | Byte.MAX_VALUE)) == 0) ? 414 : 414): case ((((byte) ((byte) 0 | Byte.MIN_VALUE)) == 0) ? 415 : 415): case ((((byte) ((byte) 0 | (byte) -1)) == 0) ? 416 : 416): case ((((byte) ((byte) 0 | (byte) 0)) == 0) ? 417 : 417): case ((((byte) ((byte) 0 | (byte) 1)) == 0) ? 418 : 418): case ((((byte) ((byte) 0 | Byte.MAX_VALUE)) == 0) ? 419 : 419): case ((((byte) ((byte) 1 | Byte.MIN_VALUE)) == 0) ? 420 : 420): case ((((byte) ((byte) 1 | (byte) -1)) == 0) ? 421 : 421): case ((((byte) ((byte) 1 | (byte) 0)) == 0) ? 422 : 422): case ((((byte) ((byte) 1 | (byte) 1)) == 0) ? 423 : 423): case ((((byte) ((byte) 1 | Byte.MAX_VALUE)) == 0) ? 424 : 424): case ((((byte) (Byte.MAX_VALUE | Byte.MIN_VALUE)) == 0) ? 425 : 425): case ((((byte) (Byte.MAX_VALUE | (byte) -1)) == 0) ? 426 : 426): case ((((byte) (Byte.MAX_VALUE | (byte) 0)) == 0) ? 427 : 427): case ((((byte) (Byte.MAX_VALUE | (byte) 1)) == 0) ? 428 : 428): case ((((byte) (Byte.MAX_VALUE | Byte.MAX_VALUE)) == 0) ? 429 : 429): default: } } // -------- // short tests static short shortPlus(short x) { return (short) + x; } static short shortMinus(short x) { return (short) - x; } static short shortBitNot(short x) { return (short) ~ x; } static short shortTimes(short x, short y) { return (short) (x * y); } static short shortDiv(short x, short y) { return (short) (x / y); } static short shortRem(short x, short y) { return (short) (x % y); } static short shortAdd(short x, short y) { return (short) (x + y); } static short shortSub(short x, short y) { return (short) (x - y); } static short shortShl(short x, short y) { return (short) (x << y); } static short shortShr(short x, short y) { return (short) (x >> y); } static short shortUshr(short x, short y) { return (short) (x >>> y); } static boolean shortLt(short x, short y) { return x < y; } static boolean shortGt(short x, short y) { return x > y; } static boolean shortLe(short x, short y) { return x <= y; } static boolean shortGe(short x, short y) { return x >= y; } static boolean shortEq(short x, short y) { return x == y; } static boolean shortNe(short x, short y) { return x != y; } static short shortAnd(short x, short y) { return (short) (x & y); } static short shortXor(short x, short y) { return (short) (x ^ y); } static short shortOr(short x, short y) { return (short) (x | y); } static void shortTest() { Tester.checkEqual(shortPlus(Short.MIN_VALUE), (short) + Short.MIN_VALUE, "(short) + Short.MIN_VALUE"); Tester.checkEqual(shortPlus((short) -1), (short) + (short) -1, "(short) + (short) -1"); Tester.checkEqual(shortPlus((short) 0), (short) + (short) 0, "(short) + (short) 0"); Tester.checkEqual(shortPlus((short) 1), (short) + (short) 1, "(short) + (short) 1"); Tester.checkEqual(shortPlus(Short.MAX_VALUE), (short) + Short.MAX_VALUE, "(short) + Short.MAX_VALUE"); Tester.checkEqual(shortMinus(Short.MIN_VALUE), (short) - Short.MIN_VALUE, "(short) - Short.MIN_VALUE"); Tester.checkEqual(shortMinus((short) -1), (short) - (short) -1, "(short) - (short) -1"); Tester.checkEqual(shortMinus((short) 0), (short) - (short) 0, "(short) - (short) 0"); Tester.checkEqual(shortMinus((short) 1), (short) - (short) 1, "(short) - (short) 1"); Tester.checkEqual(shortMinus(Short.MAX_VALUE), (short) - Short.MAX_VALUE, "(short) - Short.MAX_VALUE"); Tester.checkEqual(shortBitNot(Short.MIN_VALUE), (short) ~ Short.MIN_VALUE, "(short) ~ Short.MIN_VALUE"); Tester.checkEqual(shortBitNot((short) -1), (short) ~ (short) -1, "(short) ~ (short) -1"); Tester.checkEqual(shortBitNot((short) 0), (short) ~ (short) 0, "(short) ~ (short) 0"); Tester.checkEqual(shortBitNot((short) 1), (short) ~ (short) 1, "(short) ~ (short) 1"); Tester.checkEqual(shortBitNot(Short.MAX_VALUE), (short) ~ Short.MAX_VALUE, "(short) ~ Short.MAX_VALUE"); Tester.checkEqual(shortTimes(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE * Short.MIN_VALUE), "(short) (Short.MIN_VALUE * Short.MIN_VALUE)"); Tester.checkEqual(shortTimes(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE * (short) -1), "(short) (Short.MIN_VALUE * (short) -1)"); Tester.checkEqual(shortTimes(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE * (short) 0), "(short) (Short.MIN_VALUE * (short) 0)"); Tester.checkEqual(shortTimes(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE * (short) 1), "(short) (Short.MIN_VALUE * (short) 1)"); Tester.checkEqual(shortTimes(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE * Short.MAX_VALUE), "(short) (Short.MIN_VALUE * Short.MAX_VALUE)"); Tester.checkEqual(shortTimes((short) -1, Short.MIN_VALUE), (short) ((short) -1 * Short.MIN_VALUE), "(short) ((short) -1 * Short.MIN_VALUE)"); Tester.checkEqual(shortTimes((short) -1, (short) -1), (short) ((short) -1 * (short) -1), "(short) ((short) -1 * (short) -1)"); Tester.checkEqual(shortTimes((short) -1, (short) 0), (short) ((short) -1 * (short) 0), "(short) ((short) -1 * (short) 0)"); Tester.checkEqual(shortTimes((short) -1, (short) 1), (short) ((short) -1 * (short) 1), "(short) ((short) -1 * (short) 1)"); Tester.checkEqual(shortTimes((short) -1, Short.MAX_VALUE), (short) ((short) -1 * Short.MAX_VALUE), "(short) ((short) -1 * Short.MAX_VALUE)"); Tester.checkEqual(shortTimes((short) 0, Short.MIN_VALUE), (short) ((short) 0 * Short.MIN_VALUE), "(short) ((short) 0 * Short.MIN_VALUE)"); Tester.checkEqual(shortTimes((short) 0, (short) -1), (short) ((short) 0 * (short) -1), "(short) ((short) 0 * (short) -1)"); Tester.checkEqual(shortTimes((short) 0, (short) 0), (short) ((short) 0 * (short) 0), "(short) ((short) 0 * (short) 0)"); Tester.checkEqual(shortTimes((short) 0, (short) 1), (short) ((short) 0 * (short) 1), "(short) ((short) 0 * (short) 1)"); Tester.checkEqual(shortTimes((short) 0, Short.MAX_VALUE), (short) ((short) 0 * Short.MAX_VALUE), "(short) ((short) 0 * Short.MAX_VALUE)"); Tester.checkEqual(shortTimes((short) 1, Short.MIN_VALUE), (short) ((short) 1 * Short.MIN_VALUE), "(short) ((short) 1 * Short.MIN_VALUE)"); Tester.checkEqual(shortTimes((short) 1, (short) -1), (short) ((short) 1 * (short) -1), "(short) ((short) 1 * (short) -1)"); Tester.checkEqual(shortTimes((short) 1, (short) 0), (short) ((short) 1 * (short) 0), "(short) ((short) 1 * (short) 0)"); Tester.checkEqual(shortTimes((short) 1, (short) 1), (short) ((short) 1 * (short) 1), "(short) ((short) 1 * (short) 1)"); Tester.checkEqual(shortTimes((short) 1, Short.MAX_VALUE), (short) ((short) 1 * Short.MAX_VALUE), "(short) ((short) 1 * Short.MAX_VALUE)"); Tester.checkEqual(shortTimes(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE * Short.MIN_VALUE), "(short) (Short.MAX_VALUE * Short.MIN_VALUE)"); Tester.checkEqual(shortTimes(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE * (short) -1), "(short) (Short.MAX_VALUE * (short) -1)"); Tester.checkEqual(shortTimes(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE * (short) 0), "(short) (Short.MAX_VALUE * (short) 0)"); Tester.checkEqual(shortTimes(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE * (short) 1), "(short) (Short.MAX_VALUE * (short) 1)"); Tester.checkEqual(shortTimes(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE * Short.MAX_VALUE), "(short) (Short.MAX_VALUE * Short.MAX_VALUE)"); Tester.checkEqual(shortDiv(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE / Short.MIN_VALUE), "(short) (Short.MIN_VALUE / Short.MIN_VALUE)"); Tester.checkEqual(shortDiv(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE / (short) -1), "(short) (Short.MIN_VALUE / (short) -1)"); Tester.checkEqual(shortDiv(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE / (short) 1), "(short) (Short.MIN_VALUE / (short) 1)"); Tester.checkEqual(shortDiv(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE / Short.MAX_VALUE), "(short) (Short.MIN_VALUE / Short.MAX_VALUE)"); Tester.checkEqual(shortDiv((short) -1, Short.MIN_VALUE), (short) ((short) -1 / Short.MIN_VALUE), "(short) ((short) -1 / Short.MIN_VALUE)"); Tester.checkEqual(shortDiv((short) -1, (short) -1), (short) ((short) -1 / (short) -1), "(short) ((short) -1 / (short) -1)"); Tester.checkEqual(shortDiv((short) -1, (short) 1), (short) ((short) -1 / (short) 1), "(short) ((short) -1 / (short) 1)"); Tester.checkEqual(shortDiv((short) -1, Short.MAX_VALUE), (short) ((short) -1 / Short.MAX_VALUE), "(short) ((short) -1 / Short.MAX_VALUE)"); Tester.checkEqual(shortDiv((short) 0, Short.MIN_VALUE), (short) ((short) 0 / Short.MIN_VALUE), "(short) ((short) 0 / Short.MIN_VALUE)"); Tester.checkEqual(shortDiv((short) 0, (short) -1), (short) ((short) 0 / (short) -1), "(short) ((short) 0 / (short) -1)"); Tester.checkEqual(shortDiv((short) 0, (short) 1), (short) ((short) 0 / (short) 1), "(short) ((short) 0 / (short) 1)"); Tester.checkEqual(shortDiv((short) 0, Short.MAX_VALUE), (short) ((short) 0 / Short.MAX_VALUE), "(short) ((short) 0 / Short.MAX_VALUE)"); Tester.checkEqual(shortDiv((short) 1, Short.MIN_VALUE), (short) ((short) 1 / Short.MIN_VALUE), "(short) ((short) 1 / Short.MIN_VALUE)"); Tester.checkEqual(shortDiv((short) 1, (short) -1), (short) ((short) 1 / (short) -1), "(short) ((short) 1 / (short) -1)"); Tester.checkEqual(shortDiv((short) 1, (short) 1), (short) ((short) 1 / (short) 1), "(short) ((short) 1 / (short) 1)"); Tester.checkEqual(shortDiv((short) 1, Short.MAX_VALUE), (short) ((short) 1 / Short.MAX_VALUE), "(short) ((short) 1 / Short.MAX_VALUE)"); Tester.checkEqual(shortDiv(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE / Short.MIN_VALUE), "(short) (Short.MAX_VALUE / Short.MIN_VALUE)"); Tester.checkEqual(shortDiv(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE / (short) -1), "(short) (Short.MAX_VALUE / (short) -1)"); Tester.checkEqual(shortDiv(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE / (short) 1), "(short) (Short.MAX_VALUE / (short) 1)"); Tester.checkEqual(shortDiv(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE / Short.MAX_VALUE), "(short) (Short.MAX_VALUE / Short.MAX_VALUE)"); Tester.checkEqual(shortRem(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE % Short.MIN_VALUE), "(short) (Short.MIN_VALUE % Short.MIN_VALUE)"); Tester.checkEqual(shortRem(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE % (short) -1), "(short) (Short.MIN_VALUE % (short) -1)"); Tester.checkEqual(shortRem(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE % (short) 1), "(short) (Short.MIN_VALUE % (short) 1)"); Tester.checkEqual(shortRem(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE % Short.MAX_VALUE), "(short) (Short.MIN_VALUE % Short.MAX_VALUE)"); Tester.checkEqual(shortRem((short) -1, Short.MIN_VALUE), (short) ((short) -1 % Short.MIN_VALUE), "(short) ((short) -1 % Short.MIN_VALUE)"); Tester.checkEqual(shortRem((short) -1, (short) -1), (short) ((short) -1 % (short) -1), "(short) ((short) -1 % (short) -1)"); Tester.checkEqual(shortRem((short) -1, (short) 1), (short) ((short) -1 % (short) 1), "(short) ((short) -1 % (short) 1)"); Tester.checkEqual(shortRem((short) -1, Short.MAX_VALUE), (short) ((short) -1 % Short.MAX_VALUE), "(short) ((short) -1 % Short.MAX_VALUE)"); Tester.checkEqual(shortRem((short) 0, Short.MIN_VALUE), (short) ((short) 0 % Short.MIN_VALUE), "(short) ((short) 0 % Short.MIN_VALUE)"); Tester.checkEqual(shortRem((short) 0, (short) -1), (short) ((short) 0 % (short) -1), "(short) ((short) 0 % (short) -1)"); Tester.checkEqual(shortRem((short) 0, (short) 1), (short) ((short) 0 % (short) 1), "(short) ((short) 0 % (short) 1)"); Tester.checkEqual(shortRem((short) 0, Short.MAX_VALUE), (short) ((short) 0 % Short.MAX_VALUE), "(short) ((short) 0 % Short.MAX_VALUE)"); Tester.checkEqual(shortRem((short) 1, Short.MIN_VALUE), (short) ((short) 1 % Short.MIN_VALUE), "(short) ((short) 1 % Short.MIN_VALUE)"); Tester.checkEqual(shortRem((short) 1, (short) -1), (short) ((short) 1 % (short) -1), "(short) ((short) 1 % (short) -1)"); Tester.checkEqual(shortRem((short) 1, (short) 1), (short) ((short) 1 % (short) 1), "(short) ((short) 1 % (short) 1)"); Tester.checkEqual(shortRem((short) 1, Short.MAX_VALUE), (short) ((short) 1 % Short.MAX_VALUE), "(short) ((short) 1 % Short.MAX_VALUE)"); Tester.checkEqual(shortRem(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE % Short.MIN_VALUE), "(short) (Short.MAX_VALUE % Short.MIN_VALUE)"); Tester.checkEqual(shortRem(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE % (short) -1), "(short) (Short.MAX_VALUE % (short) -1)"); Tester.checkEqual(shortRem(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE % (short) 1), "(short) (Short.MAX_VALUE % (short) 1)"); Tester.checkEqual(shortRem(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE % Short.MAX_VALUE), "(short) (Short.MAX_VALUE % Short.MAX_VALUE)"); Tester.checkEqual(shortAdd(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE + Short.MIN_VALUE), "(short) (Short.MIN_VALUE + Short.MIN_VALUE)"); Tester.checkEqual(shortAdd(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE + (short) -1), "(short) (Short.MIN_VALUE + (short) -1)"); Tester.checkEqual(shortAdd(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE + (short) 0), "(short) (Short.MIN_VALUE + (short) 0)"); Tester.checkEqual(shortAdd(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE + (short) 1), "(short) (Short.MIN_VALUE + (short) 1)"); Tester.checkEqual(shortAdd(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE + Short.MAX_VALUE), "(short) (Short.MIN_VALUE + Short.MAX_VALUE)"); Tester.checkEqual(shortAdd((short) -1, Short.MIN_VALUE), (short) ((short) -1 + Short.MIN_VALUE), "(short) ((short) -1 + Short.MIN_VALUE)"); Tester.checkEqual(shortAdd((short) -1, (short) -1), (short) ((short) -1 + (short) -1), "(short) ((short) -1 + (short) -1)"); Tester.checkEqual(shortAdd((short) -1, (short) 0), (short) ((short) -1 + (short) 0), "(short) ((short) -1 + (short) 0)"); Tester.checkEqual(shortAdd((short) -1, (short) 1), (short) ((short) -1 + (short) 1), "(short) ((short) -1 + (short) 1)"); Tester.checkEqual(shortAdd((short) -1, Short.MAX_VALUE), (short) ((short) -1 + Short.MAX_VALUE), "(short) ((short) -1 + Short.MAX_VALUE)"); Tester.checkEqual(shortAdd((short) 0, Short.MIN_VALUE), (short) ((short) 0 + Short.MIN_VALUE), "(short) ((short) 0 + Short.MIN_VALUE)"); Tester.checkEqual(shortAdd((short) 0, (short) -1), (short) ((short) 0 + (short) -1), "(short) ((short) 0 + (short) -1)"); Tester.checkEqual(shortAdd((short) 0, (short) 0), (short) ((short) 0 + (short) 0), "(short) ((short) 0 + (short) 0)"); Tester.checkEqual(shortAdd((short) 0, (short) 1), (short) ((short) 0 + (short) 1), "(short) ((short) 0 + (short) 1)"); Tester.checkEqual(shortAdd((short) 0, Short.MAX_VALUE), (short) ((short) 0 + Short.MAX_VALUE), "(short) ((short) 0 + Short.MAX_VALUE)"); Tester.checkEqual(shortAdd((short) 1, Short.MIN_VALUE), (short) ((short) 1 + Short.MIN_VALUE), "(short) ((short) 1 + Short.MIN_VALUE)"); Tester.checkEqual(shortAdd((short) 1, (short) -1), (short) ((short) 1 + (short) -1), "(short) ((short) 1 + (short) -1)"); Tester.checkEqual(shortAdd((short) 1, (short) 0), (short) ((short) 1 + (short) 0), "(short) ((short) 1 + (short) 0)"); Tester.checkEqual(shortAdd((short) 1, (short) 1), (short) ((short) 1 + (short) 1), "(short) ((short) 1 + (short) 1)"); Tester.checkEqual(shortAdd((short) 1, Short.MAX_VALUE), (short) ((short) 1 + Short.MAX_VALUE), "(short) ((short) 1 + Short.MAX_VALUE)"); Tester.checkEqual(shortAdd(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE + Short.MIN_VALUE), "(short) (Short.MAX_VALUE + Short.MIN_VALUE)"); Tester.checkEqual(shortAdd(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE + (short) -1), "(short) (Short.MAX_VALUE + (short) -1)"); Tester.checkEqual(shortAdd(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE + (short) 0), "(short) (Short.MAX_VALUE + (short) 0)"); Tester.checkEqual(shortAdd(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE + (short) 1), "(short) (Short.MAX_VALUE + (short) 1)"); Tester.checkEqual(shortAdd(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE + Short.MAX_VALUE), "(short) (Short.MAX_VALUE + Short.MAX_VALUE)"); Tester.checkEqual(shortSub(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE - Short.MIN_VALUE), "(short) (Short.MIN_VALUE - Short.MIN_VALUE)"); Tester.checkEqual(shortSub(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE - (short) -1), "(short) (Short.MIN_VALUE - (short) -1)"); Tester.checkEqual(shortSub(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE - (short) 0), "(short) (Short.MIN_VALUE - (short) 0)"); Tester.checkEqual(shortSub(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE - (short) 1), "(short) (Short.MIN_VALUE - (short) 1)"); Tester.checkEqual(shortSub(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE - Short.MAX_VALUE), "(short) (Short.MIN_VALUE - Short.MAX_VALUE)"); Tester.checkEqual(shortSub((short) -1, Short.MIN_VALUE), (short) ((short) -1 - Short.MIN_VALUE), "(short) ((short) -1 - Short.MIN_VALUE)"); Tester.checkEqual(shortSub((short) -1, (short) -1), (short) ((short) -1 - (short) -1), "(short) ((short) -1 - (short) -1)"); Tester.checkEqual(shortSub((short) -1, (short) 0), (short) ((short) -1 - (short) 0), "(short) ((short) -1 - (short) 0)"); Tester.checkEqual(shortSub((short) -1, (short) 1), (short) ((short) -1 - (short) 1), "(short) ((short) -1 - (short) 1)"); Tester.checkEqual(shortSub((short) -1, Short.MAX_VALUE), (short) ((short) -1 - Short.MAX_VALUE), "(short) ((short) -1 - Short.MAX_VALUE)"); Tester.checkEqual(shortSub((short) 0, Short.MIN_VALUE), (short) ((short) 0 - Short.MIN_VALUE), "(short) ((short) 0 - Short.MIN_VALUE)"); Tester.checkEqual(shortSub((short) 0, (short) -1), (short) ((short) 0 - (short) -1), "(short) ((short) 0 - (short) -1)"); Tester.checkEqual(shortSub((short) 0, (short) 0), (short) ((short) 0 - (short) 0), "(short) ((short) 0 - (short) 0)"); Tester.checkEqual(shortSub((short) 0, (short) 1), (short) ((short) 0 - (short) 1), "(short) ((short) 0 - (short) 1)"); Tester.checkEqual(shortSub((short) 0, Short.MAX_VALUE), (short) ((short) 0 - Short.MAX_VALUE), "(short) ((short) 0 - Short.MAX_VALUE)"); Tester.checkEqual(shortSub((short) 1, Short.MIN_VALUE), (short) ((short) 1 - Short.MIN_VALUE), "(short) ((short) 1 - Short.MIN_VALUE)"); Tester.checkEqual(shortSub((short) 1, (short) -1), (short) ((short) 1 - (short) -1), "(short) ((short) 1 - (short) -1)"); Tester.checkEqual(shortSub((short) 1, (short) 0), (short) ((short) 1 - (short) 0), "(short) ((short) 1 - (short) 0)"); Tester.checkEqual(shortSub((short) 1, (short) 1), (short) ((short) 1 - (short) 1), "(short) ((short) 1 - (short) 1)"); Tester.checkEqual(shortSub((short) 1, Short.MAX_VALUE), (short) ((short) 1 - Short.MAX_VALUE), "(short) ((short) 1 - Short.MAX_VALUE)"); Tester.checkEqual(shortSub(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE - Short.MIN_VALUE), "(short) (Short.MAX_VALUE - Short.MIN_VALUE)"); Tester.checkEqual(shortSub(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE - (short) -1), "(short) (Short.MAX_VALUE - (short) -1)"); Tester.checkEqual(shortSub(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE - (short) 0), "(short) (Short.MAX_VALUE - (short) 0)"); Tester.checkEqual(shortSub(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE - (short) 1), "(short) (Short.MAX_VALUE - (short) 1)"); Tester.checkEqual(shortSub(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE - Short.MAX_VALUE), "(short) (Short.MAX_VALUE - Short.MAX_VALUE)"); Tester.checkEqual(shortShl(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE << Short.MIN_VALUE), "(short) (Short.MIN_VALUE << Short.MIN_VALUE)"); Tester.checkEqual(shortShl(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE << (short) -1), "(short) (Short.MIN_VALUE << (short) -1)"); Tester.checkEqual(shortShl(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE << (short) 0), "(short) (Short.MIN_VALUE << (short) 0)"); Tester.checkEqual(shortShl(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE << (short) 1), "(short) (Short.MIN_VALUE << (short) 1)"); Tester.checkEqual(shortShl(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE << Short.MAX_VALUE), "(short) (Short.MIN_VALUE << Short.MAX_VALUE)"); Tester.checkEqual(shortShl((short) -1, Short.MIN_VALUE), (short) ((short) -1 << Short.MIN_VALUE), "(short) ((short) -1 << Short.MIN_VALUE)"); Tester.checkEqual(shortShl((short) -1, (short) -1), (short) ((short) -1 << (short) -1), "(short) ((short) -1 << (short) -1)"); Tester.checkEqual(shortShl((short) -1, (short) 0), (short) ((short) -1 << (short) 0), "(short) ((short) -1 << (short) 0)"); Tester.checkEqual(shortShl((short) -1, (short) 1), (short) ((short) -1 << (short) 1), "(short) ((short) -1 << (short) 1)"); Tester.checkEqual(shortShl((short) -1, Short.MAX_VALUE), (short) ((short) -1 << Short.MAX_VALUE), "(short) ((short) -1 << Short.MAX_VALUE)"); Tester.checkEqual(shortShl((short) 0, Short.MIN_VALUE), (short) ((short) 0 << Short.MIN_VALUE), "(short) ((short) 0 << Short.MIN_VALUE)"); Tester.checkEqual(shortShl((short) 0, (short) -1), (short) ((short) 0 << (short) -1), "(short) ((short) 0 << (short) -1)"); Tester.checkEqual(shortShl((short) 0, (short) 0), (short) ((short) 0 << (short) 0), "(short) ((short) 0 << (short) 0)"); Tester.checkEqual(shortShl((short) 0, (short) 1), (short) ((short) 0 << (short) 1), "(short) ((short) 0 << (short) 1)"); Tester.checkEqual(shortShl((short) 0, Short.MAX_VALUE), (short) ((short) 0 << Short.MAX_VALUE), "(short) ((short) 0 << Short.MAX_VALUE)"); Tester.checkEqual(shortShl((short) 1, Short.MIN_VALUE), (short) ((short) 1 << Short.MIN_VALUE), "(short) ((short) 1 << Short.MIN_VALUE)"); Tester.checkEqual(shortShl((short) 1, (short) -1), (short) ((short) 1 << (short) -1), "(short) ((short) 1 << (short) -1)"); Tester.checkEqual(shortShl((short) 1, (short) 0), (short) ((short) 1 << (short) 0), "(short) ((short) 1 << (short) 0)"); Tester.checkEqual(shortShl((short) 1, (short) 1), (short) ((short) 1 << (short) 1), "(short) ((short) 1 << (short) 1)"); Tester.checkEqual(shortShl((short) 1, Short.MAX_VALUE), (short) ((short) 1 << Short.MAX_VALUE), "(short) ((short) 1 << Short.MAX_VALUE)"); Tester.checkEqual(shortShl(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE << Short.MIN_VALUE), "(short) (Short.MAX_VALUE << Short.MIN_VALUE)"); Tester.checkEqual(shortShl(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE << (short) -1), "(short) (Short.MAX_VALUE << (short) -1)"); Tester.checkEqual(shortShl(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE << (short) 0), "(short) (Short.MAX_VALUE << (short) 0)"); Tester.checkEqual(shortShl(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE << (short) 1), "(short) (Short.MAX_VALUE << (short) 1)"); Tester.checkEqual(shortShl(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE << Short.MAX_VALUE), "(short) (Short.MAX_VALUE << Short.MAX_VALUE)"); Tester.checkEqual(shortShr(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE >> Short.MIN_VALUE), "(short) (Short.MIN_VALUE >> Short.MIN_VALUE)"); Tester.checkEqual(shortShr(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE >> (short) -1), "(short) (Short.MIN_VALUE >> (short) -1)"); Tester.checkEqual(shortShr(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE >> (short) 0), "(short) (Short.MIN_VALUE >> (short) 0)"); Tester.checkEqual(shortShr(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE >> (short) 1), "(short) (Short.MIN_VALUE >> (short) 1)"); Tester.checkEqual(shortShr(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE >> Short.MAX_VALUE), "(short) (Short.MIN_VALUE >> Short.MAX_VALUE)"); Tester.checkEqual(shortShr((short) -1, Short.MIN_VALUE), (short) ((short) -1 >> Short.MIN_VALUE), "(short) ((short) -1 >> Short.MIN_VALUE)"); Tester.checkEqual(shortShr((short) -1, (short) -1), (short) ((short) -1 >> (short) -1), "(short) ((short) -1 >> (short) -1)"); Tester.checkEqual(shortShr((short) -1, (short) 0), (short) ((short) -1 >> (short) 0), "(short) ((short) -1 >> (short) 0)"); Tester.checkEqual(shortShr((short) -1, (short) 1), (short) ((short) -1 >> (short) 1), "(short) ((short) -1 >> (short) 1)"); Tester.checkEqual(shortShr((short) -1, Short.MAX_VALUE), (short) ((short) -1 >> Short.MAX_VALUE), "(short) ((short) -1 >> Short.MAX_VALUE)"); Tester.checkEqual(shortShr((short) 0, Short.MIN_VALUE), (short) ((short) 0 >> Short.MIN_VALUE), "(short) ((short) 0 >> Short.MIN_VALUE)"); Tester.checkEqual(shortShr((short) 0, (short) -1), (short) ((short) 0 >> (short) -1), "(short) ((short) 0 >> (short) -1)"); Tester.checkEqual(shortShr((short) 0, (short) 0), (short) ((short) 0 >> (short) 0), "(short) ((short) 0 >> (short) 0)"); Tester.checkEqual(shortShr((short) 0, (short) 1), (short) ((short) 0 >> (short) 1), "(short) ((short) 0 >> (short) 1)"); Tester.checkEqual(shortShr((short) 0, Short.MAX_VALUE), (short) ((short) 0 >> Short.MAX_VALUE), "(short) ((short) 0 >> Short.MAX_VALUE)"); Tester.checkEqual(shortShr((short) 1, Short.MIN_VALUE), (short) ((short) 1 >> Short.MIN_VALUE), "(short) ((short) 1 >> Short.MIN_VALUE)"); Tester.checkEqual(shortShr((short) 1, (short) -1), (short) ((short) 1 >> (short) -1), "(short) ((short) 1 >> (short) -1)"); Tester.checkEqual(shortShr((short) 1, (short) 0), (short) ((short) 1 >> (short) 0), "(short) ((short) 1 >> (short) 0)"); Tester.checkEqual(shortShr((short) 1, (short) 1), (short) ((short) 1 >> (short) 1), "(short) ((short) 1 >> (short) 1)"); Tester.checkEqual(shortShr((short) 1, Short.MAX_VALUE), (short) ((short) 1 >> Short.MAX_VALUE), "(short) ((short) 1 >> Short.MAX_VALUE)"); Tester.checkEqual(shortShr(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE >> Short.MIN_VALUE), "(short) (Short.MAX_VALUE >> Short.MIN_VALUE)"); Tester.checkEqual(shortShr(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE >> (short) -1), "(short) (Short.MAX_VALUE >> (short) -1)"); Tester.checkEqual(shortShr(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE >> (short) 0), "(short) (Short.MAX_VALUE >> (short) 0)"); Tester.checkEqual(shortShr(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE >> (short) 1), "(short) (Short.MAX_VALUE >> (short) 1)"); Tester.checkEqual(shortShr(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE >> Short.MAX_VALUE), "(short) (Short.MAX_VALUE >> Short.MAX_VALUE)"); Tester.checkEqual(shortUshr(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE >>> Short.MIN_VALUE), "(short) (Short.MIN_VALUE >>> Short.MIN_VALUE)"); Tester.checkEqual(shortUshr(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE >>> (short) -1), "(short) (Short.MIN_VALUE >>> (short) -1)"); Tester.checkEqual(shortUshr(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE >>> (short) 0), "(short) (Short.MIN_VALUE >>> (short) 0)"); Tester.checkEqual(shortUshr(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE >>> (short) 1), "(short) (Short.MIN_VALUE >>> (short) 1)"); Tester.checkEqual(shortUshr(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE >>> Short.MAX_VALUE), "(short) (Short.MIN_VALUE >>> Short.MAX_VALUE)"); Tester.checkEqual(shortUshr((short) -1, Short.MIN_VALUE), (short) ((short) -1 >>> Short.MIN_VALUE), "(short) ((short) -1 >>> Short.MIN_VALUE)"); Tester.checkEqual(shortUshr((short) -1, (short) -1), (short) ((short) -1 >>> (short) -1), "(short) ((short) -1 >>> (short) -1)"); Tester.checkEqual(shortUshr((short) -1, (short) 0), (short) ((short) -1 >>> (short) 0), "(short) ((short) -1 >>> (short) 0)"); Tester.checkEqual(shortUshr((short) -1, (short) 1), (short) ((short) -1 >>> (short) 1), "(short) ((short) -1 >>> (short) 1)"); Tester.checkEqual(shortUshr((short) -1, Short.MAX_VALUE), (short) ((short) -1 >>> Short.MAX_VALUE), "(short) ((short) -1 >>> Short.MAX_VALUE)"); Tester.checkEqual(shortUshr((short) 0, Short.MIN_VALUE), (short) ((short) 0 >>> Short.MIN_VALUE), "(short) ((short) 0 >>> Short.MIN_VALUE)"); Tester.checkEqual(shortUshr((short) 0, (short) -1), (short) ((short) 0 >>> (short) -1), "(short) ((short) 0 >>> (short) -1)"); Tester.checkEqual(shortUshr((short) 0, (short) 0), (short) ((short) 0 >>> (short) 0), "(short) ((short) 0 >>> (short) 0)"); Tester.checkEqual(shortUshr((short) 0, (short) 1), (short) ((short) 0 >>> (short) 1), "(short) ((short) 0 >>> (short) 1)"); Tester.checkEqual(shortUshr((short) 0, Short.MAX_VALUE), (short) ((short) 0 >>> Short.MAX_VALUE), "(short) ((short) 0 >>> Short.MAX_VALUE)"); Tester.checkEqual(shortUshr((short) 1, Short.MIN_VALUE), (short) ((short) 1 >>> Short.MIN_VALUE), "(short) ((short) 1 >>> Short.MIN_VALUE)"); Tester.checkEqual(shortUshr((short) 1, (short) -1), (short) ((short) 1 >>> (short) -1), "(short) ((short) 1 >>> (short) -1)"); Tester.checkEqual(shortUshr((short) 1, (short) 0), (short) ((short) 1 >>> (short) 0), "(short) ((short) 1 >>> (short) 0)"); Tester.checkEqual(shortUshr((short) 1, (short) 1), (short) ((short) 1 >>> (short) 1), "(short) ((short) 1 >>> (short) 1)"); Tester.checkEqual(shortUshr((short) 1, Short.MAX_VALUE), (short) ((short) 1 >>> Short.MAX_VALUE), "(short) ((short) 1 >>> Short.MAX_VALUE)"); Tester.checkEqual(shortUshr(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE >>> Short.MIN_VALUE), "(short) (Short.MAX_VALUE >>> Short.MIN_VALUE)"); Tester.checkEqual(shortUshr(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE >>> (short) -1), "(short) (Short.MAX_VALUE >>> (short) -1)"); Tester.checkEqual(shortUshr(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE >>> (short) 0), "(short) (Short.MAX_VALUE >>> (short) 0)"); Tester.checkEqual(shortUshr(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE >>> (short) 1), "(short) (Short.MAX_VALUE >>> (short) 1)"); Tester.checkEqual(shortUshr(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE >>> Short.MAX_VALUE), "(short) (Short.MAX_VALUE >>> Short.MAX_VALUE)"); Tester.checkEqual(shortLt(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE < Short.MIN_VALUE, "Short.MIN_VALUE < Short.MIN_VALUE"); Tester.checkEqual(shortLt(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE < (short) -1, "Short.MIN_VALUE < (short) -1"); Tester.checkEqual(shortLt(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE < (short) 0, "Short.MIN_VALUE < (short) 0"); Tester.checkEqual(shortLt(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE < (short) 1, "Short.MIN_VALUE < (short) 1"); Tester.checkEqual(shortLt(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE < Short.MAX_VALUE, "Short.MIN_VALUE < Short.MAX_VALUE"); Tester.checkEqual(shortLt((short) -1, Short.MIN_VALUE), (short) -1 < Short.MIN_VALUE, "(short) -1 < Short.MIN_VALUE"); Tester.checkEqual(shortLt((short) -1, (short) -1), (short) -1 < (short) -1, "(short) -1 < (short) -1"); Tester.checkEqual(shortLt((short) -1, (short) 0), (short) -1 < (short) 0, "(short) -1 < (short) 0"); Tester.checkEqual(shortLt((short) -1, (short) 1), (short) -1 < (short) 1, "(short) -1 < (short) 1"); Tester.checkEqual(shortLt((short) -1, Short.MAX_VALUE), (short) -1 < Short.MAX_VALUE, "(short) -1 < Short.MAX_VALUE"); Tester.checkEqual(shortLt((short) 0, Short.MIN_VALUE), (short) 0 < Short.MIN_VALUE, "(short) 0 < Short.MIN_VALUE"); Tester.checkEqual(shortLt((short) 0, (short) -1), (short) 0 < (short) -1, "(short) 0 < (short) -1"); Tester.checkEqual(shortLt((short) 0, (short) 0), (short) 0 < (short) 0, "(short) 0 < (short) 0"); Tester.checkEqual(shortLt((short) 0, (short) 1), (short) 0 < (short) 1, "(short) 0 < (short) 1"); Tester.checkEqual(shortLt((short) 0, Short.MAX_VALUE), (short) 0 < Short.MAX_VALUE, "(short) 0 < Short.MAX_VALUE"); Tester.checkEqual(shortLt((short) 1, Short.MIN_VALUE), (short) 1 < Short.MIN_VALUE, "(short) 1 < Short.MIN_VALUE"); Tester.checkEqual(shortLt((short) 1, (short) -1), (short) 1 < (short) -1, "(short) 1 < (short) -1"); Tester.checkEqual(shortLt((short) 1, (short) 0), (short) 1 < (short) 0, "(short) 1 < (short) 0"); Tester.checkEqual(shortLt((short) 1, (short) 1), (short) 1 < (short) 1, "(short) 1 < (short) 1"); Tester.checkEqual(shortLt((short) 1, Short.MAX_VALUE), (short) 1 < Short.MAX_VALUE, "(short) 1 < Short.MAX_VALUE"); Tester.checkEqual(shortLt(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE < Short.MIN_VALUE, "Short.MAX_VALUE < Short.MIN_VALUE"); Tester.checkEqual(shortLt(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE < (short) -1, "Short.MAX_VALUE < (short) -1"); Tester.checkEqual(shortLt(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE < (short) 0, "Short.MAX_VALUE < (short) 0"); Tester.checkEqual(shortLt(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE < (short) 1, "Short.MAX_VALUE < (short) 1"); Tester.checkEqual(shortLt(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE < Short.MAX_VALUE, "Short.MAX_VALUE < Short.MAX_VALUE"); Tester.checkEqual(shortGt(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE > Short.MIN_VALUE, "Short.MIN_VALUE > Short.MIN_VALUE"); Tester.checkEqual(shortGt(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE > (short) -1, "Short.MIN_VALUE > (short) -1"); Tester.checkEqual(shortGt(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE > (short) 0, "Short.MIN_VALUE > (short) 0"); Tester.checkEqual(shortGt(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE > (short) 1, "Short.MIN_VALUE > (short) 1"); Tester.checkEqual(shortGt(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE > Short.MAX_VALUE, "Short.MIN_VALUE > Short.MAX_VALUE"); Tester.checkEqual(shortGt((short) -1, Short.MIN_VALUE), (short) -1 > Short.MIN_VALUE, "(short) -1 > Short.MIN_VALUE"); Tester.checkEqual(shortGt((short) -1, (short) -1), (short) -1 > (short) -1, "(short) -1 > (short) -1"); Tester.checkEqual(shortGt((short) -1, (short) 0), (short) -1 > (short) 0, "(short) -1 > (short) 0"); Tester.checkEqual(shortGt((short) -1, (short) 1), (short) -1 > (short) 1, "(short) -1 > (short) 1"); Tester.checkEqual(shortGt((short) -1, Short.MAX_VALUE), (short) -1 > Short.MAX_VALUE, "(short) -1 > Short.MAX_VALUE"); Tester.checkEqual(shortGt((short) 0, Short.MIN_VALUE), (short) 0 > Short.MIN_VALUE, "(short) 0 > Short.MIN_VALUE"); Tester.checkEqual(shortGt((short) 0, (short) -1), (short) 0 > (short) -1, "(short) 0 > (short) -1"); Tester.checkEqual(shortGt((short) 0, (short) 0), (short) 0 > (short) 0, "(short) 0 > (short) 0"); Tester.checkEqual(shortGt((short) 0, (short) 1), (short) 0 > (short) 1, "(short) 0 > (short) 1"); Tester.checkEqual(shortGt((short) 0, Short.MAX_VALUE), (short) 0 > Short.MAX_VALUE, "(short) 0 > Short.MAX_VALUE"); Tester.checkEqual(shortGt((short) 1, Short.MIN_VALUE), (short) 1 > Short.MIN_VALUE, "(short) 1 > Short.MIN_VALUE"); Tester.checkEqual(shortGt((short) 1, (short) -1), (short) 1 > (short) -1, "(short) 1 > (short) -1"); Tester.checkEqual(shortGt((short) 1, (short) 0), (short) 1 > (short) 0, "(short) 1 > (short) 0"); Tester.checkEqual(shortGt((short) 1, (short) 1), (short) 1 > (short) 1, "(short) 1 > (short) 1"); Tester.checkEqual(shortGt((short) 1, Short.MAX_VALUE), (short) 1 > Short.MAX_VALUE, "(short) 1 > Short.MAX_VALUE"); Tester.checkEqual(shortGt(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE > Short.MIN_VALUE, "Short.MAX_VALUE > Short.MIN_VALUE"); Tester.checkEqual(shortGt(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE > (short) -1, "Short.MAX_VALUE > (short) -1"); Tester.checkEqual(shortGt(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE > (short) 0, "Short.MAX_VALUE > (short) 0"); Tester.checkEqual(shortGt(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE > (short) 1, "Short.MAX_VALUE > (short) 1"); Tester.checkEqual(shortGt(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE > Short.MAX_VALUE, "Short.MAX_VALUE > Short.MAX_VALUE"); Tester.checkEqual(shortLe(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE <= Short.MIN_VALUE, "Short.MIN_VALUE <= Short.MIN_VALUE"); Tester.checkEqual(shortLe(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE <= (short) -1, "Short.MIN_VALUE <= (short) -1"); Tester.checkEqual(shortLe(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE <= (short) 0, "Short.MIN_VALUE <= (short) 0"); Tester.checkEqual(shortLe(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE <= (short) 1, "Short.MIN_VALUE <= (short) 1"); Tester.checkEqual(shortLe(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE <= Short.MAX_VALUE, "Short.MIN_VALUE <= Short.MAX_VALUE"); Tester.checkEqual(shortLe((short) -1, Short.MIN_VALUE), (short) -1 <= Short.MIN_VALUE, "(short) -1 <= Short.MIN_VALUE"); Tester.checkEqual(shortLe((short) -1, (short) -1), (short) -1 <= (short) -1, "(short) -1 <= (short) -1"); Tester.checkEqual(shortLe((short) -1, (short) 0), (short) -1 <= (short) 0, "(short) -1 <= (short) 0"); Tester.checkEqual(shortLe((short) -1, (short) 1), (short) -1 <= (short) 1, "(short) -1 <= (short) 1"); Tester.checkEqual(shortLe((short) -1, Short.MAX_VALUE), (short) -1 <= Short.MAX_VALUE, "(short) -1 <= Short.MAX_VALUE"); Tester.checkEqual(shortLe((short) 0, Short.MIN_VALUE), (short) 0 <= Short.MIN_VALUE, "(short) 0 <= Short.MIN_VALUE"); Tester.checkEqual(shortLe((short) 0, (short) -1), (short) 0 <= (short) -1, "(short) 0 <= (short) -1"); Tester.checkEqual(shortLe((short) 0, (short) 0), (short) 0 <= (short) 0, "(short) 0 <= (short) 0"); Tester.checkEqual(shortLe((short) 0, (short) 1), (short) 0 <= (short) 1, "(short) 0 <= (short) 1"); Tester.checkEqual(shortLe((short) 0, Short.MAX_VALUE), (short) 0 <= Short.MAX_VALUE, "(short) 0 <= Short.MAX_VALUE"); Tester.checkEqual(shortLe((short) 1, Short.MIN_VALUE), (short) 1 <= Short.MIN_VALUE, "(short) 1 <= Short.MIN_VALUE"); Tester.checkEqual(shortLe((short) 1, (short) -1), (short) 1 <= (short) -1, "(short) 1 <= (short) -1"); Tester.checkEqual(shortLe((short) 1, (short) 0), (short) 1 <= (short) 0, "(short) 1 <= (short) 0"); Tester.checkEqual(shortLe((short) 1, (short) 1), (short) 1 <= (short) 1, "(short) 1 <= (short) 1"); Tester.checkEqual(shortLe((short) 1, Short.MAX_VALUE), (short) 1 <= Short.MAX_VALUE, "(short) 1 <= Short.MAX_VALUE"); Tester.checkEqual(shortLe(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE <= Short.MIN_VALUE, "Short.MAX_VALUE <= Short.MIN_VALUE"); Tester.checkEqual(shortLe(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE <= (short) -1, "Short.MAX_VALUE <= (short) -1"); Tester.checkEqual(shortLe(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE <= (short) 0, "Short.MAX_VALUE <= (short) 0"); Tester.checkEqual(shortLe(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE <= (short) 1, "Short.MAX_VALUE <= (short) 1"); Tester.checkEqual(shortLe(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE <= Short.MAX_VALUE, "Short.MAX_VALUE <= Short.MAX_VALUE"); Tester.checkEqual(shortGe(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE >= Short.MIN_VALUE, "Short.MIN_VALUE >= Short.MIN_VALUE"); Tester.checkEqual(shortGe(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE >= (short) -1, "Short.MIN_VALUE >= (short) -1"); Tester.checkEqual(shortGe(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE >= (short) 0, "Short.MIN_VALUE >= (short) 0"); Tester.checkEqual(shortGe(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE >= (short) 1, "Short.MIN_VALUE >= (short) 1"); Tester.checkEqual(shortGe(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE >= Short.MAX_VALUE, "Short.MIN_VALUE >= Short.MAX_VALUE"); Tester.checkEqual(shortGe((short) -1, Short.MIN_VALUE), (short) -1 >= Short.MIN_VALUE, "(short) -1 >= Short.MIN_VALUE"); Tester.checkEqual(shortGe((short) -1, (short) -1), (short) -1 >= (short) -1, "(short) -1 >= (short) -1"); Tester.checkEqual(shortGe((short) -1, (short) 0), (short) -1 >= (short) 0, "(short) -1 >= (short) 0"); Tester.checkEqual(shortGe((short) -1, (short) 1), (short) -1 >= (short) 1, "(short) -1 >= (short) 1"); Tester.checkEqual(shortGe((short) -1, Short.MAX_VALUE), (short) -1 >= Short.MAX_VALUE, "(short) -1 >= Short.MAX_VALUE"); Tester.checkEqual(shortGe((short) 0, Short.MIN_VALUE), (short) 0 >= Short.MIN_VALUE, "(short) 0 >= Short.MIN_VALUE"); Tester.checkEqual(shortGe((short) 0, (short) -1), (short) 0 >= (short) -1, "(short) 0 >= (short) -1"); Tester.checkEqual(shortGe((short) 0, (short) 0), (short) 0 >= (short) 0, "(short) 0 >= (short) 0"); Tester.checkEqual(shortGe((short) 0, (short) 1), (short) 0 >= (short) 1, "(short) 0 >= (short) 1"); Tester.checkEqual(shortGe((short) 0, Short.MAX_VALUE), (short) 0 >= Short.MAX_VALUE, "(short) 0 >= Short.MAX_VALUE"); Tester.checkEqual(shortGe((short) 1, Short.MIN_VALUE), (short) 1 >= Short.MIN_VALUE, "(short) 1 >= Short.MIN_VALUE"); Tester.checkEqual(shortGe((short) 1, (short) -1), (short) 1 >= (short) -1, "(short) 1 >= (short) -1"); Tester.checkEqual(shortGe((short) 1, (short) 0), (short) 1 >= (short) 0, "(short) 1 >= (short) 0"); Tester.checkEqual(shortGe((short) 1, (short) 1), (short) 1 >= (short) 1, "(short) 1 >= (short) 1"); Tester.checkEqual(shortGe((short) 1, Short.MAX_VALUE), (short) 1 >= Short.MAX_VALUE, "(short) 1 >= Short.MAX_VALUE"); Tester.checkEqual(shortGe(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE >= Short.MIN_VALUE, "Short.MAX_VALUE >= Short.MIN_VALUE"); Tester.checkEqual(shortGe(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE >= (short) -1, "Short.MAX_VALUE >= (short) -1"); Tester.checkEqual(shortGe(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE >= (short) 0, "Short.MAX_VALUE >= (short) 0"); Tester.checkEqual(shortGe(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE >= (short) 1, "Short.MAX_VALUE >= (short) 1"); Tester.checkEqual(shortGe(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE >= Short.MAX_VALUE, "Short.MAX_VALUE >= Short.MAX_VALUE"); Tester.checkEqual(shortEq(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE == Short.MIN_VALUE, "Short.MIN_VALUE == Short.MIN_VALUE"); Tester.checkEqual(shortEq(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE == (short) -1, "Short.MIN_VALUE == (short) -1"); Tester.checkEqual(shortEq(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE == (short) 0, "Short.MIN_VALUE == (short) 0"); Tester.checkEqual(shortEq(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE == (short) 1, "Short.MIN_VALUE == (short) 1"); Tester.checkEqual(shortEq(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE == Short.MAX_VALUE, "Short.MIN_VALUE == Short.MAX_VALUE"); Tester.checkEqual(shortEq((short) -1, Short.MIN_VALUE), (short) -1 == Short.MIN_VALUE, "(short) -1 == Short.MIN_VALUE"); Tester.checkEqual(shortEq((short) -1, (short) -1), (short) -1 == (short) -1, "(short) -1 == (short) -1"); Tester.checkEqual(shortEq((short) -1, (short) 0), (short) -1 == (short) 0, "(short) -1 == (short) 0"); Tester.checkEqual(shortEq((short) -1, (short) 1), (short) -1 == (short) 1, "(short) -1 == (short) 1"); Tester.checkEqual(shortEq((short) -1, Short.MAX_VALUE), (short) -1 == Short.MAX_VALUE, "(short) -1 == Short.MAX_VALUE"); Tester.checkEqual(shortEq((short) 0, Short.MIN_VALUE), (short) 0 == Short.MIN_VALUE, "(short) 0 == Short.MIN_VALUE"); Tester.checkEqual(shortEq((short) 0, (short) -1), (short) 0 == (short) -1, "(short) 0 == (short) -1"); Tester.checkEqual(shortEq((short) 0, (short) 0), (short) 0 == (short) 0, "(short) 0 == (short) 0"); Tester.checkEqual(shortEq((short) 0, (short) 1), (short) 0 == (short) 1, "(short) 0 == (short) 1"); Tester.checkEqual(shortEq((short) 0, Short.MAX_VALUE), (short) 0 == Short.MAX_VALUE, "(short) 0 == Short.MAX_VALUE"); Tester.checkEqual(shortEq((short) 1, Short.MIN_VALUE), (short) 1 == Short.MIN_VALUE, "(short) 1 == Short.MIN_VALUE"); Tester.checkEqual(shortEq((short) 1, (short) -1), (short) 1 == (short) -1, "(short) 1 == (short) -1"); Tester.checkEqual(shortEq((short) 1, (short) 0), (short) 1 == (short) 0, "(short) 1 == (short) 0"); Tester.checkEqual(shortEq((short) 1, (short) 1), (short) 1 == (short) 1, "(short) 1 == (short) 1"); Tester.checkEqual(shortEq((short) 1, Short.MAX_VALUE), (short) 1 == Short.MAX_VALUE, "(short) 1 == Short.MAX_VALUE"); Tester.checkEqual(shortEq(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE == Short.MIN_VALUE, "Short.MAX_VALUE == Short.MIN_VALUE"); Tester.checkEqual(shortEq(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE == (short) -1, "Short.MAX_VALUE == (short) -1"); Tester.checkEqual(shortEq(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE == (short) 0, "Short.MAX_VALUE == (short) 0"); Tester.checkEqual(shortEq(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE == (short) 1, "Short.MAX_VALUE == (short) 1"); Tester.checkEqual(shortEq(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE == Short.MAX_VALUE, "Short.MAX_VALUE == Short.MAX_VALUE"); Tester.checkEqual(shortNe(Short.MIN_VALUE, Short.MIN_VALUE), Short.MIN_VALUE != Short.MIN_VALUE, "Short.MIN_VALUE != Short.MIN_VALUE"); Tester.checkEqual(shortNe(Short.MIN_VALUE, (short) -1), Short.MIN_VALUE != (short) -1, "Short.MIN_VALUE != (short) -1"); Tester.checkEqual(shortNe(Short.MIN_VALUE, (short) 0), Short.MIN_VALUE != (short) 0, "Short.MIN_VALUE != (short) 0"); Tester.checkEqual(shortNe(Short.MIN_VALUE, (short) 1), Short.MIN_VALUE != (short) 1, "Short.MIN_VALUE != (short) 1"); Tester.checkEqual(shortNe(Short.MIN_VALUE, Short.MAX_VALUE), Short.MIN_VALUE != Short.MAX_VALUE, "Short.MIN_VALUE != Short.MAX_VALUE"); Tester.checkEqual(shortNe((short) -1, Short.MIN_VALUE), (short) -1 != Short.MIN_VALUE, "(short) -1 != Short.MIN_VALUE"); Tester.checkEqual(shortNe((short) -1, (short) -1), (short) -1 != (short) -1, "(short) -1 != (short) -1"); Tester.checkEqual(shortNe((short) -1, (short) 0), (short) -1 != (short) 0, "(short) -1 != (short) 0"); Tester.checkEqual(shortNe((short) -1, (short) 1), (short) -1 != (short) 1, "(short) -1 != (short) 1"); Tester.checkEqual(shortNe((short) -1, Short.MAX_VALUE), (short) -1 != Short.MAX_VALUE, "(short) -1 != Short.MAX_VALUE"); Tester.checkEqual(shortNe((short) 0, Short.MIN_VALUE), (short) 0 != Short.MIN_VALUE, "(short) 0 != Short.MIN_VALUE"); Tester.checkEqual(shortNe((short) 0, (short) -1), (short) 0 != (short) -1, "(short) 0 != (short) -1"); Tester.checkEqual(shortNe((short) 0, (short) 0), (short) 0 != (short) 0, "(short) 0 != (short) 0"); Tester.checkEqual(shortNe((short) 0, (short) 1), (short) 0 != (short) 1, "(short) 0 != (short) 1"); Tester.checkEqual(shortNe((short) 0, Short.MAX_VALUE), (short) 0 != Short.MAX_VALUE, "(short) 0 != Short.MAX_VALUE"); Tester.checkEqual(shortNe((short) 1, Short.MIN_VALUE), (short) 1 != Short.MIN_VALUE, "(short) 1 != Short.MIN_VALUE"); Tester.checkEqual(shortNe((short) 1, (short) -1), (short) 1 != (short) -1, "(short) 1 != (short) -1"); Tester.checkEqual(shortNe((short) 1, (short) 0), (short) 1 != (short) 0, "(short) 1 != (short) 0"); Tester.checkEqual(shortNe((short) 1, (short) 1), (short) 1 != (short) 1, "(short) 1 != (short) 1"); Tester.checkEqual(shortNe((short) 1, Short.MAX_VALUE), (short) 1 != Short.MAX_VALUE, "(short) 1 != Short.MAX_VALUE"); Tester.checkEqual(shortNe(Short.MAX_VALUE, Short.MIN_VALUE), Short.MAX_VALUE != Short.MIN_VALUE, "Short.MAX_VALUE != Short.MIN_VALUE"); Tester.checkEqual(shortNe(Short.MAX_VALUE, (short) -1), Short.MAX_VALUE != (short) -1, "Short.MAX_VALUE != (short) -1"); Tester.checkEqual(shortNe(Short.MAX_VALUE, (short) 0), Short.MAX_VALUE != (short) 0, "Short.MAX_VALUE != (short) 0"); Tester.checkEqual(shortNe(Short.MAX_VALUE, (short) 1), Short.MAX_VALUE != (short) 1, "Short.MAX_VALUE != (short) 1"); Tester.checkEqual(shortNe(Short.MAX_VALUE, Short.MAX_VALUE), Short.MAX_VALUE != Short.MAX_VALUE, "Short.MAX_VALUE != Short.MAX_VALUE"); Tester.checkEqual(shortAnd(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE & Short.MIN_VALUE), "(short) (Short.MIN_VALUE & Short.MIN_VALUE)"); Tester.checkEqual(shortAnd(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE & (short) -1), "(short) (Short.MIN_VALUE & (short) -1)"); Tester.checkEqual(shortAnd(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE & (short) 0), "(short) (Short.MIN_VALUE & (short) 0)"); Tester.checkEqual(shortAnd(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE & (short) 1), "(short) (Short.MIN_VALUE & (short) 1)"); Tester.checkEqual(shortAnd(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE & Short.MAX_VALUE), "(short) (Short.MIN_VALUE & Short.MAX_VALUE)"); Tester.checkEqual(shortAnd((short) -1, Short.MIN_VALUE), (short) ((short) -1 & Short.MIN_VALUE), "(short) ((short) -1 & Short.MIN_VALUE)"); Tester.checkEqual(shortAnd((short) -1, (short) -1), (short) ((short) -1 & (short) -1), "(short) ((short) -1 & (short) -1)"); Tester.checkEqual(shortAnd((short) -1, (short) 0), (short) ((short) -1 & (short) 0), "(short) ((short) -1 & (short) 0)"); Tester.checkEqual(shortAnd((short) -1, (short) 1), (short) ((short) -1 & (short) 1), "(short) ((short) -1 & (short) 1)"); Tester.checkEqual(shortAnd((short) -1, Short.MAX_VALUE), (short) ((short) -1 & Short.MAX_VALUE), "(short) ((short) -1 & Short.MAX_VALUE)"); Tester.checkEqual(shortAnd((short) 0, Short.MIN_VALUE), (short) ((short) 0 & Short.MIN_VALUE), "(short) ((short) 0 & Short.MIN_VALUE)"); Tester.checkEqual(shortAnd((short) 0, (short) -1), (short) ((short) 0 & (short) -1), "(short) ((short) 0 & (short) -1)"); Tester.checkEqual(shortAnd((short) 0, (short) 0), (short) ((short) 0 & (short) 0), "(short) ((short) 0 & (short) 0)"); Tester.checkEqual(shortAnd((short) 0, (short) 1), (short) ((short) 0 & (short) 1), "(short) ((short) 0 & (short) 1)"); Tester.checkEqual(shortAnd((short) 0, Short.MAX_VALUE), (short) ((short) 0 & Short.MAX_VALUE), "(short) ((short) 0 & Short.MAX_VALUE)"); Tester.checkEqual(shortAnd((short) 1, Short.MIN_VALUE), (short) ((short) 1 & Short.MIN_VALUE), "(short) ((short) 1 & Short.MIN_VALUE)"); Tester.checkEqual(shortAnd((short) 1, (short) -1), (short) ((short) 1 & (short) -1), "(short) ((short) 1 & (short) -1)"); Tester.checkEqual(shortAnd((short) 1, (short) 0), (short) ((short) 1 & (short) 0), "(short) ((short) 1 & (short) 0)"); Tester.checkEqual(shortAnd((short) 1, (short) 1), (short) ((short) 1 & (short) 1), "(short) ((short) 1 & (short) 1)"); Tester.checkEqual(shortAnd((short) 1, Short.MAX_VALUE), (short) ((short) 1 & Short.MAX_VALUE), "(short) ((short) 1 & Short.MAX_VALUE)"); Tester.checkEqual(shortAnd(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE & Short.MIN_VALUE), "(short) (Short.MAX_VALUE & Short.MIN_VALUE)"); Tester.checkEqual(shortAnd(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE & (short) -1), "(short) (Short.MAX_VALUE & (short) -1)"); Tester.checkEqual(shortAnd(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE & (short) 0), "(short) (Short.MAX_VALUE & (short) 0)"); Tester.checkEqual(shortAnd(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE & (short) 1), "(short) (Short.MAX_VALUE & (short) 1)"); Tester.checkEqual(shortAnd(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE & Short.MAX_VALUE), "(short) (Short.MAX_VALUE & Short.MAX_VALUE)"); Tester.checkEqual(shortXor(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE ^ Short.MIN_VALUE), "(short) (Short.MIN_VALUE ^ Short.MIN_VALUE)"); Tester.checkEqual(shortXor(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE ^ (short) -1), "(short) (Short.MIN_VALUE ^ (short) -1)"); Tester.checkEqual(shortXor(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE ^ (short) 0), "(short) (Short.MIN_VALUE ^ (short) 0)"); Tester.checkEqual(shortXor(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE ^ (short) 1), "(short) (Short.MIN_VALUE ^ (short) 1)"); Tester.checkEqual(shortXor(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE ^ Short.MAX_VALUE), "(short) (Short.MIN_VALUE ^ Short.MAX_VALUE)"); Tester.checkEqual(shortXor((short) -1, Short.MIN_VALUE), (short) ((short) -1 ^ Short.MIN_VALUE), "(short) ((short) -1 ^ Short.MIN_VALUE)"); Tester.checkEqual(shortXor((short) -1, (short) -1), (short) ((short) -1 ^ (short) -1), "(short) ((short) -1 ^ (short) -1)"); Tester.checkEqual(shortXor((short) -1, (short) 0), (short) ((short) -1 ^ (short) 0), "(short) ((short) -1 ^ (short) 0)"); Tester.checkEqual(shortXor((short) -1, (short) 1), (short) ((short) -1 ^ (short) 1), "(short) ((short) -1 ^ (short) 1)"); Tester.checkEqual(shortXor((short) -1, Short.MAX_VALUE), (short) ((short) -1 ^ Short.MAX_VALUE), "(short) ((short) -1 ^ Short.MAX_VALUE)"); Tester.checkEqual(shortXor((short) 0, Short.MIN_VALUE), (short) ((short) 0 ^ Short.MIN_VALUE), "(short) ((short) 0 ^ Short.MIN_VALUE)"); Tester.checkEqual(shortXor((short) 0, (short) -1), (short) ((short) 0 ^ (short) -1), "(short) ((short) 0 ^ (short) -1)"); Tester.checkEqual(shortXor((short) 0, (short) 0), (short) ((short) 0 ^ (short) 0), "(short) ((short) 0 ^ (short) 0)"); Tester.checkEqual(shortXor((short) 0, (short) 1), (short) ((short) 0 ^ (short) 1), "(short) ((short) 0 ^ (short) 1)"); Tester.checkEqual(shortXor((short) 0, Short.MAX_VALUE), (short) ((short) 0 ^ Short.MAX_VALUE), "(short) ((short) 0 ^ Short.MAX_VALUE)"); Tester.checkEqual(shortXor((short) 1, Short.MIN_VALUE), (short) ((short) 1 ^ Short.MIN_VALUE), "(short) ((short) 1 ^ Short.MIN_VALUE)"); Tester.checkEqual(shortXor((short) 1, (short) -1), (short) ((short) 1 ^ (short) -1), "(short) ((short) 1 ^ (short) -1)"); Tester.checkEqual(shortXor((short) 1, (short) 0), (short) ((short) 1 ^ (short) 0), "(short) ((short) 1 ^ (short) 0)"); Tester.checkEqual(shortXor((short) 1, (short) 1), (short) ((short) 1 ^ (short) 1), "(short) ((short) 1 ^ (short) 1)"); Tester.checkEqual(shortXor((short) 1, Short.MAX_VALUE), (short) ((short) 1 ^ Short.MAX_VALUE), "(short) ((short) 1 ^ Short.MAX_VALUE)"); Tester.checkEqual(shortXor(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE ^ Short.MIN_VALUE), "(short) (Short.MAX_VALUE ^ Short.MIN_VALUE)"); Tester.checkEqual(shortXor(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE ^ (short) -1), "(short) (Short.MAX_VALUE ^ (short) -1)"); Tester.checkEqual(shortXor(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE ^ (short) 0), "(short) (Short.MAX_VALUE ^ (short) 0)"); Tester.checkEqual(shortXor(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE ^ (short) 1), "(short) (Short.MAX_VALUE ^ (short) 1)"); Tester.checkEqual(shortXor(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE ^ Short.MAX_VALUE), "(short) (Short.MAX_VALUE ^ Short.MAX_VALUE)"); Tester.checkEqual(shortOr(Short.MIN_VALUE, Short.MIN_VALUE), (short) (Short.MIN_VALUE | Short.MIN_VALUE), "(short) (Short.MIN_VALUE | Short.MIN_VALUE)"); Tester.checkEqual(shortOr(Short.MIN_VALUE, (short) -1), (short) (Short.MIN_VALUE | (short) -1), "(short) (Short.MIN_VALUE | (short) -1)"); Tester.checkEqual(shortOr(Short.MIN_VALUE, (short) 0), (short) (Short.MIN_VALUE | (short) 0), "(short) (Short.MIN_VALUE | (short) 0)"); Tester.checkEqual(shortOr(Short.MIN_VALUE, (short) 1), (short) (Short.MIN_VALUE | (short) 1), "(short) (Short.MIN_VALUE | (short) 1)"); Tester.checkEqual(shortOr(Short.MIN_VALUE, Short.MAX_VALUE), (short) (Short.MIN_VALUE | Short.MAX_VALUE), "(short) (Short.MIN_VALUE | Short.MAX_VALUE)"); Tester.checkEqual(shortOr((short) -1, Short.MIN_VALUE), (short) ((short) -1 | Short.MIN_VALUE), "(short) ((short) -1 | Short.MIN_VALUE)"); Tester.checkEqual(shortOr((short) -1, (short) -1), (short) ((short) -1 | (short) -1), "(short) ((short) -1 | (short) -1)"); Tester.checkEqual(shortOr((short) -1, (short) 0), (short) ((short) -1 | (short) 0), "(short) ((short) -1 | (short) 0)"); Tester.checkEqual(shortOr((short) -1, (short) 1), (short) ((short) -1 | (short) 1), "(short) ((short) -1 | (short) 1)"); Tester.checkEqual(shortOr((short) -1, Short.MAX_VALUE), (short) ((short) -1 | Short.MAX_VALUE), "(short) ((short) -1 | Short.MAX_VALUE)"); Tester.checkEqual(shortOr((short) 0, Short.MIN_VALUE), (short) ((short) 0 | Short.MIN_VALUE), "(short) ((short) 0 | Short.MIN_VALUE)"); Tester.checkEqual(shortOr((short) 0, (short) -1), (short) ((short) 0 | (short) -1), "(short) ((short) 0 | (short) -1)"); Tester.checkEqual(shortOr((short) 0, (short) 0), (short) ((short) 0 | (short) 0), "(short) ((short) 0 | (short) 0)"); Tester.checkEqual(shortOr((short) 0, (short) 1), (short) ((short) 0 | (short) 1), "(short) ((short) 0 | (short) 1)"); Tester.checkEqual(shortOr((short) 0, Short.MAX_VALUE), (short) ((short) 0 | Short.MAX_VALUE), "(short) ((short) 0 | Short.MAX_VALUE)"); Tester.checkEqual(shortOr((short) 1, Short.MIN_VALUE), (short) ((short) 1 | Short.MIN_VALUE), "(short) ((short) 1 | Short.MIN_VALUE)"); Tester.checkEqual(shortOr((short) 1, (short) -1), (short) ((short) 1 | (short) -1), "(short) ((short) 1 | (short) -1)"); Tester.checkEqual(shortOr((short) 1, (short) 0), (short) ((short) 1 | (short) 0), "(short) ((short) 1 | (short) 0)"); Tester.checkEqual(shortOr((short) 1, (short) 1), (short) ((short) 1 | (short) 1), "(short) ((short) 1 | (short) 1)"); Tester.checkEqual(shortOr((short) 1, Short.MAX_VALUE), (short) ((short) 1 | Short.MAX_VALUE), "(short) ((short) 1 | Short.MAX_VALUE)"); Tester.checkEqual(shortOr(Short.MAX_VALUE, Short.MIN_VALUE), (short) (Short.MAX_VALUE | Short.MIN_VALUE), "(short) (Short.MAX_VALUE | Short.MIN_VALUE)"); Tester.checkEqual(shortOr(Short.MAX_VALUE, (short) -1), (short) (Short.MAX_VALUE | (short) -1), "(short) (Short.MAX_VALUE | (short) -1)"); Tester.checkEqual(shortOr(Short.MAX_VALUE, (short) 0), (short) (Short.MAX_VALUE | (short) 0), "(short) (Short.MAX_VALUE | (short) 0)"); Tester.checkEqual(shortOr(Short.MAX_VALUE, (short) 1), (short) (Short.MAX_VALUE | (short) 1), "(short) (Short.MAX_VALUE | (short) 1)"); Tester.checkEqual(shortOr(Short.MAX_VALUE, Short.MAX_VALUE), (short) (Short.MAX_VALUE | Short.MAX_VALUE), "(short) (Short.MAX_VALUE | Short.MAX_VALUE)"); } static void shortSwitch() { switch(0) { case ((((short) + Short.MIN_VALUE) == 0) ? 0 : 0): case ((((short) + (short) -1) == 0) ? 1 : 1): case ((((short) + (short) 0) == 0) ? 2 : 2): case ((((short) + (short) 1) == 0) ? 3 : 3): case ((((short) + Short.MAX_VALUE) == 0) ? 4 : 4): case ((((short) - Short.MIN_VALUE) == 0) ? 5 : 5): case ((((short) - (short) -1) == 0) ? 6 : 6): case ((((short) - (short) 0) == 0) ? 7 : 7): case ((((short) - (short) 1) == 0) ? 8 : 8): case ((((short) - Short.MAX_VALUE) == 0) ? 9 : 9): case ((((short) ~ Short.MIN_VALUE) == 0) ? 10 : 10): case ((((short) ~ (short) -1) == 0) ? 11 : 11): case ((((short) ~ (short) 0) == 0) ? 12 : 12): case ((((short) ~ (short) 1) == 0) ? 13 : 13): case ((((short) ~ Short.MAX_VALUE) == 0) ? 14 : 14): case ((((short) (Short.MIN_VALUE * Short.MIN_VALUE)) == 0) ? 15 : 15): case ((((short) (Short.MIN_VALUE * (short) -1)) == 0) ? 16 : 16): case ((((short) (Short.MIN_VALUE * (short) 0)) == 0) ? 17 : 17): case ((((short) (Short.MIN_VALUE * (short) 1)) == 0) ? 18 : 18): case ((((short) (Short.MIN_VALUE * Short.MAX_VALUE)) == 0) ? 19 : 19): case ((((short) ((short) -1 * Short.MIN_VALUE)) == 0) ? 20 : 20): case ((((short) ((short) -1 * (short) -1)) == 0) ? 21 : 21): case ((((short) ((short) -1 * (short) 0)) == 0) ? 22 : 22): case ((((short) ((short) -1 * (short) 1)) == 0) ? 23 : 23): case ((((short) ((short) -1 * Short.MAX_VALUE)) == 0) ? 24 : 24): case ((((short) ((short) 0 * Short.MIN_VALUE)) == 0) ? 25 : 25): case ((((short) ((short) 0 * (short) -1)) == 0) ? 26 : 26): case ((((short) ((short) 0 * (short) 0)) == 0) ? 27 : 27): case ((((short) ((short) 0 * (short) 1)) == 0) ? 28 : 28): case ((((short) ((short) 0 * Short.MAX_VALUE)) == 0) ? 29 : 29): case ((((short) ((short) 1 * Short.MIN_VALUE)) == 0) ? 30 : 30): case ((((short) ((short) 1 * (short) -1)) == 0) ? 31 : 31): case ((((short) ((short) 1 * (short) 0)) == 0) ? 32 : 32): case ((((short) ((short) 1 * (short) 1)) == 0) ? 33 : 33): case ((((short) ((short) 1 * Short.MAX_VALUE)) == 0) ? 34 : 34): case ((((short) (Short.MAX_VALUE * Short.MIN_VALUE)) == 0) ? 35 : 35): case ((((short) (Short.MAX_VALUE * (short) -1)) == 0) ? 36 : 36): case ((((short) (Short.MAX_VALUE * (short) 0)) == 0) ? 37 : 37): case ((((short) (Short.MAX_VALUE * (short) 1)) == 0) ? 38 : 38): case ((((short) (Short.MAX_VALUE * Short.MAX_VALUE)) == 0) ? 39 : 39): case ((((short) (Short.MIN_VALUE / Short.MIN_VALUE)) == 0) ? 40 : 40): case ((((short) (Short.MIN_VALUE / (short) -1)) == 0) ? 41 : 41): case ((((short) (Short.MIN_VALUE / (short) 1)) == 0) ? 42 : 42): case ((((short) (Short.MIN_VALUE / Short.MAX_VALUE)) == 0) ? 43 : 43): case ((((short) ((short) -1 / Short.MIN_VALUE)) == 0) ? 44 : 44): case ((((short) ((short) -1 / (short) -1)) == 0) ? 45 : 45): case ((((short) ((short) -1 / (short) 1)) == 0) ? 46 : 46): case ((((short) ((short) -1 / Short.MAX_VALUE)) == 0) ? 47 : 47): case ((((short) ((short) 0 / Short.MIN_VALUE)) == 0) ? 48 : 48): case ((((short) ((short) 0 / (short) -1)) == 0) ? 49 : 49): case ((((short) ((short) 0 / (short) 1)) == 0) ? 50 : 50): case ((((short) ((short) 0 / Short.MAX_VALUE)) == 0) ? 51 : 51): case ((((short) ((short) 1 / Short.MIN_VALUE)) == 0) ? 52 : 52): case ((((short) ((short) 1 / (short) -1)) == 0) ? 53 : 53): case ((((short) ((short) 1 / (short) 1)) == 0) ? 54 : 54): case ((((short) ((short) 1 / Short.MAX_VALUE)) == 0) ? 55 : 55): case ((((short) (Short.MAX_VALUE / Short.MIN_VALUE)) == 0) ? 56 : 56): case ((((short) (Short.MAX_VALUE / (short) -1)) == 0) ? 57 : 57): case ((((short) (Short.MAX_VALUE / (short) 1)) == 0) ? 58 : 58): case ((((short) (Short.MAX_VALUE / Short.MAX_VALUE)) == 0) ? 59 : 59): case ((((short) (Short.MIN_VALUE % Short.MIN_VALUE)) == 0) ? 60 : 60): case ((((short) (Short.MIN_VALUE % (short) -1)) == 0) ? 61 : 61): case ((((short) (Short.MIN_VALUE % (short) 1)) == 0) ? 62 : 62): case ((((short) (Short.MIN_VALUE % Short.MAX_VALUE)) == 0) ? 63 : 63): case ((((short) ((short) -1 % Short.MIN_VALUE)) == 0) ? 64 : 64): case ((((short) ((short) -1 % (short) -1)) == 0) ? 65 : 65): case ((((short) ((short) -1 % (short) 1)) == 0) ? 66 : 66): case ((((short) ((short) -1 % Short.MAX_VALUE)) == 0) ? 67 : 67): case ((((short) ((short) 0 % Short.MIN_VALUE)) == 0) ? 68 : 68): case ((((short) ((short) 0 % (short) -1)) == 0) ? 69 : 69): case ((((short) ((short) 0 % (short) 1)) == 0) ? 70 : 70): case ((((short) ((short) 0 % Short.MAX_VALUE)) == 0) ? 71 : 71): case ((((short) ((short) 1 % Short.MIN_VALUE)) == 0) ? 72 : 72): case ((((short) ((short) 1 % (short) -1)) == 0) ? 73 : 73): case ((((short) ((short) 1 % (short) 1)) == 0) ? 74 : 74): case ((((short) ((short) 1 % Short.MAX_VALUE)) == 0) ? 75 : 75): case ((((short) (Short.MAX_VALUE % Short.MIN_VALUE)) == 0) ? 76 : 76): case ((((short) (Short.MAX_VALUE % (short) -1)) == 0) ? 77 : 77): case ((((short) (Short.MAX_VALUE % (short) 1)) == 0) ? 78 : 78): case ((((short) (Short.MAX_VALUE % Short.MAX_VALUE)) == 0) ? 79 : 79): case ((((short) (Short.MIN_VALUE + Short.MIN_VALUE)) == 0) ? 80 : 80): case ((((short) (Short.MIN_VALUE + (short) -1)) == 0) ? 81 : 81): case ((((short) (Short.MIN_VALUE + (short) 0)) == 0) ? 82 : 82): case ((((short) (Short.MIN_VALUE + (short) 1)) == 0) ? 83 : 83): case ((((short) (Short.MIN_VALUE + Short.MAX_VALUE)) == 0) ? 84 : 84): case ((((short) ((short) -1 + Short.MIN_VALUE)) == 0) ? 85 : 85): case ((((short) ((short) -1 + (short) -1)) == 0) ? 86 : 86): case ((((short) ((short) -1 + (short) 0)) == 0) ? 87 : 87): case ((((short) ((short) -1 + (short) 1)) == 0) ? 88 : 88): case ((((short) ((short) -1 + Short.MAX_VALUE)) == 0) ? 89 : 89): case ((((short) ((short) 0 + Short.MIN_VALUE)) == 0) ? 90 : 90): case ((((short) ((short) 0 + (short) -1)) == 0) ? 91 : 91): case ((((short) ((short) 0 + (short) 0)) == 0) ? 92 : 92): case ((((short) ((short) 0 + (short) 1)) == 0) ? 93 : 93): case ((((short) ((short) 0 + Short.MAX_VALUE)) == 0) ? 94 : 94): case ((((short) ((short) 1 + Short.MIN_VALUE)) == 0) ? 95 : 95): case ((((short) ((short) 1 + (short) -1)) == 0) ? 96 : 96): case ((((short) ((short) 1 + (short) 0)) == 0) ? 97 : 97): case ((((short) ((short) 1 + (short) 1)) == 0) ? 98 : 98): case ((((short) ((short) 1 + Short.MAX_VALUE)) == 0) ? 99 : 99): case ((((short) (Short.MAX_VALUE + Short.MIN_VALUE)) == 0) ? 100 : 100): case ((((short) (Short.MAX_VALUE + (short) -1)) == 0) ? 101 : 101): case ((((short) (Short.MAX_VALUE + (short) 0)) == 0) ? 102 : 102): case ((((short) (Short.MAX_VALUE + (short) 1)) == 0) ? 103 : 103): case ((((short) (Short.MAX_VALUE + Short.MAX_VALUE)) == 0) ? 104 : 104): case ((((short) (Short.MIN_VALUE - Short.MIN_VALUE)) == 0) ? 105 : 105): case ((((short) (Short.MIN_VALUE - (short) -1)) == 0) ? 106 : 106): case ((((short) (Short.MIN_VALUE - (short) 0)) == 0) ? 107 : 107): case ((((short) (Short.MIN_VALUE - (short) 1)) == 0) ? 108 : 108): case ((((short) (Short.MIN_VALUE - Short.MAX_VALUE)) == 0) ? 109 : 109): case ((((short) ((short) -1 - Short.MIN_VALUE)) == 0) ? 110 : 110): case ((((short) ((short) -1 - (short) -1)) == 0) ? 111 : 111): case ((((short) ((short) -1 - (short) 0)) == 0) ? 112 : 112): case ((((short) ((short) -1 - (short) 1)) == 0) ? 113 : 113): case ((((short) ((short) -1 - Short.MAX_VALUE)) == 0) ? 114 : 114): case ((((short) ((short) 0 - Short.MIN_VALUE)) == 0) ? 115 : 115): case ((((short) ((short) 0 - (short) -1)) == 0) ? 116 : 116): case ((((short) ((short) 0 - (short) 0)) == 0) ? 117 : 117): case ((((short) ((short) 0 - (short) 1)) == 0) ? 118 : 118): case ((((short) ((short) 0 - Short.MAX_VALUE)) == 0) ? 119 : 119): case ((((short) ((short) 1 - Short.MIN_VALUE)) == 0) ? 120 : 120): case ((((short) ((short) 1 - (short) -1)) == 0) ? 121 : 121): case ((((short) ((short) 1 - (short) 0)) == 0) ? 122 : 122): case ((((short) ((short) 1 - (short) 1)) == 0) ? 123 : 123): case ((((short) ((short) 1 - Short.MAX_VALUE)) == 0) ? 124 : 124): case ((((short) (Short.MAX_VALUE - Short.MIN_VALUE)) == 0) ? 125 : 125): case ((((short) (Short.MAX_VALUE - (short) -1)) == 0) ? 126 : 126): case ((((short) (Short.MAX_VALUE - (short) 0)) == 0) ? 127 : 127): case ((((short) (Short.MAX_VALUE - (short) 1)) == 0) ? 128 : 128): case ((((short) (Short.MAX_VALUE - Short.MAX_VALUE)) == 0) ? 129 : 129): case ((((short) (Short.MIN_VALUE << Short.MIN_VALUE)) == 0) ? 130 : 130): case ((((short) (Short.MIN_VALUE << (short) -1)) == 0) ? 131 : 131): case ((((short) (Short.MIN_VALUE << (short) 0)) == 0) ? 132 : 132): case ((((short) (Short.MIN_VALUE << (short) 1)) == 0) ? 133 : 133): case ((((short) (Short.MIN_VALUE << Short.MAX_VALUE)) == 0) ? 134 : 134): case ((((short) ((short) -1 << Short.MIN_VALUE)) == 0) ? 135 : 135): case ((((short) ((short) -1 << (short) -1)) == 0) ? 136 : 136): case ((((short) ((short) -1 << (short) 0)) == 0) ? 137 : 137): case ((((short) ((short) -1 << (short) 1)) == 0) ? 138 : 138): case ((((short) ((short) -1 << Short.MAX_VALUE)) == 0) ? 139 : 139): case ((((short) ((short) 0 << Short.MIN_VALUE)) == 0) ? 140 : 140): case ((((short) ((short) 0 << (short) -1)) == 0) ? 141 : 141): case ((((short) ((short) 0 << (short) 0)) == 0) ? 142 : 142): case ((((short) ((short) 0 << (short) 1)) == 0) ? 143 : 143): case ((((short) ((short) 0 << Short.MAX_VALUE)) == 0) ? 144 : 144): case ((((short) ((short) 1 << Short.MIN_VALUE)) == 0) ? 145 : 145): case ((((short) ((short) 1 << (short) -1)) == 0) ? 146 : 146): case ((((short) ((short) 1 << (short) 0)) == 0) ? 147 : 147): case ((((short) ((short) 1 << (short) 1)) == 0) ? 148 : 148): case ((((short) ((short) 1 << Short.MAX_VALUE)) == 0) ? 149 : 149): case ((((short) (Short.MAX_VALUE << Short.MIN_VALUE)) == 0) ? 150 : 150): case ((((short) (Short.MAX_VALUE << (short) -1)) == 0) ? 151 : 151): case ((((short) (Short.MAX_VALUE << (short) 0)) == 0) ? 152 : 152): case ((((short) (Short.MAX_VALUE << (short) 1)) == 0) ? 153 : 153): case ((((short) (Short.MAX_VALUE << Short.MAX_VALUE)) == 0) ? 154 : 154): case ((((short) (Short.MIN_VALUE >> Short.MIN_VALUE)) == 0) ? 155 : 155): case ((((short) (Short.MIN_VALUE >> (short) -1)) == 0) ? 156 : 156): case ((((short) (Short.MIN_VALUE >> (short) 0)) == 0) ? 157 : 157): case ((((short) (Short.MIN_VALUE >> (short) 1)) == 0) ? 158 : 158): case ((((short) (Short.MIN_VALUE >> Short.MAX_VALUE)) == 0) ? 159 : 159): case ((((short) ((short) -1 >> Short.MIN_VALUE)) == 0) ? 160 : 160): case ((((short) ((short) -1 >> (short) -1)) == 0) ? 161 : 161): case ((((short) ((short) -1 >> (short) 0)) == 0) ? 162 : 162): case ((((short) ((short) -1 >> (short) 1)) == 0) ? 163 : 163): case ((((short) ((short) -1 >> Short.MAX_VALUE)) == 0) ? 164 : 164): case ((((short) ((short) 0 >> Short.MIN_VALUE)) == 0) ? 165 : 165): case ((((short) ((short) 0 >> (short) -1)) == 0) ? 166 : 166): case ((((short) ((short) 0 >> (short) 0)) == 0) ? 167 : 167): case ((((short) ((short) 0 >> (short) 1)) == 0) ? 168 : 168): case ((((short) ((short) 0 >> Short.MAX_VALUE)) == 0) ? 169 : 169): case ((((short) ((short) 1 >> Short.MIN_VALUE)) == 0) ? 170 : 170): case ((((short) ((short) 1 >> (short) -1)) == 0) ? 171 : 171): case ((((short) ((short) 1 >> (short) 0)) == 0) ? 172 : 172): case ((((short) ((short) 1 >> (short) 1)) == 0) ? 173 : 173): case ((((short) ((short) 1 >> Short.MAX_VALUE)) == 0) ? 174 : 174): case ((((short) (Short.MAX_VALUE >> Short.MIN_VALUE)) == 0) ? 175 : 175): case ((((short) (Short.MAX_VALUE >> (short) -1)) == 0) ? 176 : 176): case ((((short) (Short.MAX_VALUE >> (short) 0)) == 0) ? 177 : 177): case ((((short) (Short.MAX_VALUE >> (short) 1)) == 0) ? 178 : 178): case ((((short) (Short.MAX_VALUE >> Short.MAX_VALUE)) == 0) ? 179 : 179): case ((((short) (Short.MIN_VALUE >>> Short.MIN_VALUE)) == 0) ? 180 : 180): case ((((short) (Short.MIN_VALUE >>> (short) -1)) == 0) ? 181 : 181): case ((((short) (Short.MIN_VALUE >>> (short) 0)) == 0) ? 182 : 182): case ((((short) (Short.MIN_VALUE >>> (short) 1)) == 0) ? 183 : 183): case ((((short) (Short.MIN_VALUE >>> Short.MAX_VALUE)) == 0) ? 184 : 184): case ((((short) ((short) -1 >>> Short.MIN_VALUE)) == 0) ? 185 : 185): case ((((short) ((short) -1 >>> (short) -1)) == 0) ? 186 : 186): case ((((short) ((short) -1 >>> (short) 0)) == 0) ? 187 : 187): case ((((short) ((short) -1 >>> (short) 1)) == 0) ? 188 : 188): case ((((short) ((short) -1 >>> Short.MAX_VALUE)) == 0) ? 189 : 189): case ((((short) ((short) 0 >>> Short.MIN_VALUE)) == 0) ? 190 : 190): case ((((short) ((short) 0 >>> (short) -1)) == 0) ? 191 : 191): case ((((short) ((short) 0 >>> (short) 0)) == 0) ? 192 : 192): case ((((short) ((short) 0 >>> (short) 1)) == 0) ? 193 : 193): case ((((short) ((short) 0 >>> Short.MAX_VALUE)) == 0) ? 194 : 194): case ((((short) ((short) 1 >>> Short.MIN_VALUE)) == 0) ? 195 : 195): case ((((short) ((short) 1 >>> (short) -1)) == 0) ? 196 : 196): case ((((short) ((short) 1 >>> (short) 0)) == 0) ? 197 : 197): case ((((short) ((short) 1 >>> (short) 1)) == 0) ? 198 : 198): case ((((short) ((short) 1 >>> Short.MAX_VALUE)) == 0) ? 199 : 199): case ((((short) (Short.MAX_VALUE >>> Short.MIN_VALUE)) == 0) ? 200 : 200): case ((((short) (Short.MAX_VALUE >>> (short) -1)) == 0) ? 201 : 201): case ((((short) (Short.MAX_VALUE >>> (short) 0)) == 0) ? 202 : 202): case ((((short) (Short.MAX_VALUE >>> (short) 1)) == 0) ? 203 : 203): case ((((short) (Short.MAX_VALUE >>> Short.MAX_VALUE)) == 0) ? 204 : 204): case ((Short.MIN_VALUE < Short.MIN_VALUE) ? 205 : 205): case ((Short.MIN_VALUE < (short) -1) ? 206 : 206): case ((Short.MIN_VALUE < (short) 0) ? 207 : 207): case ((Short.MIN_VALUE < (short) 1) ? 208 : 208): case ((Short.MIN_VALUE < Short.MAX_VALUE) ? 209 : 209): case (((short) -1 < Short.MIN_VALUE) ? 210 : 210): case (((short) -1 < (short) -1) ? 211 : 211): case (((short) -1 < (short) 0) ? 212 : 212): case (((short) -1 < (short) 1) ? 213 : 213): case (((short) -1 < Short.MAX_VALUE) ? 214 : 214): case (((short) 0 < Short.MIN_VALUE) ? 215 : 215): case (((short) 0 < (short) -1) ? 216 : 216): case (((short) 0 < (short) 0) ? 217 : 217): case (((short) 0 < (short) 1) ? 218 : 218): case (((short) 0 < Short.MAX_VALUE) ? 219 : 219): case (((short) 1 < Short.MIN_VALUE) ? 220 : 220): case (((short) 1 < (short) -1) ? 221 : 221): case (((short) 1 < (short) 0) ? 222 : 222): case (((short) 1 < (short) 1) ? 223 : 223): case (((short) 1 < Short.MAX_VALUE) ? 224 : 224): case ((Short.MAX_VALUE < Short.MIN_VALUE) ? 225 : 225): case ((Short.MAX_VALUE < (short) -1) ? 226 : 226): case ((Short.MAX_VALUE < (short) 0) ? 227 : 227): case ((Short.MAX_VALUE < (short) 1) ? 228 : 228): case ((Short.MAX_VALUE < Short.MAX_VALUE) ? 229 : 229): case ((Short.MIN_VALUE > Short.MIN_VALUE) ? 230 : 230): case ((Short.MIN_VALUE > (short) -1) ? 231 : 231): case ((Short.MIN_VALUE > (short) 0) ? 232 : 232): case ((Short.MIN_VALUE > (short) 1) ? 233 : 233): case ((Short.MIN_VALUE > Short.MAX_VALUE) ? 234 : 234): case (((short) -1 > Short.MIN_VALUE) ? 235 : 235): case (((short) -1 > (short) -1) ? 236 : 236): case (((short) -1 > (short) 0) ? 237 : 237): case (((short) -1 > (short) 1) ? 238 : 238): case (((short) -1 > Short.MAX_VALUE) ? 239 : 239): case (((short) 0 > Short.MIN_VALUE) ? 240 : 240): case (((short) 0 > (short) -1) ? 241 : 241): case (((short) 0 > (short) 0) ? 242 : 242): case (((short) 0 > (short) 1) ? 243 : 243): case (((short) 0 > Short.MAX_VALUE) ? 244 : 244): case (((short) 1 > Short.MIN_VALUE) ? 245 : 245): case (((short) 1 > (short) -1) ? 246 : 246): case (((short) 1 > (short) 0) ? 247 : 247): case (((short) 1 > (short) 1) ? 248 : 248): case (((short) 1 > Short.MAX_VALUE) ? 249 : 249): case ((Short.MAX_VALUE > Short.MIN_VALUE) ? 250 : 250): case ((Short.MAX_VALUE > (short) -1) ? 251 : 251): case ((Short.MAX_VALUE > (short) 0) ? 252 : 252): case ((Short.MAX_VALUE > (short) 1) ? 253 : 253): case ((Short.MAX_VALUE > Short.MAX_VALUE) ? 254 : 254): case ((Short.MIN_VALUE <= Short.MIN_VALUE) ? 255 : 255): case ((Short.MIN_VALUE <= (short) -1) ? 256 : 256): case ((Short.MIN_VALUE <= (short) 0) ? 257 : 257): case ((Short.MIN_VALUE <= (short) 1) ? 258 : 258): case ((Short.MIN_VALUE <= Short.MAX_VALUE) ? 259 : 259): case (((short) -1 <= Short.MIN_VALUE) ? 260 : 260): case (((short) -1 <= (short) -1) ? 261 : 261): case (((short) -1 <= (short) 0) ? 262 : 262): case (((short) -1 <= (short) 1) ? 263 : 263): case (((short) -1 <= Short.MAX_VALUE) ? 264 : 264): case (((short) 0 <= Short.MIN_VALUE) ? 265 : 265): case (((short) 0 <= (short) -1) ? 266 : 266): case (((short) 0 <= (short) 0) ? 267 : 267): case (((short) 0 <= (short) 1) ? 268 : 268): case (((short) 0 <= Short.MAX_VALUE) ? 269 : 269): case (((short) 1 <= Short.MIN_VALUE) ? 270 : 270): case (((short) 1 <= (short) -1) ? 271 : 271): case (((short) 1 <= (short) 0) ? 272 : 272): case (((short) 1 <= (short) 1) ? 273 : 273): case (((short) 1 <= Short.MAX_VALUE) ? 274 : 274): case ((Short.MAX_VALUE <= Short.MIN_VALUE) ? 275 : 275): case ((Short.MAX_VALUE <= (short) -1) ? 276 : 276): case ((Short.MAX_VALUE <= (short) 0) ? 277 : 277): case ((Short.MAX_VALUE <= (short) 1) ? 278 : 278): case ((Short.MAX_VALUE <= Short.MAX_VALUE) ? 279 : 279): case ((Short.MIN_VALUE >= Short.MIN_VALUE) ? 280 : 280): case ((Short.MIN_VALUE >= (short) -1) ? 281 : 281): case ((Short.MIN_VALUE >= (short) 0) ? 282 : 282): case ((Short.MIN_VALUE >= (short) 1) ? 283 : 283): case ((Short.MIN_VALUE >= Short.MAX_VALUE) ? 284 : 284): case (((short) -1 >= Short.MIN_VALUE) ? 285 : 285): case (((short) -1 >= (short) -1) ? 286 : 286): case (((short) -1 >= (short) 0) ? 287 : 287): case (((short) -1 >= (short) 1) ? 288 : 288): case (((short) -1 >= Short.MAX_VALUE) ? 289 : 289): case (((short) 0 >= Short.MIN_VALUE) ? 290 : 290): case (((short) 0 >= (short) -1) ? 291 : 291): case (((short) 0 >= (short) 0) ? 292 : 292): case (((short) 0 >= (short) 1) ? 293 : 293): case (((short) 0 >= Short.MAX_VALUE) ? 294 : 294): case (((short) 1 >= Short.MIN_VALUE) ? 295 : 295): case (((short) 1 >= (short) -1) ? 296 : 296): case (((short) 1 >= (short) 0) ? 297 : 297): case (((short) 1 >= (short) 1) ? 298 : 298): case (((short) 1 >= Short.MAX_VALUE) ? 299 : 299): case ((Short.MAX_VALUE >= Short.MIN_VALUE) ? 300 : 300): case ((Short.MAX_VALUE >= (short) -1) ? 301 : 301): case ((Short.MAX_VALUE >= (short) 0) ? 302 : 302): case ((Short.MAX_VALUE >= (short) 1) ? 303 : 303): case ((Short.MAX_VALUE >= Short.MAX_VALUE) ? 304 : 304): case ((Short.MIN_VALUE == Short.MIN_VALUE) ? 305 : 305): case ((Short.MIN_VALUE == (short) -1) ? 306 : 306): case ((Short.MIN_VALUE == (short) 0) ? 307 : 307): case ((Short.MIN_VALUE == (short) 1) ? 308 : 308): case ((Short.MIN_VALUE == Short.MAX_VALUE) ? 309 : 309): case (((short) -1 == Short.MIN_VALUE) ? 310 : 310): case (((short) -1 == (short) -1) ? 311 : 311): case (((short) -1 == (short) 0) ? 312 : 312): case (((short) -1 == (short) 1) ? 313 : 313): case (((short) -1 == Short.MAX_VALUE) ? 314 : 314): case (((short) 0 == Short.MIN_VALUE) ? 315 : 315): case (((short) 0 == (short) -1) ? 316 : 316): case (((short) 0 == (short) 0) ? 317 : 317): case (((short) 0 == (short) 1) ? 318 : 318): case (((short) 0 == Short.MAX_VALUE) ? 319 : 319): case (((short) 1 == Short.MIN_VALUE) ? 320 : 320): case (((short) 1 == (short) -1) ? 321 : 321): case (((short) 1 == (short) 0) ? 322 : 322): case (((short) 1 == (short) 1) ? 323 : 323): case (((short) 1 == Short.MAX_VALUE) ? 324 : 324): case ((Short.MAX_VALUE == Short.MIN_VALUE) ? 325 : 325): case ((Short.MAX_VALUE == (short) -1) ? 326 : 326): case ((Short.MAX_VALUE == (short) 0) ? 327 : 327): case ((Short.MAX_VALUE == (short) 1) ? 328 : 328): case ((Short.MAX_VALUE == Short.MAX_VALUE) ? 329 : 329): case ((Short.MIN_VALUE != Short.MIN_VALUE) ? 330 : 330): case ((Short.MIN_VALUE != (short) -1) ? 331 : 331): case ((Short.MIN_VALUE != (short) 0) ? 332 : 332): case ((Short.MIN_VALUE != (short) 1) ? 333 : 333): case ((Short.MIN_VALUE != Short.MAX_VALUE) ? 334 : 334): case (((short) -1 != Short.MIN_VALUE) ? 335 : 335): case (((short) -1 != (short) -1) ? 336 : 336): case (((short) -1 != (short) 0) ? 337 : 337): case (((short) -1 != (short) 1) ? 338 : 338): case (((short) -1 != Short.MAX_VALUE) ? 339 : 339): case (((short) 0 != Short.MIN_VALUE) ? 340 : 340): case (((short) 0 != (short) -1) ? 341 : 341): case (((short) 0 != (short) 0) ? 342 : 342): case (((short) 0 != (short) 1) ? 343 : 343): case (((short) 0 != Short.MAX_VALUE) ? 344 : 344): case (((short) 1 != Short.MIN_VALUE) ? 345 : 345): case (((short) 1 != (short) -1) ? 346 : 346): case (((short) 1 != (short) 0) ? 347 : 347): case (((short) 1 != (short) 1) ? 348 : 348): case (((short) 1 != Short.MAX_VALUE) ? 349 : 349): case ((Short.MAX_VALUE != Short.MIN_VALUE) ? 350 : 350): case ((Short.MAX_VALUE != (short) -1) ? 351 : 351): case ((Short.MAX_VALUE != (short) 0) ? 352 : 352): case ((Short.MAX_VALUE != (short) 1) ? 353 : 353): case ((Short.MAX_VALUE != Short.MAX_VALUE) ? 354 : 354): case ((((short) (Short.MIN_VALUE & Short.MIN_VALUE)) == 0) ? 355 : 355): case ((((short) (Short.MIN_VALUE & (short) -1)) == 0) ? 356 : 356): case ((((short) (Short.MIN_VALUE & (short) 0)) == 0) ? 357 : 357): case ((((short) (Short.MIN_VALUE & (short) 1)) == 0) ? 358 : 358): case ((((short) (Short.MIN_VALUE & Short.MAX_VALUE)) == 0) ? 359 : 359): case ((((short) ((short) -1 & Short.MIN_VALUE)) == 0) ? 360 : 360): case ((((short) ((short) -1 & (short) -1)) == 0) ? 361 : 361): case ((((short) ((short) -1 & (short) 0)) == 0) ? 362 : 362): case ((((short) ((short) -1 & (short) 1)) == 0) ? 363 : 363): case ((((short) ((short) -1 & Short.MAX_VALUE)) == 0) ? 364 : 364): case ((((short) ((short) 0 & Short.MIN_VALUE)) == 0) ? 365 : 365): case ((((short) ((short) 0 & (short) -1)) == 0) ? 366 : 366): case ((((short) ((short) 0 & (short) 0)) == 0) ? 367 : 367): case ((((short) ((short) 0 & (short) 1)) == 0) ? 368 : 368): case ((((short) ((short) 0 & Short.MAX_VALUE)) == 0) ? 369 : 369): case ((((short) ((short) 1 & Short.MIN_VALUE)) == 0) ? 370 : 370): case ((((short) ((short) 1 & (short) -1)) == 0) ? 371 : 371): case ((((short) ((short) 1 & (short) 0)) == 0) ? 372 : 372): case ((((short) ((short) 1 & (short) 1)) == 0) ? 373 : 373): case ((((short) ((short) 1 & Short.MAX_VALUE)) == 0) ? 374 : 374): case ((((short) (Short.MAX_VALUE & Short.MIN_VALUE)) == 0) ? 375 : 375): case ((((short) (Short.MAX_VALUE & (short) -1)) == 0) ? 376 : 376): case ((((short) (Short.MAX_VALUE & (short) 0)) == 0) ? 377 : 377): case ((((short) (Short.MAX_VALUE & (short) 1)) == 0) ? 378 : 378): case ((((short) (Short.MAX_VALUE & Short.MAX_VALUE)) == 0) ? 379 : 379): case ((((short) (Short.MIN_VALUE ^ Short.MIN_VALUE)) == 0) ? 380 : 380): case ((((short) (Short.MIN_VALUE ^ (short) -1)) == 0) ? 381 : 381): case ((((short) (Short.MIN_VALUE ^ (short) 0)) == 0) ? 382 : 382): case ((((short) (Short.MIN_VALUE ^ (short) 1)) == 0) ? 383 : 383): case ((((short) (Short.MIN_VALUE ^ Short.MAX_VALUE)) == 0) ? 384 : 384): case ((((short) ((short) -1 ^ Short.MIN_VALUE)) == 0) ? 385 : 385): case ((((short) ((short) -1 ^ (short) -1)) == 0) ? 386 : 386): case ((((short) ((short) -1 ^ (short) 0)) == 0) ? 387 : 387): case ((((short) ((short) -1 ^ (short) 1)) == 0) ? 388 : 388): case ((((short) ((short) -1 ^ Short.MAX_VALUE)) == 0) ? 389 : 389): case ((((short) ((short) 0 ^ Short.MIN_VALUE)) == 0) ? 390 : 390): case ((((short) ((short) 0 ^ (short) -1)) == 0) ? 391 : 391): case ((((short) ((short) 0 ^ (short) 0)) == 0) ? 392 : 392): case ((((short) ((short) 0 ^ (short) 1)) == 0) ? 393 : 393): case ((((short) ((short) 0 ^ Short.MAX_VALUE)) == 0) ? 394 : 394): case ((((short) ((short) 1 ^ Short.MIN_VALUE)) == 0) ? 395 : 395): case ((((short) ((short) 1 ^ (short) -1)) == 0) ? 396 : 396): case ((((short) ((short) 1 ^ (short) 0)) == 0) ? 397 : 397): case ((((short) ((short) 1 ^ (short) 1)) == 0) ? 398 : 398): case ((((short) ((short) 1 ^ Short.MAX_VALUE)) == 0) ? 399 : 399): case ((((short) (Short.MAX_VALUE ^ Short.MIN_VALUE)) == 0) ? 400 : 400): case ((((short) (Short.MAX_VALUE ^ (short) -1)) == 0) ? 401 : 401): case ((((short) (Short.MAX_VALUE ^ (short) 0)) == 0) ? 402 : 402): case ((((short) (Short.MAX_VALUE ^ (short) 1)) == 0) ? 403 : 403): case ((((short) (Short.MAX_VALUE ^ Short.MAX_VALUE)) == 0) ? 404 : 404): case ((((short) (Short.MIN_VALUE | Short.MIN_VALUE)) == 0) ? 405 : 405): case ((((short) (Short.MIN_VALUE | (short) -1)) == 0) ? 406 : 406): case ((((short) (Short.MIN_VALUE | (short) 0)) == 0) ? 407 : 407): case ((((short) (Short.MIN_VALUE | (short) 1)) == 0) ? 408 : 408): case ((((short) (Short.MIN_VALUE | Short.MAX_VALUE)) == 0) ? 409 : 409): case ((((short) ((short) -1 | Short.MIN_VALUE)) == 0) ? 410 : 410): case ((((short) ((short) -1 | (short) -1)) == 0) ? 411 : 411): case ((((short) ((short) -1 | (short) 0)) == 0) ? 412 : 412): case ((((short) ((short) -1 | (short) 1)) == 0) ? 413 : 413): case ((((short) ((short) -1 | Short.MAX_VALUE)) == 0) ? 414 : 414): case ((((short) ((short) 0 | Short.MIN_VALUE)) == 0) ? 415 : 415): case ((((short) ((short) 0 | (short) -1)) == 0) ? 416 : 416): case ((((short) ((short) 0 | (short) 0)) == 0) ? 417 : 417): case ((((short) ((short) 0 | (short) 1)) == 0) ? 418 : 418): case ((((short) ((short) 0 | Short.MAX_VALUE)) == 0) ? 419 : 419): case ((((short) ((short) 1 | Short.MIN_VALUE)) == 0) ? 420 : 420): case ((((short) ((short) 1 | (short) -1)) == 0) ? 421 : 421): case ((((short) ((short) 1 | (short) 0)) == 0) ? 422 : 422): case ((((short) ((short) 1 | (short) 1)) == 0) ? 423 : 423): case ((((short) ((short) 1 | Short.MAX_VALUE)) == 0) ? 424 : 424): case ((((short) (Short.MAX_VALUE | Short.MIN_VALUE)) == 0) ? 425 : 425): case ((((short) (Short.MAX_VALUE | (short) -1)) == 0) ? 426 : 426): case ((((short) (Short.MAX_VALUE | (short) 0)) == 0) ? 427 : 427): case ((((short) (Short.MAX_VALUE | (short) 1)) == 0) ? 428 : 428): case ((((short) (Short.MAX_VALUE | Short.MAX_VALUE)) == 0) ? 429 : 429): default: } } // -------- // char tests static char charPlus(char x) { return (char) + x; } static char charMinus(char x) { return (char) - x; } static char charBitNot(char x) { return (char) ~ x; } static char charTimes(char x, char y) { return (char) (x * y); } static char charDiv(char x, char y) { return (char) (x / y); } static char charRem(char x, char y) { return (char) (x % y); } static char charAdd(char x, char y) { return (char) (x + y); } static char charSub(char x, char y) { return (char) (x - y); } static char charShl(char x, char y) { return (char) (x << y); } static char charShr(char x, char y) { return (char) (x >> y); } static char charUshr(char x, char y) { return (char) (x >>> y); } static boolean charLt(char x, char y) { return x < y; } static boolean charGt(char x, char y) { return x > y; } static boolean charLe(char x, char y) { return x <= y; } static boolean charGe(char x, char y) { return x >= y; } static boolean charEq(char x, char y) { return x == y; } static boolean charNe(char x, char y) { return x != y; } static char charAnd(char x, char y) { return (char) (x & y); } static char charXor(char x, char y) { return (char) (x ^ y); } static char charOr(char x, char y) { return (char) (x | y); } static void charTest() { Tester.checkEqual(charPlus((char) 0), (char) + (char) 0, "(char) + (char) 0"); Tester.checkEqual(charPlus((char) 1), (char) + (char) 1, "(char) + (char) 1"); Tester.checkEqual(charPlus(Character.MAX_VALUE), (char) + Character.MAX_VALUE, "(char) + Character.MAX_VALUE"); Tester.checkEqual(charMinus((char) 0), (char) - (char) 0, "(char) - (char) 0"); Tester.checkEqual(charMinus((char) 1), (char) - (char) 1, "(char) - (char) 1"); Tester.checkEqual(charMinus(Character.MAX_VALUE), (char) - Character.MAX_VALUE, "(char) - Character.MAX_VALUE"); Tester.checkEqual(charBitNot((char) 0), (char) ~ (char) 0, "(char) ~ (char) 0"); Tester.checkEqual(charBitNot((char) 1), (char) ~ (char) 1, "(char) ~ (char) 1"); Tester.checkEqual(charBitNot(Character.MAX_VALUE), (char) ~ Character.MAX_VALUE, "(char) ~ Character.MAX_VALUE"); Tester.checkEqual(charTimes((char) 0, (char) 0), (char) ((char) 0 * (char) 0), "(char) ((char) 0 * (char) 0)"); Tester.checkEqual(charTimes((char) 0, (char) 1), (char) ((char) 0 * (char) 1), "(char) ((char) 0 * (char) 1)"); Tester.checkEqual(charTimes((char) 0, Character.MAX_VALUE), (char) ((char) 0 * Character.MAX_VALUE), "(char) ((char) 0 * Character.MAX_VALUE)"); Tester.checkEqual(charTimes((char) 1, (char) 0), (char) ((char) 1 * (char) 0), "(char) ((char) 1 * (char) 0)"); Tester.checkEqual(charTimes((char) 1, (char) 1), (char) ((char) 1 * (char) 1), "(char) ((char) 1 * (char) 1)"); Tester.checkEqual(charTimes((char) 1, Character.MAX_VALUE), (char) ((char) 1 * Character.MAX_VALUE), "(char) ((char) 1 * Character.MAX_VALUE)"); Tester.checkEqual(charTimes(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE * (char) 0), "(char) (Character.MAX_VALUE * (char) 0)"); Tester.checkEqual(charTimes(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE * (char) 1), "(char) (Character.MAX_VALUE * (char) 1)"); Tester.checkEqual(charTimes(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE * Character.MAX_VALUE), "(char) (Character.MAX_VALUE * Character.MAX_VALUE)"); Tester.checkEqual(charDiv((char) 0, (char) 1), (char) ((char) 0 / (char) 1), "(char) ((char) 0 / (char) 1)"); Tester.checkEqual(charDiv((char) 0, Character.MAX_VALUE), (char) ((char) 0 / Character.MAX_VALUE), "(char) ((char) 0 / Character.MAX_VALUE)"); Tester.checkEqual(charDiv((char) 1, (char) 1), (char) ((char) 1 / (char) 1), "(char) ((char) 1 / (char) 1)"); Tester.checkEqual(charDiv((char) 1, Character.MAX_VALUE), (char) ((char) 1 / Character.MAX_VALUE), "(char) ((char) 1 / Character.MAX_VALUE)"); Tester.checkEqual(charDiv(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE / (char) 1), "(char) (Character.MAX_VALUE / (char) 1)"); Tester.checkEqual(charDiv(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE / Character.MAX_VALUE), "(char) (Character.MAX_VALUE / Character.MAX_VALUE)"); Tester.checkEqual(charRem((char) 0, (char) 1), (char) ((char) 0 % (char) 1), "(char) ((char) 0 % (char) 1)"); Tester.checkEqual(charRem((char) 0, Character.MAX_VALUE), (char) ((char) 0 % Character.MAX_VALUE), "(char) ((char) 0 % Character.MAX_VALUE)"); Tester.checkEqual(charRem((char) 1, (char) 1), (char) ((char) 1 % (char) 1), "(char) ((char) 1 % (char) 1)"); Tester.checkEqual(charRem((char) 1, Character.MAX_VALUE), (char) ((char) 1 % Character.MAX_VALUE), "(char) ((char) 1 % Character.MAX_VALUE)"); Tester.checkEqual(charRem(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE % (char) 1), "(char) (Character.MAX_VALUE % (char) 1)"); Tester.checkEqual(charRem(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE % Character.MAX_VALUE), "(char) (Character.MAX_VALUE % Character.MAX_VALUE)"); Tester.checkEqual(charAdd((char) 0, (char) 0), (char) ((char) 0 + (char) 0), "(char) ((char) 0 + (char) 0)"); Tester.checkEqual(charAdd((char) 0, (char) 1), (char) ((char) 0 + (char) 1), "(char) ((char) 0 + (char) 1)"); Tester.checkEqual(charAdd((char) 0, Character.MAX_VALUE), (char) ((char) 0 + Character.MAX_VALUE), "(char) ((char) 0 + Character.MAX_VALUE)"); Tester.checkEqual(charAdd((char) 1, (char) 0), (char) ((char) 1 + (char) 0), "(char) ((char) 1 + (char) 0)"); Tester.checkEqual(charAdd((char) 1, (char) 1), (char) ((char) 1 + (char) 1), "(char) ((char) 1 + (char) 1)"); Tester.checkEqual(charAdd((char) 1, Character.MAX_VALUE), (char) ((char) 1 + Character.MAX_VALUE), "(char) ((char) 1 + Character.MAX_VALUE)"); Tester.checkEqual(charAdd(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE + (char) 0), "(char) (Character.MAX_VALUE + (char) 0)"); Tester.checkEqual(charAdd(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE + (char) 1), "(char) (Character.MAX_VALUE + (char) 1)"); Tester.checkEqual(charAdd(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE + Character.MAX_VALUE), "(char) (Character.MAX_VALUE + Character.MAX_VALUE)"); Tester.checkEqual(charSub((char) 0, (char) 0), (char) ((char) 0 - (char) 0), "(char) ((char) 0 - (char) 0)"); Tester.checkEqual(charSub((char) 0, (char) 1), (char) ((char) 0 - (char) 1), "(char) ((char) 0 - (char) 1)"); Tester.checkEqual(charSub((char) 0, Character.MAX_VALUE), (char) ((char) 0 - Character.MAX_VALUE), "(char) ((char) 0 - Character.MAX_VALUE)"); Tester.checkEqual(charSub((char) 1, (char) 0), (char) ((char) 1 - (char) 0), "(char) ((char) 1 - (char) 0)"); Tester.checkEqual(charSub((char) 1, (char) 1), (char) ((char) 1 - (char) 1), "(char) ((char) 1 - (char) 1)"); Tester.checkEqual(charSub((char) 1, Character.MAX_VALUE), (char) ((char) 1 - Character.MAX_VALUE), "(char) ((char) 1 - Character.MAX_VALUE)"); Tester.checkEqual(charSub(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE - (char) 0), "(char) (Character.MAX_VALUE - (char) 0)"); Tester.checkEqual(charSub(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE - (char) 1), "(char) (Character.MAX_VALUE - (char) 1)"); Tester.checkEqual(charSub(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE - Character.MAX_VALUE), "(char) (Character.MAX_VALUE - Character.MAX_VALUE)"); Tester.checkEqual(charShl((char) 0, (char) 0), (char) ((char) 0 << (char) 0), "(char) ((char) 0 << (char) 0)"); Tester.checkEqual(charShl((char) 0, (char) 1), (char) ((char) 0 << (char) 1), "(char) ((char) 0 << (char) 1)"); Tester.checkEqual(charShl((char) 0, Character.MAX_VALUE), (char) ((char) 0 << Character.MAX_VALUE), "(char) ((char) 0 << Character.MAX_VALUE)"); Tester.checkEqual(charShl((char) 1, (char) 0), (char) ((char) 1 << (char) 0), "(char) ((char) 1 << (char) 0)"); Tester.checkEqual(charShl((char) 1, (char) 1), (char) ((char) 1 << (char) 1), "(char) ((char) 1 << (char) 1)"); Tester.checkEqual(charShl((char) 1, Character.MAX_VALUE), (char) ((char) 1 << Character.MAX_VALUE), "(char) ((char) 1 << Character.MAX_VALUE)"); Tester.checkEqual(charShl(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE << (char) 0), "(char) (Character.MAX_VALUE << (char) 0)"); Tester.checkEqual(charShl(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE << (char) 1), "(char) (Character.MAX_VALUE << (char) 1)"); Tester.checkEqual(charShl(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE << Character.MAX_VALUE), "(char) (Character.MAX_VALUE << Character.MAX_VALUE)"); Tester.checkEqual(charShr((char) 0, (char) 0), (char) ((char) 0 >> (char) 0), "(char) ((char) 0 >> (char) 0)"); Tester.checkEqual(charShr((char) 0, (char) 1), (char) ((char) 0 >> (char) 1), "(char) ((char) 0 >> (char) 1)"); Tester.checkEqual(charShr((char) 0, Character.MAX_VALUE), (char) ((char) 0 >> Character.MAX_VALUE), "(char) ((char) 0 >> Character.MAX_VALUE)"); Tester.checkEqual(charShr((char) 1, (char) 0), (char) ((char) 1 >> (char) 0), "(char) ((char) 1 >> (char) 0)"); Tester.checkEqual(charShr((char) 1, (char) 1), (char) ((char) 1 >> (char) 1), "(char) ((char) 1 >> (char) 1)"); Tester.checkEqual(charShr((char) 1, Character.MAX_VALUE), (char) ((char) 1 >> Character.MAX_VALUE), "(char) ((char) 1 >> Character.MAX_VALUE)"); Tester.checkEqual(charShr(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE >> (char) 0), "(char) (Character.MAX_VALUE >> (char) 0)"); Tester.checkEqual(charShr(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE >> (char) 1), "(char) (Character.MAX_VALUE >> (char) 1)"); Tester.checkEqual(charShr(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE >> Character.MAX_VALUE), "(char) (Character.MAX_VALUE >> Character.MAX_VALUE)"); Tester.checkEqual(charUshr((char) 0, (char) 0), (char) ((char) 0 >>> (char) 0), "(char) ((char) 0 >>> (char) 0)"); Tester.checkEqual(charUshr((char) 0, (char) 1), (char) ((char) 0 >>> (char) 1), "(char) ((char) 0 >>> (char) 1)"); Tester.checkEqual(charUshr((char) 0, Character.MAX_VALUE), (char) ((char) 0 >>> Character.MAX_VALUE), "(char) ((char) 0 >>> Character.MAX_VALUE)"); Tester.checkEqual(charUshr((char) 1, (char) 0), (char) ((char) 1 >>> (char) 0), "(char) ((char) 1 >>> (char) 0)"); Tester.checkEqual(charUshr((char) 1, (char) 1), (char) ((char) 1 >>> (char) 1), "(char) ((char) 1 >>> (char) 1)"); Tester.checkEqual(charUshr((char) 1, Character.MAX_VALUE), (char) ((char) 1 >>> Character.MAX_VALUE), "(char) ((char) 1 >>> Character.MAX_VALUE)"); Tester.checkEqual(charUshr(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE >>> (char) 0), "(char) (Character.MAX_VALUE >>> (char) 0)"); Tester.checkEqual(charUshr(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE >>> (char) 1), "(char) (Character.MAX_VALUE >>> (char) 1)"); Tester.checkEqual(charUshr(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE >>> Character.MAX_VALUE), "(char) (Character.MAX_VALUE >>> Character.MAX_VALUE)"); Tester.checkEqual(charLt((char) 0, (char) 0), (char) 0 < (char) 0, "(char) 0 < (char) 0"); Tester.checkEqual(charLt((char) 0, (char) 1), (char) 0 < (char) 1, "(char) 0 < (char) 1"); Tester.checkEqual(charLt((char) 0, Character.MAX_VALUE), (char) 0 < Character.MAX_VALUE, "(char) 0 < Character.MAX_VALUE"); Tester.checkEqual(charLt((char) 1, (char) 0), (char) 1 < (char) 0, "(char) 1 < (char) 0"); Tester.checkEqual(charLt((char) 1, (char) 1), (char) 1 < (char) 1, "(char) 1 < (char) 1"); Tester.checkEqual(charLt((char) 1, Character.MAX_VALUE), (char) 1 < Character.MAX_VALUE, "(char) 1 < Character.MAX_VALUE"); Tester.checkEqual(charLt(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE < (char) 0, "Character.MAX_VALUE < (char) 0"); Tester.checkEqual(charLt(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE < (char) 1, "Character.MAX_VALUE < (char) 1"); Tester.checkEqual(charLt(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE < Character.MAX_VALUE, "Character.MAX_VALUE < Character.MAX_VALUE"); Tester.checkEqual(charGt((char) 0, (char) 0), (char) 0 > (char) 0, "(char) 0 > (char) 0"); Tester.checkEqual(charGt((char) 0, (char) 1), (char) 0 > (char) 1, "(char) 0 > (char) 1"); Tester.checkEqual(charGt((char) 0, Character.MAX_VALUE), (char) 0 > Character.MAX_VALUE, "(char) 0 > Character.MAX_VALUE"); Tester.checkEqual(charGt((char) 1, (char) 0), (char) 1 > (char) 0, "(char) 1 > (char) 0"); Tester.checkEqual(charGt((char) 1, (char) 1), (char) 1 > (char) 1, "(char) 1 > (char) 1"); Tester.checkEqual(charGt((char) 1, Character.MAX_VALUE), (char) 1 > Character.MAX_VALUE, "(char) 1 > Character.MAX_VALUE"); Tester.checkEqual(charGt(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE > (char) 0, "Character.MAX_VALUE > (char) 0"); Tester.checkEqual(charGt(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE > (char) 1, "Character.MAX_VALUE > (char) 1"); Tester.checkEqual(charGt(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE > Character.MAX_VALUE, "Character.MAX_VALUE > Character.MAX_VALUE"); Tester.checkEqual(charLe((char) 0, (char) 0), (char) 0 <= (char) 0, "(char) 0 <= (char) 0"); Tester.checkEqual(charLe((char) 0, (char) 1), (char) 0 <= (char) 1, "(char) 0 <= (char) 1"); Tester.checkEqual(charLe((char) 0, Character.MAX_VALUE), (char) 0 <= Character.MAX_VALUE, "(char) 0 <= Character.MAX_VALUE"); Tester.checkEqual(charLe((char) 1, (char) 0), (char) 1 <= (char) 0, "(char) 1 <= (char) 0"); Tester.checkEqual(charLe((char) 1, (char) 1), (char) 1 <= (char) 1, "(char) 1 <= (char) 1"); Tester.checkEqual(charLe((char) 1, Character.MAX_VALUE), (char) 1 <= Character.MAX_VALUE, "(char) 1 <= Character.MAX_VALUE"); Tester.checkEqual(charLe(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE <= (char) 0, "Character.MAX_VALUE <= (char) 0"); Tester.checkEqual(charLe(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE <= (char) 1, "Character.MAX_VALUE <= (char) 1"); Tester.checkEqual(charLe(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE <= Character.MAX_VALUE, "Character.MAX_VALUE <= Character.MAX_VALUE"); Tester.checkEqual(charGe((char) 0, (char) 0), (char) 0 >= (char) 0, "(char) 0 >= (char) 0"); Tester.checkEqual(charGe((char) 0, (char) 1), (char) 0 >= (char) 1, "(char) 0 >= (char) 1"); Tester.checkEqual(charGe((char) 0, Character.MAX_VALUE), (char) 0 >= Character.MAX_VALUE, "(char) 0 >= Character.MAX_VALUE"); Tester.checkEqual(charGe((char) 1, (char) 0), (char) 1 >= (char) 0, "(char) 1 >= (char) 0"); Tester.checkEqual(charGe((char) 1, (char) 1), (char) 1 >= (char) 1, "(char) 1 >= (char) 1"); Tester.checkEqual(charGe((char) 1, Character.MAX_VALUE), (char) 1 >= Character.MAX_VALUE, "(char) 1 >= Character.MAX_VALUE"); Tester.checkEqual(charGe(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE >= (char) 0, "Character.MAX_VALUE >= (char) 0"); Tester.checkEqual(charGe(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE >= (char) 1, "Character.MAX_VALUE >= (char) 1"); Tester.checkEqual(charGe(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE >= Character.MAX_VALUE, "Character.MAX_VALUE >= Character.MAX_VALUE"); Tester.checkEqual(charEq((char) 0, (char) 0), (char) 0 == (char) 0, "(char) 0 == (char) 0"); Tester.checkEqual(charEq((char) 0, (char) 1), (char) 0 == (char) 1, "(char) 0 == (char) 1"); Tester.checkEqual(charEq((char) 0, Character.MAX_VALUE), (char) 0 == Character.MAX_VALUE, "(char) 0 == Character.MAX_VALUE"); Tester.checkEqual(charEq((char) 1, (char) 0), (char) 1 == (char) 0, "(char) 1 == (char) 0"); Tester.checkEqual(charEq((char) 1, (char) 1), (char) 1 == (char) 1, "(char) 1 == (char) 1"); Tester.checkEqual(charEq((char) 1, Character.MAX_VALUE), (char) 1 == Character.MAX_VALUE, "(char) 1 == Character.MAX_VALUE"); Tester.checkEqual(charEq(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE == (char) 0, "Character.MAX_VALUE == (char) 0"); Tester.checkEqual(charEq(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE == (char) 1, "Character.MAX_VALUE == (char) 1"); Tester.checkEqual(charEq(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE == Character.MAX_VALUE, "Character.MAX_VALUE == Character.MAX_VALUE"); Tester.checkEqual(charNe((char) 0, (char) 0), (char) 0 != (char) 0, "(char) 0 != (char) 0"); Tester.checkEqual(charNe((char) 0, (char) 1), (char) 0 != (char) 1, "(char) 0 != (char) 1"); Tester.checkEqual(charNe((char) 0, Character.MAX_VALUE), (char) 0 != Character.MAX_VALUE, "(char) 0 != Character.MAX_VALUE"); Tester.checkEqual(charNe((char) 1, (char) 0), (char) 1 != (char) 0, "(char) 1 != (char) 0"); Tester.checkEqual(charNe((char) 1, (char) 1), (char) 1 != (char) 1, "(char) 1 != (char) 1"); Tester.checkEqual(charNe((char) 1, Character.MAX_VALUE), (char) 1 != Character.MAX_VALUE, "(char) 1 != Character.MAX_VALUE"); Tester.checkEqual(charNe(Character.MAX_VALUE, (char) 0), Character.MAX_VALUE != (char) 0, "Character.MAX_VALUE != (char) 0"); Tester.checkEqual(charNe(Character.MAX_VALUE, (char) 1), Character.MAX_VALUE != (char) 1, "Character.MAX_VALUE != (char) 1"); Tester.checkEqual(charNe(Character.MAX_VALUE, Character.MAX_VALUE), Character.MAX_VALUE != Character.MAX_VALUE, "Character.MAX_VALUE != Character.MAX_VALUE"); Tester.checkEqual(charAnd((char) 0, (char) 0), (char) ((char) 0 & (char) 0), "(char) ((char) 0 & (char) 0)"); Tester.checkEqual(charAnd((char) 0, (char) 1), (char) ((char) 0 & (char) 1), "(char) ((char) 0 & (char) 1)"); Tester.checkEqual(charAnd((char) 0, Character.MAX_VALUE), (char) ((char) 0 & Character.MAX_VALUE), "(char) ((char) 0 & Character.MAX_VALUE)"); Tester.checkEqual(charAnd((char) 1, (char) 0), (char) ((char) 1 & (char) 0), "(char) ((char) 1 & (char) 0)"); Tester.checkEqual(charAnd((char) 1, (char) 1), (char) ((char) 1 & (char) 1), "(char) ((char) 1 & (char) 1)"); Tester.checkEqual(charAnd((char) 1, Character.MAX_VALUE), (char) ((char) 1 & Character.MAX_VALUE), "(char) ((char) 1 & Character.MAX_VALUE)"); Tester.checkEqual(charAnd(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE & (char) 0), "(char) (Character.MAX_VALUE & (char) 0)"); Tester.checkEqual(charAnd(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE & (char) 1), "(char) (Character.MAX_VALUE & (char) 1)"); Tester.checkEqual(charAnd(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE & Character.MAX_VALUE), "(char) (Character.MAX_VALUE & Character.MAX_VALUE)"); Tester.checkEqual(charXor((char) 0, (char) 0), (char) ((char) 0 ^ (char) 0), "(char) ((char) 0 ^ (char) 0)"); Tester.checkEqual(charXor((char) 0, (char) 1), (char) ((char) 0 ^ (char) 1), "(char) ((char) 0 ^ (char) 1)"); Tester.checkEqual(charXor((char) 0, Character.MAX_VALUE), (char) ((char) 0 ^ Character.MAX_VALUE), "(char) ((char) 0 ^ Character.MAX_VALUE)"); Tester.checkEqual(charXor((char) 1, (char) 0), (char) ((char) 1 ^ (char) 0), "(char) ((char) 1 ^ (char) 0)"); Tester.checkEqual(charXor((char) 1, (char) 1), (char) ((char) 1 ^ (char) 1), "(char) ((char) 1 ^ (char) 1)"); Tester.checkEqual(charXor((char) 1, Character.MAX_VALUE), (char) ((char) 1 ^ Character.MAX_VALUE), "(char) ((char) 1 ^ Character.MAX_VALUE)"); Tester.checkEqual(charXor(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE ^ (char) 0), "(char) (Character.MAX_VALUE ^ (char) 0)"); Tester.checkEqual(charXor(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE ^ (char) 1), "(char) (Character.MAX_VALUE ^ (char) 1)"); Tester.checkEqual(charXor(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE ^ Character.MAX_VALUE), "(char) (Character.MAX_VALUE ^ Character.MAX_VALUE)"); Tester.checkEqual(charOr((char) 0, (char) 0), (char) ((char) 0 | (char) 0), "(char) ((char) 0 | (char) 0)"); Tester.checkEqual(charOr((char) 0, (char) 1), (char) ((char) 0 | (char) 1), "(char) ((char) 0 | (char) 1)"); Tester.checkEqual(charOr((char) 0, Character.MAX_VALUE), (char) ((char) 0 | Character.MAX_VALUE), "(char) ((char) 0 | Character.MAX_VALUE)"); Tester.checkEqual(charOr((char) 1, (char) 0), (char) ((char) 1 | (char) 0), "(char) ((char) 1 | (char) 0)"); Tester.checkEqual(charOr((char) 1, (char) 1), (char) ((char) 1 | (char) 1), "(char) ((char) 1 | (char) 1)"); Tester.checkEqual(charOr((char) 1, Character.MAX_VALUE), (char) ((char) 1 | Character.MAX_VALUE), "(char) ((char) 1 | Character.MAX_VALUE)"); Tester.checkEqual(charOr(Character.MAX_VALUE, (char) 0), (char) (Character.MAX_VALUE | (char) 0), "(char) (Character.MAX_VALUE | (char) 0)"); Tester.checkEqual(charOr(Character.MAX_VALUE, (char) 1), (char) (Character.MAX_VALUE | (char) 1), "(char) (Character.MAX_VALUE | (char) 1)"); Tester.checkEqual(charOr(Character.MAX_VALUE, Character.MAX_VALUE), (char) (Character.MAX_VALUE | Character.MAX_VALUE), "(char) (Character.MAX_VALUE | Character.MAX_VALUE)"); } static void charSwitch() { switch(0) { case ((((char) + (char) 0) == 0) ? 0 : 0): case ((((char) + (char) 1) == 0) ? 1 : 1): case ((((char) + Character.MAX_VALUE) == 0) ? 2 : 2): case ((((char) - (char) 0) == 0) ? 3 : 3): case ((((char) - (char) 1) == 0) ? 4 : 4): case ((((char) - Character.MAX_VALUE) == 0) ? 5 : 5): case ((((char) ~ (char) 0) == 0) ? 6 : 6): case ((((char) ~ (char) 1) == 0) ? 7 : 7): case ((((char) ~ Character.MAX_VALUE) == 0) ? 8 : 8): case ((((char) ((char) 0 * (char) 0)) == 0) ? 9 : 9): case ((((char) ((char) 0 * (char) 1)) == 0) ? 10 : 10): case ((((char) ((char) 0 * Character.MAX_VALUE)) == 0) ? 11 : 11): case ((((char) ((char) 1 * (char) 0)) == 0) ? 12 : 12): case ((((char) ((char) 1 * (char) 1)) == 0) ? 13 : 13): case ((((char) ((char) 1 * Character.MAX_VALUE)) == 0) ? 14 : 14): case ((((char) (Character.MAX_VALUE * (char) 0)) == 0) ? 15 : 15): case ((((char) (Character.MAX_VALUE * (char) 1)) == 0) ? 16 : 16): case ((((char) (Character.MAX_VALUE * Character.MAX_VALUE)) == 0) ? 17 : 17): case ((((char) ((char) 0 / (char) 1)) == 0) ? 18 : 18): case ((((char) ((char) 0 / Character.MAX_VALUE)) == 0) ? 19 : 19): case ((((char) ((char) 1 / (char) 1)) == 0) ? 20 : 20): case ((((char) ((char) 1 / Character.MAX_VALUE)) == 0) ? 21 : 21): case ((((char) (Character.MAX_VALUE / (char) 1)) == 0) ? 22 : 22): case ((((char) (Character.MAX_VALUE / Character.MAX_VALUE)) == 0) ? 23 : 23): case ((((char) ((char) 0 % (char) 1)) == 0) ? 24 : 24): case ((((char) ((char) 0 % Character.MAX_VALUE)) == 0) ? 25 : 25): case ((((char) ((char) 1 % (char) 1)) == 0) ? 26 : 26): case ((((char) ((char) 1 % Character.MAX_VALUE)) == 0) ? 27 : 27): case ((((char) (Character.MAX_VALUE % (char) 1)) == 0) ? 28 : 28): case ((((char) (Character.MAX_VALUE % Character.MAX_VALUE)) == 0) ? 29 : 29): case ((((char) ((char) 0 + (char) 0)) == 0) ? 30 : 30): case ((((char) ((char) 0 + (char) 1)) == 0) ? 31 : 31): case ((((char) ((char) 0 + Character.MAX_VALUE)) == 0) ? 32 : 32): case ((((char) ((char) 1 + (char) 0)) == 0) ? 33 : 33): case ((((char) ((char) 1 + (char) 1)) == 0) ? 34 : 34): case ((((char) ((char) 1 + Character.MAX_VALUE)) == 0) ? 35 : 35): case ((((char) (Character.MAX_VALUE + (char) 0)) == 0) ? 36 : 36): case ((((char) (Character.MAX_VALUE + (char) 1)) == 0) ? 37 : 37): case ((((char) (Character.MAX_VALUE + Character.MAX_VALUE)) == 0) ? 38 : 38): case ((((char) ((char) 0 - (char) 0)) == 0) ? 39 : 39): case ((((char) ((char) 0 - (char) 1)) == 0) ? 40 : 40): case ((((char) ((char) 0 - Character.MAX_VALUE)) == 0) ? 41 : 41): case ((((char) ((char) 1 - (char) 0)) == 0) ? 42 : 42): case ((((char) ((char) 1 - (char) 1)) == 0) ? 43 : 43): case ((((char) ((char) 1 - Character.MAX_VALUE)) == 0) ? 44 : 44): case ((((char) (Character.MAX_VALUE - (char) 0)) == 0) ? 45 : 45): case ((((char) (Character.MAX_VALUE - (char) 1)) == 0) ? 46 : 46): case ((((char) (Character.MAX_VALUE - Character.MAX_VALUE)) == 0) ? 47 : 47): case ((((char) ((char) 0 << (char) 0)) == 0) ? 48 : 48): case ((((char) ((char) 0 << (char) 1)) == 0) ? 49 : 49): case ((((char) ((char) 0 << Character.MAX_VALUE)) == 0) ? 50 : 50): case ((((char) ((char) 1 << (char) 0)) == 0) ? 51 : 51): case ((((char) ((char) 1 << (char) 1)) == 0) ? 52 : 52): case ((((char) ((char) 1 << Character.MAX_VALUE)) == 0) ? 53 : 53): case ((((char) (Character.MAX_VALUE << (char) 0)) == 0) ? 54 : 54): case ((((char) (Character.MAX_VALUE << (char) 1)) == 0) ? 55 : 55): case ((((char) (Character.MAX_VALUE << Character.MAX_VALUE)) == 0) ? 56 : 56): case ((((char) ((char) 0 >> (char) 0)) == 0) ? 57 : 57): case ((((char) ((char) 0 >> (char) 1)) == 0) ? 58 : 58): case ((((char) ((char) 0 >> Character.MAX_VALUE)) == 0) ? 59 : 59): case ((((char) ((char) 1 >> (char) 0)) == 0) ? 60 : 60): case ((((char) ((char) 1 >> (char) 1)) == 0) ? 61 : 61): case ((((char) ((char) 1 >> Character.MAX_VALUE)) == 0) ? 62 : 62): case ((((char) (Character.MAX_VALUE >> (char) 0)) == 0) ? 63 : 63): case ((((char) (Character.MAX_VALUE >> (char) 1)) == 0) ? 64 : 64): case ((((char) (Character.MAX_VALUE >> Character.MAX_VALUE)) == 0) ? 65 : 65): case ((((char) ((char) 0 >>> (char) 0)) == 0) ? 66 : 66): case ((((char) ((char) 0 >>> (char) 1)) == 0) ? 67 : 67): case ((((char) ((char) 0 >>> Character.MAX_VALUE)) == 0) ? 68 : 68): case ((((char) ((char) 1 >>> (char) 0)) == 0) ? 69 : 69): case ((((char) ((char) 1 >>> (char) 1)) == 0) ? 70 : 70): case ((((char) ((char) 1 >>> Character.MAX_VALUE)) == 0) ? 71 : 71): case ((((char) (Character.MAX_VALUE >>> (char) 0)) == 0) ? 72 : 72): case ((((char) (Character.MAX_VALUE >>> (char) 1)) == 0) ? 73 : 73): case ((((char) (Character.MAX_VALUE >>> Character.MAX_VALUE)) == 0) ? 74 : 74): case (((char) 0 < (char) 0) ? 75 : 75): case (((char) 0 < (char) 1) ? 76 : 76): case (((char) 0 < Character.MAX_VALUE) ? 77 : 77): case (((char) 1 < (char) 0) ? 78 : 78): case (((char) 1 < (char) 1) ? 79 : 79): case (((char) 1 < Character.MAX_VALUE) ? 80 : 80): case ((Character.MAX_VALUE < (char) 0) ? 81 : 81): case ((Character.MAX_VALUE < (char) 1) ? 82 : 82): case ((Character.MAX_VALUE < Character.MAX_VALUE) ? 83 : 83): case (((char) 0 > (char) 0) ? 84 : 84): case (((char) 0 > (char) 1) ? 85 : 85): case (((char) 0 > Character.MAX_VALUE) ? 86 : 86): case (((char) 1 > (char) 0) ? 87 : 87): case (((char) 1 > (char) 1) ? 88 : 88): case (((char) 1 > Character.MAX_VALUE) ? 89 : 89): case ((Character.MAX_VALUE > (char) 0) ? 90 : 90): case ((Character.MAX_VALUE > (char) 1) ? 91 : 91): case ((Character.MAX_VALUE > Character.MAX_VALUE) ? 92 : 92): case (((char) 0 <= (char) 0) ? 93 : 93): case (((char) 0 <= (char) 1) ? 94 : 94): case (((char) 0 <= Character.MAX_VALUE) ? 95 : 95): case (((char) 1 <= (char) 0) ? 96 : 96): case (((char) 1 <= (char) 1) ? 97 : 97): case (((char) 1 <= Character.MAX_VALUE) ? 98 : 98): case ((Character.MAX_VALUE <= (char) 0) ? 99 : 99): case ((Character.MAX_VALUE <= (char) 1) ? 100 : 100): case ((Character.MAX_VALUE <= Character.MAX_VALUE) ? 101 : 101): case (((char) 0 >= (char) 0) ? 102 : 102): case (((char) 0 >= (char) 1) ? 103 : 103): case (((char) 0 >= Character.MAX_VALUE) ? 104 : 104): case (((char) 1 >= (char) 0) ? 105 : 105): case (((char) 1 >= (char) 1) ? 106 : 106): case (((char) 1 >= Character.MAX_VALUE) ? 107 : 107): case ((Character.MAX_VALUE >= (char) 0) ? 108 : 108): case ((Character.MAX_VALUE >= (char) 1) ? 109 : 109): case ((Character.MAX_VALUE >= Character.MAX_VALUE) ? 110 : 110): case (((char) 0 == (char) 0) ? 111 : 111): case (((char) 0 == (char) 1) ? 112 : 112): case (((char) 0 == Character.MAX_VALUE) ? 113 : 113): case (((char) 1 == (char) 0) ? 114 : 114): case (((char) 1 == (char) 1) ? 115 : 115): case (((char) 1 == Character.MAX_VALUE) ? 116 : 116): case ((Character.MAX_VALUE == (char) 0) ? 117 : 117): case ((Character.MAX_VALUE == (char) 1) ? 118 : 118): case ((Character.MAX_VALUE == Character.MAX_VALUE) ? 119 : 119): case (((char) 0 != (char) 0) ? 120 : 120): case (((char) 0 != (char) 1) ? 121 : 121): case (((char) 0 != Character.MAX_VALUE) ? 122 : 122): case (((char) 1 != (char) 0) ? 123 : 123): case (((char) 1 != (char) 1) ? 124 : 124): case (((char) 1 != Character.MAX_VALUE) ? 125 : 125): case ((Character.MAX_VALUE != (char) 0) ? 126 : 126): case ((Character.MAX_VALUE != (char) 1) ? 127 : 127): case ((Character.MAX_VALUE != Character.MAX_VALUE) ? 128 : 128): case ((((char) ((char) 0 & (char) 0)) == 0) ? 129 : 129): case ((((char) ((char) 0 & (char) 1)) == 0) ? 130 : 130): case ((((char) ((char) 0 & Character.MAX_VALUE)) == 0) ? 131 : 131): case ((((char) ((char) 1 & (char) 0)) == 0) ? 132 : 132): case ((((char) ((char) 1 & (char) 1)) == 0) ? 133 : 133): case ((((char) ((char) 1 & Character.MAX_VALUE)) == 0) ? 134 : 134): case ((((char) (Character.MAX_VALUE & (char) 0)) == 0) ? 135 : 135): case ((((char) (Character.MAX_VALUE & (char) 1)) == 0) ? 136 : 136): case ((((char) (Character.MAX_VALUE & Character.MAX_VALUE)) == 0) ? 137 : 137): case ((((char) ((char) 0 ^ (char) 0)) == 0) ? 138 : 138): case ((((char) ((char) 0 ^ (char) 1)) == 0) ? 139 : 139): case ((((char) ((char) 0 ^ Character.MAX_VALUE)) == 0) ? 140 : 140): case ((((char) ((char) 1 ^ (char) 0)) == 0) ? 141 : 141): case ((((char) ((char) 1 ^ (char) 1)) == 0) ? 142 : 142): case ((((char) ((char) 1 ^ Character.MAX_VALUE)) == 0) ? 143 : 143): case ((((char) (Character.MAX_VALUE ^ (char) 0)) == 0) ? 144 : 144): case ((((char) (Character.MAX_VALUE ^ (char) 1)) == 0) ? 145 : 145): case ((((char) (Character.MAX_VALUE ^ Character.MAX_VALUE)) == 0) ? 146 : 146): case ((((char) ((char) 0 | (char) 0)) == 0) ? 147 : 147): case ((((char) ((char) 0 | (char) 1)) == 0) ? 148 : 148): case ((((char) ((char) 0 | Character.MAX_VALUE)) == 0) ? 149 : 149): case ((((char) ((char) 1 | (char) 0)) == 0) ? 150 : 150): case ((((char) ((char) 1 | (char) 1)) == 0) ? 151 : 151): case ((((char) ((char) 1 | Character.MAX_VALUE)) == 0) ? 152 : 152): case ((((char) (Character.MAX_VALUE | (char) 0)) == 0) ? 153 : 153): case ((((char) (Character.MAX_VALUE | (char) 1)) == 0) ? 154 : 154): case ((((char) (Character.MAX_VALUE | Character.MAX_VALUE)) == 0) ? 155 : 155): default: } } // -------- // int tests static int intPlus(int x) { return (int) + x; } static int intMinus(int x) { return (int) - x; } static int intBitNot(int x) { return (int) ~ x; } static int intTimes(int x, int y) { return (int) (x * y); } static int intDiv(int x, int y) { return (int) (x / y); } static int intRem(int x, int y) { return (int) (x % y); } static int intAdd(int x, int y) { return (int) (x + y); } static int intSub(int x, int y) { return (int) (x - y); } static int intShl(int x, int y) { return (int) (x << y); } static int intShr(int x, int y) { return (int) (x >> y); } static int intUshr(int x, int y) { return (int) (x >>> y); } static boolean intLt(int x, int y) { return x < y; } static boolean intGt(int x, int y) { return x > y; } static boolean intLe(int x, int y) { return x <= y; } static boolean intGe(int x, int y) { return x >= y; } static boolean intEq(int x, int y) { return x == y; } static boolean intNe(int x, int y) { return x != y; } static int intAnd(int x, int y) { return (int) (x & y); } static int intXor(int x, int y) { return (int) (x ^ y); } static int intOr(int x, int y) { return (int) (x | y); } static void intTest() { Tester.checkEqual(intPlus(Integer.MIN_VALUE), (int) + Integer.MIN_VALUE, "(int) + Integer.MIN_VALUE"); Tester.checkEqual(intPlus(-1), (int) + -1, "(int) + -1"); Tester.checkEqual(intPlus(0), (int) + 0, "(int) + 0"); Tester.checkEqual(intPlus(1), (int) + 1, "(int) + 1"); Tester.checkEqual(intPlus(Integer.MAX_VALUE), (int) + Integer.MAX_VALUE, "(int) + Integer.MAX_VALUE"); Tester.checkEqual(intMinus(Integer.MIN_VALUE), (int) - Integer.MIN_VALUE, "(int) - Integer.MIN_VALUE"); Tester.checkEqual(intMinus(-1), (int) - -1, "(int) - -1"); Tester.checkEqual(intMinus(0), (int) - 0, "(int) - 0"); Tester.checkEqual(intMinus(1), (int) - 1, "(int) - 1"); Tester.checkEqual(intMinus(Integer.MAX_VALUE), (int) - Integer.MAX_VALUE, "(int) - Integer.MAX_VALUE"); Tester.checkEqual(intBitNot(Integer.MIN_VALUE), (int) ~ Integer.MIN_VALUE, "(int) ~ Integer.MIN_VALUE"); Tester.checkEqual(intBitNot(-1), (int) ~ -1, "(int) ~ -1"); Tester.checkEqual(intBitNot(0), (int) ~ 0, "(int) ~ 0"); Tester.checkEqual(intBitNot(1), (int) ~ 1, "(int) ~ 1"); Tester.checkEqual(intBitNot(Integer.MAX_VALUE), (int) ~ Integer.MAX_VALUE, "(int) ~ Integer.MAX_VALUE"); Tester.checkEqual(intTimes(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE * Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE * Integer.MIN_VALUE)"); Tester.checkEqual(intTimes(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE * -1), "(int) (Integer.MIN_VALUE * -1)"); Tester.checkEqual(intTimes(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE * 0), "(int) (Integer.MIN_VALUE * 0)"); Tester.checkEqual(intTimes(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE * 1), "(int) (Integer.MIN_VALUE * 1)"); Tester.checkEqual(intTimes(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE * Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE * Integer.MAX_VALUE)"); Tester.checkEqual(intTimes(-1, Integer.MIN_VALUE), (int) (-1 * Integer.MIN_VALUE), "(int) (-1 * Integer.MIN_VALUE)"); Tester.checkEqual(intTimes(-1, -1), (int) (-1 * -1), "(int) (-1 * -1)"); Tester.checkEqual(intTimes(-1, 0), (int) (-1 * 0), "(int) (-1 * 0)"); Tester.checkEqual(intTimes(-1, 1), (int) (-1 * 1), "(int) (-1 * 1)"); Tester.checkEqual(intTimes(-1, Integer.MAX_VALUE), (int) (-1 * Integer.MAX_VALUE), "(int) (-1 * Integer.MAX_VALUE)"); Tester.checkEqual(intTimes(0, Integer.MIN_VALUE), (int) (0 * Integer.MIN_VALUE), "(int) (0 * Integer.MIN_VALUE)"); Tester.checkEqual(intTimes(0, -1), (int) (0 * -1), "(int) (0 * -1)"); Tester.checkEqual(intTimes(0, 0), (int) (0 * 0), "(int) (0 * 0)"); Tester.checkEqual(intTimes(0, 1), (int) (0 * 1), "(int) (0 * 1)"); Tester.checkEqual(intTimes(0, Integer.MAX_VALUE), (int) (0 * Integer.MAX_VALUE), "(int) (0 * Integer.MAX_VALUE)"); Tester.checkEqual(intTimes(1, Integer.MIN_VALUE), (int) (1 * Integer.MIN_VALUE), "(int) (1 * Integer.MIN_VALUE)"); Tester.checkEqual(intTimes(1, -1), (int) (1 * -1), "(int) (1 * -1)"); Tester.checkEqual(intTimes(1, 0), (int) (1 * 0), "(int) (1 * 0)"); Tester.checkEqual(intTimes(1, 1), (int) (1 * 1), "(int) (1 * 1)"); Tester.checkEqual(intTimes(1, Integer.MAX_VALUE), (int) (1 * Integer.MAX_VALUE), "(int) (1 * Integer.MAX_VALUE)"); Tester.checkEqual(intTimes(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE * Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE * Integer.MIN_VALUE)"); Tester.checkEqual(intTimes(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE * -1), "(int) (Integer.MAX_VALUE * -1)"); Tester.checkEqual(intTimes(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE * 0), "(int) (Integer.MAX_VALUE * 0)"); Tester.checkEqual(intTimes(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE * 1), "(int) (Integer.MAX_VALUE * 1)"); Tester.checkEqual(intTimes(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE * Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE * Integer.MAX_VALUE)"); Tester.checkEqual(intDiv(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE / Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE / Integer.MIN_VALUE)"); Tester.checkEqual(intDiv(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE / -1), "(int) (Integer.MIN_VALUE / -1)"); Tester.checkEqual(intDiv(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE / 1), "(int) (Integer.MIN_VALUE / 1)"); Tester.checkEqual(intDiv(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE / Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE / Integer.MAX_VALUE)"); Tester.checkEqual(intDiv(-1, Integer.MIN_VALUE), (int) (-1 / Integer.MIN_VALUE), "(int) (-1 / Integer.MIN_VALUE)"); Tester.checkEqual(intDiv(-1, -1), (int) (-1 / -1), "(int) (-1 / -1)"); Tester.checkEqual(intDiv(-1, 1), (int) (-1 / 1), "(int) (-1 / 1)"); Tester.checkEqual(intDiv(-1, Integer.MAX_VALUE), (int) (-1 / Integer.MAX_VALUE), "(int) (-1 / Integer.MAX_VALUE)"); Tester.checkEqual(intDiv(0, Integer.MIN_VALUE), (int) (0 / Integer.MIN_VALUE), "(int) (0 / Integer.MIN_VALUE)"); Tester.checkEqual(intDiv(0, -1), (int) (0 / -1), "(int) (0 / -1)"); Tester.checkEqual(intDiv(0, 1), (int) (0 / 1), "(int) (0 / 1)"); Tester.checkEqual(intDiv(0, Integer.MAX_VALUE), (int) (0 / Integer.MAX_VALUE), "(int) (0 / Integer.MAX_VALUE)"); Tester.checkEqual(intDiv(1, Integer.MIN_VALUE), (int) (1 / Integer.MIN_VALUE), "(int) (1 / Integer.MIN_VALUE)"); Tester.checkEqual(intDiv(1, -1), (int) (1 / -1), "(int) (1 / -1)"); Tester.checkEqual(intDiv(1, 1), (int) (1 / 1), "(int) (1 / 1)"); Tester.checkEqual(intDiv(1, Integer.MAX_VALUE), (int) (1 / Integer.MAX_VALUE), "(int) (1 / Integer.MAX_VALUE)"); Tester.checkEqual(intDiv(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE / Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE / Integer.MIN_VALUE)"); Tester.checkEqual(intDiv(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE / -1), "(int) (Integer.MAX_VALUE / -1)"); Tester.checkEqual(intDiv(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE / 1), "(int) (Integer.MAX_VALUE / 1)"); Tester.checkEqual(intDiv(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE / Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE / Integer.MAX_VALUE)"); Tester.checkEqual(intRem(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE % Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE % Integer.MIN_VALUE)"); Tester.checkEqual(intRem(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE % -1), "(int) (Integer.MIN_VALUE % -1)"); Tester.checkEqual(intRem(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE % 1), "(int) (Integer.MIN_VALUE % 1)"); Tester.checkEqual(intRem(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE % Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE % Integer.MAX_VALUE)"); Tester.checkEqual(intRem(-1, Integer.MIN_VALUE), (int) (-1 % Integer.MIN_VALUE), "(int) (-1 % Integer.MIN_VALUE)"); Tester.checkEqual(intRem(-1, -1), (int) (-1 % -1), "(int) (-1 % -1)"); Tester.checkEqual(intRem(-1, 1), (int) (-1 % 1), "(int) (-1 % 1)"); Tester.checkEqual(intRem(-1, Integer.MAX_VALUE), (int) (-1 % Integer.MAX_VALUE), "(int) (-1 % Integer.MAX_VALUE)"); Tester.checkEqual(intRem(0, Integer.MIN_VALUE), (int) (0 % Integer.MIN_VALUE), "(int) (0 % Integer.MIN_VALUE)"); Tester.checkEqual(intRem(0, -1), (int) (0 % -1), "(int) (0 % -1)"); Tester.checkEqual(intRem(0, 1), (int) (0 % 1), "(int) (0 % 1)"); Tester.checkEqual(intRem(0, Integer.MAX_VALUE), (int) (0 % Integer.MAX_VALUE), "(int) (0 % Integer.MAX_VALUE)"); Tester.checkEqual(intRem(1, Integer.MIN_VALUE), (int) (1 % Integer.MIN_VALUE), "(int) (1 % Integer.MIN_VALUE)"); Tester.checkEqual(intRem(1, -1), (int) (1 % -1), "(int) (1 % -1)"); Tester.checkEqual(intRem(1, 1), (int) (1 % 1), "(int) (1 % 1)"); Tester.checkEqual(intRem(1, Integer.MAX_VALUE), (int) (1 % Integer.MAX_VALUE), "(int) (1 % Integer.MAX_VALUE)"); Tester.checkEqual(intRem(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE % Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE % Integer.MIN_VALUE)"); Tester.checkEqual(intRem(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE % -1), "(int) (Integer.MAX_VALUE % -1)"); Tester.checkEqual(intRem(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE % 1), "(int) (Integer.MAX_VALUE % 1)"); Tester.checkEqual(intRem(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE % Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE % Integer.MAX_VALUE)"); Tester.checkEqual(intAdd(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE + Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE + Integer.MIN_VALUE)"); Tester.checkEqual(intAdd(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE + -1), "(int) (Integer.MIN_VALUE + -1)"); Tester.checkEqual(intAdd(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE + 0), "(int) (Integer.MIN_VALUE + 0)"); Tester.checkEqual(intAdd(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE + 1), "(int) (Integer.MIN_VALUE + 1)"); Tester.checkEqual(intAdd(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE + Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE + Integer.MAX_VALUE)"); Tester.checkEqual(intAdd(-1, Integer.MIN_VALUE), (int) (-1 + Integer.MIN_VALUE), "(int) (-1 + Integer.MIN_VALUE)"); Tester.checkEqual(intAdd(-1, -1), (int) (-1 + -1), "(int) (-1 + -1)"); Tester.checkEqual(intAdd(-1, 0), (int) (-1 + 0), "(int) (-1 + 0)"); Tester.checkEqual(intAdd(-1, 1), (int) (-1 + 1), "(int) (-1 + 1)"); Tester.checkEqual(intAdd(-1, Integer.MAX_VALUE), (int) (-1 + Integer.MAX_VALUE), "(int) (-1 + Integer.MAX_VALUE)"); Tester.checkEqual(intAdd(0, Integer.MIN_VALUE), (int) (0 + Integer.MIN_VALUE), "(int) (0 + Integer.MIN_VALUE)"); Tester.checkEqual(intAdd(0, -1), (int) (0 + -1), "(int) (0 + -1)"); Tester.checkEqual(intAdd(0, 0), (int) (0 + 0), "(int) (0 + 0)"); Tester.checkEqual(intAdd(0, 1), (int) (0 + 1), "(int) (0 + 1)"); Tester.checkEqual(intAdd(0, Integer.MAX_VALUE), (int) (0 + Integer.MAX_VALUE), "(int) (0 + Integer.MAX_VALUE)"); Tester.checkEqual(intAdd(1, Integer.MIN_VALUE), (int) (1 + Integer.MIN_VALUE), "(int) (1 + Integer.MIN_VALUE)"); Tester.checkEqual(intAdd(1, -1), (int) (1 + -1), "(int) (1 + -1)"); Tester.checkEqual(intAdd(1, 0), (int) (1 + 0), "(int) (1 + 0)"); Tester.checkEqual(intAdd(1, 1), (int) (1 + 1), "(int) (1 + 1)"); Tester.checkEqual(intAdd(1, Integer.MAX_VALUE), (int) (1 + Integer.MAX_VALUE), "(int) (1 + Integer.MAX_VALUE)"); Tester.checkEqual(intAdd(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE + Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE + Integer.MIN_VALUE)"); Tester.checkEqual(intAdd(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE + -1), "(int) (Integer.MAX_VALUE + -1)"); Tester.checkEqual(intAdd(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE + 0), "(int) (Integer.MAX_VALUE + 0)"); Tester.checkEqual(intAdd(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE + 1), "(int) (Integer.MAX_VALUE + 1)"); Tester.checkEqual(intAdd(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE + Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE + Integer.MAX_VALUE)"); Tester.checkEqual(intSub(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE - Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE - Integer.MIN_VALUE)"); Tester.checkEqual(intSub(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE - -1), "(int) (Integer.MIN_VALUE - -1)"); Tester.checkEqual(intSub(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE - 0), "(int) (Integer.MIN_VALUE - 0)"); Tester.checkEqual(intSub(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE - 1), "(int) (Integer.MIN_VALUE - 1)"); Tester.checkEqual(intSub(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE - Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE - Integer.MAX_VALUE)"); Tester.checkEqual(intSub(-1, Integer.MIN_VALUE), (int) (-1 - Integer.MIN_VALUE), "(int) (-1 - Integer.MIN_VALUE)"); Tester.checkEqual(intSub(-1, -1), (int) (-1 - -1), "(int) (-1 - -1)"); Tester.checkEqual(intSub(-1, 0), (int) (-1 - 0), "(int) (-1 - 0)"); Tester.checkEqual(intSub(-1, 1), (int) (-1 - 1), "(int) (-1 - 1)"); Tester.checkEqual(intSub(-1, Integer.MAX_VALUE), (int) (-1 - Integer.MAX_VALUE), "(int) (-1 - Integer.MAX_VALUE)"); Tester.checkEqual(intSub(0, Integer.MIN_VALUE), (int) (0 - Integer.MIN_VALUE), "(int) (0 - Integer.MIN_VALUE)"); Tester.checkEqual(intSub(0, -1), (int) (0 - -1), "(int) (0 - -1)"); Tester.checkEqual(intSub(0, 0), (int) (0 - 0), "(int) (0 - 0)"); Tester.checkEqual(intSub(0, 1), (int) (0 - 1), "(int) (0 - 1)"); Tester.checkEqual(intSub(0, Integer.MAX_VALUE), (int) (0 - Integer.MAX_VALUE), "(int) (0 - Integer.MAX_VALUE)"); Tester.checkEqual(intSub(1, Integer.MIN_VALUE), (int) (1 - Integer.MIN_VALUE), "(int) (1 - Integer.MIN_VALUE)"); Tester.checkEqual(intSub(1, -1), (int) (1 - -1), "(int) (1 - -1)"); Tester.checkEqual(intSub(1, 0), (int) (1 - 0), "(int) (1 - 0)"); Tester.checkEqual(intSub(1, 1), (int) (1 - 1), "(int) (1 - 1)"); Tester.checkEqual(intSub(1, Integer.MAX_VALUE), (int) (1 - Integer.MAX_VALUE), "(int) (1 - Integer.MAX_VALUE)"); Tester.checkEqual(intSub(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE - Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE - Integer.MIN_VALUE)"); Tester.checkEqual(intSub(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE - -1), "(int) (Integer.MAX_VALUE - -1)"); Tester.checkEqual(intSub(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE - 0), "(int) (Integer.MAX_VALUE - 0)"); Tester.checkEqual(intSub(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE - 1), "(int) (Integer.MAX_VALUE - 1)"); Tester.checkEqual(intSub(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE - Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE - Integer.MAX_VALUE)"); Tester.checkEqual(intShl(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE << Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE << Integer.MIN_VALUE)"); Tester.checkEqual(intShl(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE << -1), "(int) (Integer.MIN_VALUE << -1)"); Tester.checkEqual(intShl(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE << 0), "(int) (Integer.MIN_VALUE << 0)"); Tester.checkEqual(intShl(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE << 1), "(int) (Integer.MIN_VALUE << 1)"); Tester.checkEqual(intShl(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE << Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE << Integer.MAX_VALUE)"); Tester.checkEqual(intShl(-1, Integer.MIN_VALUE), (int) (-1 << Integer.MIN_VALUE), "(int) (-1 << Integer.MIN_VALUE)"); Tester.checkEqual(intShl(-1, -1), (int) (-1 << -1), "(int) (-1 << -1)"); Tester.checkEqual(intShl(-1, 0), (int) (-1 << 0), "(int) (-1 << 0)"); Tester.checkEqual(intShl(-1, 1), (int) (-1 << 1), "(int) (-1 << 1)"); Tester.checkEqual(intShl(-1, Integer.MAX_VALUE), (int) (-1 << Integer.MAX_VALUE), "(int) (-1 << Integer.MAX_VALUE)"); Tester.checkEqual(intShl(0, Integer.MIN_VALUE), (int) (0 << Integer.MIN_VALUE), "(int) (0 << Integer.MIN_VALUE)"); Tester.checkEqual(intShl(0, -1), (int) (0 << -1), "(int) (0 << -1)"); Tester.checkEqual(intShl(0, 0), (int) (0 << 0), "(int) (0 << 0)"); Tester.checkEqual(intShl(0, 1), (int) (0 << 1), "(int) (0 << 1)"); Tester.checkEqual(intShl(0, Integer.MAX_VALUE), (int) (0 << Integer.MAX_VALUE), "(int) (0 << Integer.MAX_VALUE)"); Tester.checkEqual(intShl(1, Integer.MIN_VALUE), (int) (1 << Integer.MIN_VALUE), "(int) (1 << Integer.MIN_VALUE)"); Tester.checkEqual(intShl(1, -1), (int) (1 << -1), "(int) (1 << -1)"); Tester.checkEqual(intShl(1, 0), (int) (1 << 0), "(int) (1 << 0)"); Tester.checkEqual(intShl(1, 1), (int) (1 << 1), "(int) (1 << 1)"); Tester.checkEqual(intShl(1, Integer.MAX_VALUE), (int) (1 << Integer.MAX_VALUE), "(int) (1 << Integer.MAX_VALUE)"); Tester.checkEqual(intShl(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE << Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE << Integer.MIN_VALUE)"); Tester.checkEqual(intShl(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE << -1), "(int) (Integer.MAX_VALUE << -1)"); Tester.checkEqual(intShl(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE << 0), "(int) (Integer.MAX_VALUE << 0)"); Tester.checkEqual(intShl(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE << 1), "(int) (Integer.MAX_VALUE << 1)"); Tester.checkEqual(intShl(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE << Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE << Integer.MAX_VALUE)"); Tester.checkEqual(intShr(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE >> Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE >> Integer.MIN_VALUE)"); Tester.checkEqual(intShr(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE >> -1), "(int) (Integer.MIN_VALUE >> -1)"); Tester.checkEqual(intShr(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE >> 0), "(int) (Integer.MIN_VALUE >> 0)"); Tester.checkEqual(intShr(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE >> 1), "(int) (Integer.MIN_VALUE >> 1)"); Tester.checkEqual(intShr(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE >> Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE >> Integer.MAX_VALUE)"); Tester.checkEqual(intShr(-1, Integer.MIN_VALUE), (int) (-1 >> Integer.MIN_VALUE), "(int) (-1 >> Integer.MIN_VALUE)"); Tester.checkEqual(intShr(-1, -1), (int) (-1 >> -1), "(int) (-1 >> -1)"); Tester.checkEqual(intShr(-1, 0), (int) (-1 >> 0), "(int) (-1 >> 0)"); Tester.checkEqual(intShr(-1, 1), (int) (-1 >> 1), "(int) (-1 >> 1)"); Tester.checkEqual(intShr(-1, Integer.MAX_VALUE), (int) (-1 >> Integer.MAX_VALUE), "(int) (-1 >> Integer.MAX_VALUE)"); Tester.checkEqual(intShr(0, Integer.MIN_VALUE), (int) (0 >> Integer.MIN_VALUE), "(int) (0 >> Integer.MIN_VALUE)"); Tester.checkEqual(intShr(0, -1), (int) (0 >> -1), "(int) (0 >> -1)"); Tester.checkEqual(intShr(0, 0), (int) (0 >> 0), "(int) (0 >> 0)"); Tester.checkEqual(intShr(0, 1), (int) (0 >> 1), "(int) (0 >> 1)"); Tester.checkEqual(intShr(0, Integer.MAX_VALUE), (int) (0 >> Integer.MAX_VALUE), "(int) (0 >> Integer.MAX_VALUE)"); Tester.checkEqual(intShr(1, Integer.MIN_VALUE), (int) (1 >> Integer.MIN_VALUE), "(int) (1 >> Integer.MIN_VALUE)"); Tester.checkEqual(intShr(1, -1), (int) (1 >> -1), "(int) (1 >> -1)"); Tester.checkEqual(intShr(1, 0), (int) (1 >> 0), "(int) (1 >> 0)"); Tester.checkEqual(intShr(1, 1), (int) (1 >> 1), "(int) (1 >> 1)"); Tester.checkEqual(intShr(1, Integer.MAX_VALUE), (int) (1 >> Integer.MAX_VALUE), "(int) (1 >> Integer.MAX_VALUE)"); Tester.checkEqual(intShr(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE >> Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE >> Integer.MIN_VALUE)"); Tester.checkEqual(intShr(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE >> -1), "(int) (Integer.MAX_VALUE >> -1)"); Tester.checkEqual(intShr(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE >> 0), "(int) (Integer.MAX_VALUE >> 0)"); Tester.checkEqual(intShr(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE >> 1), "(int) (Integer.MAX_VALUE >> 1)"); Tester.checkEqual(intShr(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE >> Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE >> Integer.MAX_VALUE)"); Tester.checkEqual(intUshr(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE >>> Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE >>> Integer.MIN_VALUE)"); Tester.checkEqual(intUshr(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE >>> -1), "(int) (Integer.MIN_VALUE >>> -1)"); Tester.checkEqual(intUshr(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE >>> 0), "(int) (Integer.MIN_VALUE >>> 0)"); Tester.checkEqual(intUshr(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE >>> 1), "(int) (Integer.MIN_VALUE >>> 1)"); Tester.checkEqual(intUshr(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE >>> Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE >>> Integer.MAX_VALUE)"); Tester.checkEqual(intUshr(-1, Integer.MIN_VALUE), (int) (-1 >>> Integer.MIN_VALUE), "(int) (-1 >>> Integer.MIN_VALUE)"); Tester.checkEqual(intUshr(-1, -1), (int) (-1 >>> -1), "(int) (-1 >>> -1)"); Tester.checkEqual(intUshr(-1, 0), (int) (-1 >>> 0), "(int) (-1 >>> 0)"); Tester.checkEqual(intUshr(-1, 1), (int) (-1 >>> 1), "(int) (-1 >>> 1)"); Tester.checkEqual(intUshr(-1, Integer.MAX_VALUE), (int) (-1 >>> Integer.MAX_VALUE), "(int) (-1 >>> Integer.MAX_VALUE)"); Tester.checkEqual(intUshr(0, Integer.MIN_VALUE), (int) (0 >>> Integer.MIN_VALUE), "(int) (0 >>> Integer.MIN_VALUE)"); Tester.checkEqual(intUshr(0, -1), (int) (0 >>> -1), "(int) (0 >>> -1)"); Tester.checkEqual(intUshr(0, 0), (int) (0 >>> 0), "(int) (0 >>> 0)"); Tester.checkEqual(intUshr(0, 1), (int) (0 >>> 1), "(int) (0 >>> 1)"); Tester.checkEqual(intUshr(0, Integer.MAX_VALUE), (int) (0 >>> Integer.MAX_VALUE), "(int) (0 >>> Integer.MAX_VALUE)"); Tester.checkEqual(intUshr(1, Integer.MIN_VALUE), (int) (1 >>> Integer.MIN_VALUE), "(int) (1 >>> Integer.MIN_VALUE)"); Tester.checkEqual(intUshr(1, -1), (int) (1 >>> -1), "(int) (1 >>> -1)"); Tester.checkEqual(intUshr(1, 0), (int) (1 >>> 0), "(int) (1 >>> 0)"); Tester.checkEqual(intUshr(1, 1), (int) (1 >>> 1), "(int) (1 >>> 1)"); Tester.checkEqual(intUshr(1, Integer.MAX_VALUE), (int) (1 >>> Integer.MAX_VALUE), "(int) (1 >>> Integer.MAX_VALUE)"); Tester.checkEqual(intUshr(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE >>> Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE >>> Integer.MIN_VALUE)"); Tester.checkEqual(intUshr(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE >>> -1), "(int) (Integer.MAX_VALUE >>> -1)"); Tester.checkEqual(intUshr(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE >>> 0), "(int) (Integer.MAX_VALUE >>> 0)"); Tester.checkEqual(intUshr(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE >>> 1), "(int) (Integer.MAX_VALUE >>> 1)"); Tester.checkEqual(intUshr(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE >>> Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE >>> Integer.MAX_VALUE)"); Tester.checkEqual(intLt(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE < Integer.MIN_VALUE, "Integer.MIN_VALUE < Integer.MIN_VALUE"); Tester.checkEqual(intLt(Integer.MIN_VALUE, -1), Integer.MIN_VALUE < -1, "Integer.MIN_VALUE < -1"); Tester.checkEqual(intLt(Integer.MIN_VALUE, 0), Integer.MIN_VALUE < 0, "Integer.MIN_VALUE < 0"); Tester.checkEqual(intLt(Integer.MIN_VALUE, 1), Integer.MIN_VALUE < 1, "Integer.MIN_VALUE < 1"); Tester.checkEqual(intLt(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE < Integer.MAX_VALUE, "Integer.MIN_VALUE < Integer.MAX_VALUE"); Tester.checkEqual(intLt(-1, Integer.MIN_VALUE), -1 < Integer.MIN_VALUE, "-1 < Integer.MIN_VALUE"); Tester.checkEqual(intLt(-1, -1), -1 < -1, "-1 < -1"); Tester.checkEqual(intLt(-1, 0), -1 < 0, "-1 < 0"); Tester.checkEqual(intLt(-1, 1), -1 < 1, "-1 < 1"); Tester.checkEqual(intLt(-1, Integer.MAX_VALUE), -1 < Integer.MAX_VALUE, "-1 < Integer.MAX_VALUE"); Tester.checkEqual(intLt(0, Integer.MIN_VALUE), 0 < Integer.MIN_VALUE, "0 < Integer.MIN_VALUE"); Tester.checkEqual(intLt(0, -1), 0 < -1, "0 < -1"); Tester.checkEqual(intLt(0, 0), 0 < 0, "0 < 0"); Tester.checkEqual(intLt(0, 1), 0 < 1, "0 < 1"); Tester.checkEqual(intLt(0, Integer.MAX_VALUE), 0 < Integer.MAX_VALUE, "0 < Integer.MAX_VALUE"); Tester.checkEqual(intLt(1, Integer.MIN_VALUE), 1 < Integer.MIN_VALUE, "1 < Integer.MIN_VALUE"); Tester.checkEqual(intLt(1, -1), 1 < -1, "1 < -1"); Tester.checkEqual(intLt(1, 0), 1 < 0, "1 < 0"); Tester.checkEqual(intLt(1, 1), 1 < 1, "1 < 1"); Tester.checkEqual(intLt(1, Integer.MAX_VALUE), 1 < Integer.MAX_VALUE, "1 < Integer.MAX_VALUE"); Tester.checkEqual(intLt(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE < Integer.MIN_VALUE, "Integer.MAX_VALUE < Integer.MIN_VALUE"); Tester.checkEqual(intLt(Integer.MAX_VALUE, -1), Integer.MAX_VALUE < -1, "Integer.MAX_VALUE < -1"); Tester.checkEqual(intLt(Integer.MAX_VALUE, 0), Integer.MAX_VALUE < 0, "Integer.MAX_VALUE < 0"); Tester.checkEqual(intLt(Integer.MAX_VALUE, 1), Integer.MAX_VALUE < 1, "Integer.MAX_VALUE < 1"); Tester.checkEqual(intLt(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE < Integer.MAX_VALUE, "Integer.MAX_VALUE < Integer.MAX_VALUE"); Tester.checkEqual(intGt(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE > Integer.MIN_VALUE, "Integer.MIN_VALUE > Integer.MIN_VALUE"); Tester.checkEqual(intGt(Integer.MIN_VALUE, -1), Integer.MIN_VALUE > -1, "Integer.MIN_VALUE > -1"); Tester.checkEqual(intGt(Integer.MIN_VALUE, 0), Integer.MIN_VALUE > 0, "Integer.MIN_VALUE > 0"); Tester.checkEqual(intGt(Integer.MIN_VALUE, 1), Integer.MIN_VALUE > 1, "Integer.MIN_VALUE > 1"); Tester.checkEqual(intGt(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE > Integer.MAX_VALUE, "Integer.MIN_VALUE > Integer.MAX_VALUE"); Tester.checkEqual(intGt(-1, Integer.MIN_VALUE), -1 > Integer.MIN_VALUE, "-1 > Integer.MIN_VALUE"); Tester.checkEqual(intGt(-1, -1), -1 > -1, "-1 > -1"); Tester.checkEqual(intGt(-1, 0), -1 > 0, "-1 > 0"); Tester.checkEqual(intGt(-1, 1), -1 > 1, "-1 > 1"); Tester.checkEqual(intGt(-1, Integer.MAX_VALUE), -1 > Integer.MAX_VALUE, "-1 > Integer.MAX_VALUE"); Tester.checkEqual(intGt(0, Integer.MIN_VALUE), 0 > Integer.MIN_VALUE, "0 > Integer.MIN_VALUE"); Tester.checkEqual(intGt(0, -1), 0 > -1, "0 > -1"); Tester.checkEqual(intGt(0, 0), 0 > 0, "0 > 0"); Tester.checkEqual(intGt(0, 1), 0 > 1, "0 > 1"); Tester.checkEqual(intGt(0, Integer.MAX_VALUE), 0 > Integer.MAX_VALUE, "0 > Integer.MAX_VALUE"); Tester.checkEqual(intGt(1, Integer.MIN_VALUE), 1 > Integer.MIN_VALUE, "1 > Integer.MIN_VALUE"); Tester.checkEqual(intGt(1, -1), 1 > -1, "1 > -1"); Tester.checkEqual(intGt(1, 0), 1 > 0, "1 > 0"); Tester.checkEqual(intGt(1, 1), 1 > 1, "1 > 1"); Tester.checkEqual(intGt(1, Integer.MAX_VALUE), 1 > Integer.MAX_VALUE, "1 > Integer.MAX_VALUE"); Tester.checkEqual(intGt(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE > Integer.MIN_VALUE, "Integer.MAX_VALUE > Integer.MIN_VALUE"); Tester.checkEqual(intGt(Integer.MAX_VALUE, -1), Integer.MAX_VALUE > -1, "Integer.MAX_VALUE > -1"); Tester.checkEqual(intGt(Integer.MAX_VALUE, 0), Integer.MAX_VALUE > 0, "Integer.MAX_VALUE > 0"); Tester.checkEqual(intGt(Integer.MAX_VALUE, 1), Integer.MAX_VALUE > 1, "Integer.MAX_VALUE > 1"); Tester.checkEqual(intGt(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE > Integer.MAX_VALUE, "Integer.MAX_VALUE > Integer.MAX_VALUE"); Tester.checkEqual(intLe(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE <= Integer.MIN_VALUE, "Integer.MIN_VALUE <= Integer.MIN_VALUE"); Tester.checkEqual(intLe(Integer.MIN_VALUE, -1), Integer.MIN_VALUE <= -1, "Integer.MIN_VALUE <= -1"); Tester.checkEqual(intLe(Integer.MIN_VALUE, 0), Integer.MIN_VALUE <= 0, "Integer.MIN_VALUE <= 0"); Tester.checkEqual(intLe(Integer.MIN_VALUE, 1), Integer.MIN_VALUE <= 1, "Integer.MIN_VALUE <= 1"); Tester.checkEqual(intLe(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE <= Integer.MAX_VALUE, "Integer.MIN_VALUE <= Integer.MAX_VALUE"); Tester.checkEqual(intLe(-1, Integer.MIN_VALUE), -1 <= Integer.MIN_VALUE, "-1 <= Integer.MIN_VALUE"); Tester.checkEqual(intLe(-1, -1), -1 <= -1, "-1 <= -1"); Tester.checkEqual(intLe(-1, 0), -1 <= 0, "-1 <= 0"); Tester.checkEqual(intLe(-1, 1), -1 <= 1, "-1 <= 1"); Tester.checkEqual(intLe(-1, Integer.MAX_VALUE), -1 <= Integer.MAX_VALUE, "-1 <= Integer.MAX_VALUE"); Tester.checkEqual(intLe(0, Integer.MIN_VALUE), 0 <= Integer.MIN_VALUE, "0 <= Integer.MIN_VALUE"); Tester.checkEqual(intLe(0, -1), 0 <= -1, "0 <= -1"); Tester.checkEqual(intLe(0, 0), 0 <= 0, "0 <= 0"); Tester.checkEqual(intLe(0, 1), 0 <= 1, "0 <= 1"); Tester.checkEqual(intLe(0, Integer.MAX_VALUE), 0 <= Integer.MAX_VALUE, "0 <= Integer.MAX_VALUE"); Tester.checkEqual(intLe(1, Integer.MIN_VALUE), 1 <= Integer.MIN_VALUE, "1 <= Integer.MIN_VALUE"); Tester.checkEqual(intLe(1, -1), 1 <= -1, "1 <= -1"); Tester.checkEqual(intLe(1, 0), 1 <= 0, "1 <= 0"); Tester.checkEqual(intLe(1, 1), 1 <= 1, "1 <= 1"); Tester.checkEqual(intLe(1, Integer.MAX_VALUE), 1 <= Integer.MAX_VALUE, "1 <= Integer.MAX_VALUE"); Tester.checkEqual(intLe(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE <= Integer.MIN_VALUE, "Integer.MAX_VALUE <= Integer.MIN_VALUE"); Tester.checkEqual(intLe(Integer.MAX_VALUE, -1), Integer.MAX_VALUE <= -1, "Integer.MAX_VALUE <= -1"); Tester.checkEqual(intLe(Integer.MAX_VALUE, 0), Integer.MAX_VALUE <= 0, "Integer.MAX_VALUE <= 0"); Tester.checkEqual(intLe(Integer.MAX_VALUE, 1), Integer.MAX_VALUE <= 1, "Integer.MAX_VALUE <= 1"); Tester.checkEqual(intLe(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE <= Integer.MAX_VALUE, "Integer.MAX_VALUE <= Integer.MAX_VALUE"); Tester.checkEqual(intGe(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE >= Integer.MIN_VALUE, "Integer.MIN_VALUE >= Integer.MIN_VALUE"); Tester.checkEqual(intGe(Integer.MIN_VALUE, -1), Integer.MIN_VALUE >= -1, "Integer.MIN_VALUE >= -1"); Tester.checkEqual(intGe(Integer.MIN_VALUE, 0), Integer.MIN_VALUE >= 0, "Integer.MIN_VALUE >= 0"); Tester.checkEqual(intGe(Integer.MIN_VALUE, 1), Integer.MIN_VALUE >= 1, "Integer.MIN_VALUE >= 1"); Tester.checkEqual(intGe(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE >= Integer.MAX_VALUE, "Integer.MIN_VALUE >= Integer.MAX_VALUE"); Tester.checkEqual(intGe(-1, Integer.MIN_VALUE), -1 >= Integer.MIN_VALUE, "-1 >= Integer.MIN_VALUE"); Tester.checkEqual(intGe(-1, -1), -1 >= -1, "-1 >= -1"); Tester.checkEqual(intGe(-1, 0), -1 >= 0, "-1 >= 0"); Tester.checkEqual(intGe(-1, 1), -1 >= 1, "-1 >= 1"); Tester.checkEqual(intGe(-1, Integer.MAX_VALUE), -1 >= Integer.MAX_VALUE, "-1 >= Integer.MAX_VALUE"); Tester.checkEqual(intGe(0, Integer.MIN_VALUE), 0 >= Integer.MIN_VALUE, "0 >= Integer.MIN_VALUE"); Tester.checkEqual(intGe(0, -1), 0 >= -1, "0 >= -1"); Tester.checkEqual(intGe(0, 0), 0 >= 0, "0 >= 0"); Tester.checkEqual(intGe(0, 1), 0 >= 1, "0 >= 1"); Tester.checkEqual(intGe(0, Integer.MAX_VALUE), 0 >= Integer.MAX_VALUE, "0 >= Integer.MAX_VALUE"); Tester.checkEqual(intGe(1, Integer.MIN_VALUE), 1 >= Integer.MIN_VALUE, "1 >= Integer.MIN_VALUE"); Tester.checkEqual(intGe(1, -1), 1 >= -1, "1 >= -1"); Tester.checkEqual(intGe(1, 0), 1 >= 0, "1 >= 0"); Tester.checkEqual(intGe(1, 1), 1 >= 1, "1 >= 1"); Tester.checkEqual(intGe(1, Integer.MAX_VALUE), 1 >= Integer.MAX_VALUE, "1 >= Integer.MAX_VALUE"); Tester.checkEqual(intGe(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE >= Integer.MIN_VALUE, "Integer.MAX_VALUE >= Integer.MIN_VALUE"); Tester.checkEqual(intGe(Integer.MAX_VALUE, -1), Integer.MAX_VALUE >= -1, "Integer.MAX_VALUE >= -1"); Tester.checkEqual(intGe(Integer.MAX_VALUE, 0), Integer.MAX_VALUE >= 0, "Integer.MAX_VALUE >= 0"); Tester.checkEqual(intGe(Integer.MAX_VALUE, 1), Integer.MAX_VALUE >= 1, "Integer.MAX_VALUE >= 1"); Tester.checkEqual(intGe(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE >= Integer.MAX_VALUE, "Integer.MAX_VALUE >= Integer.MAX_VALUE"); Tester.checkEqual(intEq(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE == Integer.MIN_VALUE, "Integer.MIN_VALUE == Integer.MIN_VALUE"); Tester.checkEqual(intEq(Integer.MIN_VALUE, -1), Integer.MIN_VALUE == -1, "Integer.MIN_VALUE == -1"); Tester.checkEqual(intEq(Integer.MIN_VALUE, 0), Integer.MIN_VALUE == 0, "Integer.MIN_VALUE == 0"); Tester.checkEqual(intEq(Integer.MIN_VALUE, 1), Integer.MIN_VALUE == 1, "Integer.MIN_VALUE == 1"); Tester.checkEqual(intEq(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE == Integer.MAX_VALUE, "Integer.MIN_VALUE == Integer.MAX_VALUE"); Tester.checkEqual(intEq(-1, Integer.MIN_VALUE), -1 == Integer.MIN_VALUE, "-1 == Integer.MIN_VALUE"); Tester.checkEqual(intEq(-1, -1), -1 == -1, "-1 == -1"); Tester.checkEqual(intEq(-1, 0), -1 == 0, "-1 == 0"); Tester.checkEqual(intEq(-1, 1), -1 == 1, "-1 == 1"); Tester.checkEqual(intEq(-1, Integer.MAX_VALUE), -1 == Integer.MAX_VALUE, "-1 == Integer.MAX_VALUE"); Tester.checkEqual(intEq(0, Integer.MIN_VALUE), 0 == Integer.MIN_VALUE, "0 == Integer.MIN_VALUE"); Tester.checkEqual(intEq(0, -1), 0 == -1, "0 == -1"); Tester.checkEqual(intEq(0, 0), 0 == 0, "0 == 0"); Tester.checkEqual(intEq(0, 1), 0 == 1, "0 == 1"); Tester.checkEqual(intEq(0, Integer.MAX_VALUE), 0 == Integer.MAX_VALUE, "0 == Integer.MAX_VALUE"); Tester.checkEqual(intEq(1, Integer.MIN_VALUE), 1 == Integer.MIN_VALUE, "1 == Integer.MIN_VALUE"); Tester.checkEqual(intEq(1, -1), 1 == -1, "1 == -1"); Tester.checkEqual(intEq(1, 0), 1 == 0, "1 == 0"); Tester.checkEqual(intEq(1, 1), 1 == 1, "1 == 1"); Tester.checkEqual(intEq(1, Integer.MAX_VALUE), 1 == Integer.MAX_VALUE, "1 == Integer.MAX_VALUE"); Tester.checkEqual(intEq(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE == Integer.MIN_VALUE, "Integer.MAX_VALUE == Integer.MIN_VALUE"); Tester.checkEqual(intEq(Integer.MAX_VALUE, -1), Integer.MAX_VALUE == -1, "Integer.MAX_VALUE == -1"); Tester.checkEqual(intEq(Integer.MAX_VALUE, 0), Integer.MAX_VALUE == 0, "Integer.MAX_VALUE == 0"); Tester.checkEqual(intEq(Integer.MAX_VALUE, 1), Integer.MAX_VALUE == 1, "Integer.MAX_VALUE == 1"); Tester.checkEqual(intEq(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE == Integer.MAX_VALUE, "Integer.MAX_VALUE == Integer.MAX_VALUE"); Tester.checkEqual(intNe(Integer.MIN_VALUE, Integer.MIN_VALUE), Integer.MIN_VALUE != Integer.MIN_VALUE, "Integer.MIN_VALUE != Integer.MIN_VALUE"); Tester.checkEqual(intNe(Integer.MIN_VALUE, -1), Integer.MIN_VALUE != -1, "Integer.MIN_VALUE != -1"); Tester.checkEqual(intNe(Integer.MIN_VALUE, 0), Integer.MIN_VALUE != 0, "Integer.MIN_VALUE != 0"); Tester.checkEqual(intNe(Integer.MIN_VALUE, 1), Integer.MIN_VALUE != 1, "Integer.MIN_VALUE != 1"); Tester.checkEqual(intNe(Integer.MIN_VALUE, Integer.MAX_VALUE), Integer.MIN_VALUE != Integer.MAX_VALUE, "Integer.MIN_VALUE != Integer.MAX_VALUE"); Tester.checkEqual(intNe(-1, Integer.MIN_VALUE), -1 != Integer.MIN_VALUE, "-1 != Integer.MIN_VALUE"); Tester.checkEqual(intNe(-1, -1), -1 != -1, "-1 != -1"); Tester.checkEqual(intNe(-1, 0), -1 != 0, "-1 != 0"); Tester.checkEqual(intNe(-1, 1), -1 != 1, "-1 != 1"); Tester.checkEqual(intNe(-1, Integer.MAX_VALUE), -1 != Integer.MAX_VALUE, "-1 != Integer.MAX_VALUE"); Tester.checkEqual(intNe(0, Integer.MIN_VALUE), 0 != Integer.MIN_VALUE, "0 != Integer.MIN_VALUE"); Tester.checkEqual(intNe(0, -1), 0 != -1, "0 != -1"); Tester.checkEqual(intNe(0, 0), 0 != 0, "0 != 0"); Tester.checkEqual(intNe(0, 1), 0 != 1, "0 != 1"); Tester.checkEqual(intNe(0, Integer.MAX_VALUE), 0 != Integer.MAX_VALUE, "0 != Integer.MAX_VALUE"); Tester.checkEqual(intNe(1, Integer.MIN_VALUE), 1 != Integer.MIN_VALUE, "1 != Integer.MIN_VALUE"); Tester.checkEqual(intNe(1, -1), 1 != -1, "1 != -1"); Tester.checkEqual(intNe(1, 0), 1 != 0, "1 != 0"); Tester.checkEqual(intNe(1, 1), 1 != 1, "1 != 1"); Tester.checkEqual(intNe(1, Integer.MAX_VALUE), 1 != Integer.MAX_VALUE, "1 != Integer.MAX_VALUE"); Tester.checkEqual(intNe(Integer.MAX_VALUE, Integer.MIN_VALUE), Integer.MAX_VALUE != Integer.MIN_VALUE, "Integer.MAX_VALUE != Integer.MIN_VALUE"); Tester.checkEqual(intNe(Integer.MAX_VALUE, -1), Integer.MAX_VALUE != -1, "Integer.MAX_VALUE != -1"); Tester.checkEqual(intNe(Integer.MAX_VALUE, 0), Integer.MAX_VALUE != 0, "Integer.MAX_VALUE != 0"); Tester.checkEqual(intNe(Integer.MAX_VALUE, 1), Integer.MAX_VALUE != 1, "Integer.MAX_VALUE != 1"); Tester.checkEqual(intNe(Integer.MAX_VALUE, Integer.MAX_VALUE), Integer.MAX_VALUE != Integer.MAX_VALUE, "Integer.MAX_VALUE != Integer.MAX_VALUE"); Tester.checkEqual(intAnd(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE & Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE & Integer.MIN_VALUE)"); Tester.checkEqual(intAnd(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE & -1), "(int) (Integer.MIN_VALUE & -1)"); Tester.checkEqual(intAnd(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE & 0), "(int) (Integer.MIN_VALUE & 0)"); Tester.checkEqual(intAnd(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE & 1), "(int) (Integer.MIN_VALUE & 1)"); Tester.checkEqual(intAnd(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE & Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE & Integer.MAX_VALUE)"); Tester.checkEqual(intAnd(-1, Integer.MIN_VALUE), (int) (-1 & Integer.MIN_VALUE), "(int) (-1 & Integer.MIN_VALUE)"); Tester.checkEqual(intAnd(-1, -1), (int) (-1 & -1), "(int) (-1 & -1)"); Tester.checkEqual(intAnd(-1, 0), (int) (-1 & 0), "(int) (-1 & 0)"); Tester.checkEqual(intAnd(-1, 1), (int) (-1 & 1), "(int) (-1 & 1)"); Tester.checkEqual(intAnd(-1, Integer.MAX_VALUE), (int) (-1 & Integer.MAX_VALUE), "(int) (-1 & Integer.MAX_VALUE)"); Tester.checkEqual(intAnd(0, Integer.MIN_VALUE), (int) (0 & Integer.MIN_VALUE), "(int) (0 & Integer.MIN_VALUE)"); Tester.checkEqual(intAnd(0, -1), (int) (0 & -1), "(int) (0 & -1)"); Tester.checkEqual(intAnd(0, 0), (int) (0 & 0), "(int) (0 & 0)"); Tester.checkEqual(intAnd(0, 1), (int) (0 & 1), "(int) (0 & 1)"); Tester.checkEqual(intAnd(0, Integer.MAX_VALUE), (int) (0 & Integer.MAX_VALUE), "(int) (0 & Integer.MAX_VALUE)"); Tester.checkEqual(intAnd(1, Integer.MIN_VALUE), (int) (1 & Integer.MIN_VALUE), "(int) (1 & Integer.MIN_VALUE)"); Tester.checkEqual(intAnd(1, -1), (int) (1 & -1), "(int) (1 & -1)"); Tester.checkEqual(intAnd(1, 0), (int) (1 & 0), "(int) (1 & 0)"); Tester.checkEqual(intAnd(1, 1), (int) (1 & 1), "(int) (1 & 1)"); Tester.checkEqual(intAnd(1, Integer.MAX_VALUE), (int) (1 & Integer.MAX_VALUE), "(int) (1 & Integer.MAX_VALUE)"); Tester.checkEqual(intAnd(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE & Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE & Integer.MIN_VALUE)"); Tester.checkEqual(intAnd(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE & -1), "(int) (Integer.MAX_VALUE & -1)"); Tester.checkEqual(intAnd(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE & 0), "(int) (Integer.MAX_VALUE & 0)"); Tester.checkEqual(intAnd(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE & 1), "(int) (Integer.MAX_VALUE & 1)"); Tester.checkEqual(intAnd(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE & Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE & Integer.MAX_VALUE)"); Tester.checkEqual(intXor(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE ^ Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE ^ Integer.MIN_VALUE)"); Tester.checkEqual(intXor(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE ^ -1), "(int) (Integer.MIN_VALUE ^ -1)"); Tester.checkEqual(intXor(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE ^ 0), "(int) (Integer.MIN_VALUE ^ 0)"); Tester.checkEqual(intXor(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE ^ 1), "(int) (Integer.MIN_VALUE ^ 1)"); Tester.checkEqual(intXor(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE ^ Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE ^ Integer.MAX_VALUE)"); Tester.checkEqual(intXor(-1, Integer.MIN_VALUE), (int) (-1 ^ Integer.MIN_VALUE), "(int) (-1 ^ Integer.MIN_VALUE)"); Tester.checkEqual(intXor(-1, -1), (int) (-1 ^ -1), "(int) (-1 ^ -1)"); Tester.checkEqual(intXor(-1, 0), (int) (-1 ^ 0), "(int) (-1 ^ 0)"); Tester.checkEqual(intXor(-1, 1), (int) (-1 ^ 1), "(int) (-1 ^ 1)"); Tester.checkEqual(intXor(-1, Integer.MAX_VALUE), (int) (-1 ^ Integer.MAX_VALUE), "(int) (-1 ^ Integer.MAX_VALUE)"); Tester.checkEqual(intXor(0, Integer.MIN_VALUE), (int) (0 ^ Integer.MIN_VALUE), "(int) (0 ^ Integer.MIN_VALUE)"); Tester.checkEqual(intXor(0, -1), (int) (0 ^ -1), "(int) (0 ^ -1)"); Tester.checkEqual(intXor(0, 0), (int) (0 ^ 0), "(int) (0 ^ 0)"); Tester.checkEqual(intXor(0, 1), (int) (0 ^ 1), "(int) (0 ^ 1)"); Tester.checkEqual(intXor(0, Integer.MAX_VALUE), (int) (0 ^ Integer.MAX_VALUE), "(int) (0 ^ Integer.MAX_VALUE)"); Tester.checkEqual(intXor(1, Integer.MIN_VALUE), (int) (1 ^ Integer.MIN_VALUE), "(int) (1 ^ Integer.MIN_VALUE)"); Tester.checkEqual(intXor(1, -1), (int) (1 ^ -1), "(int) (1 ^ -1)"); Tester.checkEqual(intXor(1, 0), (int) (1 ^ 0), "(int) (1 ^ 0)"); Tester.checkEqual(intXor(1, 1), (int) (1 ^ 1), "(int) (1 ^ 1)"); Tester.checkEqual(intXor(1, Integer.MAX_VALUE), (int) (1 ^ Integer.MAX_VALUE), "(int) (1 ^ Integer.MAX_VALUE)"); Tester.checkEqual(intXor(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE ^ Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE ^ Integer.MIN_VALUE)"); Tester.checkEqual(intXor(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE ^ -1), "(int) (Integer.MAX_VALUE ^ -1)"); Tester.checkEqual(intXor(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE ^ 0), "(int) (Integer.MAX_VALUE ^ 0)"); Tester.checkEqual(intXor(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE ^ 1), "(int) (Integer.MAX_VALUE ^ 1)"); Tester.checkEqual(intXor(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE ^ Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE ^ Integer.MAX_VALUE)"); Tester.checkEqual(intOr(Integer.MIN_VALUE, Integer.MIN_VALUE), (int) (Integer.MIN_VALUE | Integer.MIN_VALUE), "(int) (Integer.MIN_VALUE | Integer.MIN_VALUE)"); Tester.checkEqual(intOr(Integer.MIN_VALUE, -1), (int) (Integer.MIN_VALUE | -1), "(int) (Integer.MIN_VALUE | -1)"); Tester.checkEqual(intOr(Integer.MIN_VALUE, 0), (int) (Integer.MIN_VALUE | 0), "(int) (Integer.MIN_VALUE | 0)"); Tester.checkEqual(intOr(Integer.MIN_VALUE, 1), (int) (Integer.MIN_VALUE | 1), "(int) (Integer.MIN_VALUE | 1)"); Tester.checkEqual(intOr(Integer.MIN_VALUE, Integer.MAX_VALUE), (int) (Integer.MIN_VALUE | Integer.MAX_VALUE), "(int) (Integer.MIN_VALUE | Integer.MAX_VALUE)"); Tester.checkEqual(intOr(-1, Integer.MIN_VALUE), (int) (-1 | Integer.MIN_VALUE), "(int) (-1 | Integer.MIN_VALUE)"); Tester.checkEqual(intOr(-1, -1), (int) (-1 | -1), "(int) (-1 | -1)"); Tester.checkEqual(intOr(-1, 0), (int) (-1 | 0), "(int) (-1 | 0)"); Tester.checkEqual(intOr(-1, 1), (int) (-1 | 1), "(int) (-1 | 1)"); Tester.checkEqual(intOr(-1, Integer.MAX_VALUE), (int) (-1 | Integer.MAX_VALUE), "(int) (-1 | Integer.MAX_VALUE)"); Tester.checkEqual(intOr(0, Integer.MIN_VALUE), (int) (0 | Integer.MIN_VALUE), "(int) (0 | Integer.MIN_VALUE)"); Tester.checkEqual(intOr(0, -1), (int) (0 | -1), "(int) (0 | -1)"); Tester.checkEqual(intOr(0, 0), (int) (0 | 0), "(int) (0 | 0)"); Tester.checkEqual(intOr(0, 1), (int) (0 | 1), "(int) (0 | 1)"); Tester.checkEqual(intOr(0, Integer.MAX_VALUE), (int) (0 | Integer.MAX_VALUE), "(int) (0 | Integer.MAX_VALUE)"); Tester.checkEqual(intOr(1, Integer.MIN_VALUE), (int) (1 | Integer.MIN_VALUE), "(int) (1 | Integer.MIN_VALUE)"); Tester.checkEqual(intOr(1, -1), (int) (1 | -1), "(int) (1 | -1)"); Tester.checkEqual(intOr(1, 0), (int) (1 | 0), "(int) (1 | 0)"); Tester.checkEqual(intOr(1, 1), (int) (1 | 1), "(int) (1 | 1)"); Tester.checkEqual(intOr(1, Integer.MAX_VALUE), (int) (1 | Integer.MAX_VALUE), "(int) (1 | Integer.MAX_VALUE)"); Tester.checkEqual(intOr(Integer.MAX_VALUE, Integer.MIN_VALUE), (int) (Integer.MAX_VALUE | Integer.MIN_VALUE), "(int) (Integer.MAX_VALUE | Integer.MIN_VALUE)"); Tester.checkEqual(intOr(Integer.MAX_VALUE, -1), (int) (Integer.MAX_VALUE | -1), "(int) (Integer.MAX_VALUE | -1)"); Tester.checkEqual(intOr(Integer.MAX_VALUE, 0), (int) (Integer.MAX_VALUE | 0), "(int) (Integer.MAX_VALUE | 0)"); Tester.checkEqual(intOr(Integer.MAX_VALUE, 1), (int) (Integer.MAX_VALUE | 1), "(int) (Integer.MAX_VALUE | 1)"); Tester.checkEqual(intOr(Integer.MAX_VALUE, Integer.MAX_VALUE), (int) (Integer.MAX_VALUE | Integer.MAX_VALUE), "(int) (Integer.MAX_VALUE | Integer.MAX_VALUE)"); } static void intSwitch() { switch(0) { case ((((int) + Integer.MIN_VALUE) == 0) ? 0 : 0): case ((((int) + -1) == 0) ? 1 : 1): case ((((int) + 0) == 0) ? 2 : 2): case ((((int) + 1) == 0) ? 3 : 3): case ((((int) + Integer.MAX_VALUE) == 0) ? 4 : 4): case ((((int) - Integer.MIN_VALUE) == 0) ? 5 : 5): case ((((int) - -1) == 0) ? 6 : 6): case ((((int) - 0) == 0) ? 7 : 7): case ((((int) - 1) == 0) ? 8 : 8): case ((((int) - Integer.MAX_VALUE) == 0) ? 9 : 9): case ((((int) ~ Integer.MIN_VALUE) == 0) ? 10 : 10): case ((((int) ~ -1) == 0) ? 11 : 11): case ((((int) ~ 0) == 0) ? 12 : 12): case ((((int) ~ 1) == 0) ? 13 : 13): case ((((int) ~ Integer.MAX_VALUE) == 0) ? 14 : 14): case ((((int) (Integer.MIN_VALUE * Integer.MIN_VALUE)) == 0) ? 15 : 15): case ((((int) (Integer.MIN_VALUE * -1)) == 0) ? 16 : 16): case ((((int) (Integer.MIN_VALUE * 0)) == 0) ? 17 : 17): case ((((int) (Integer.MIN_VALUE * 1)) == 0) ? 18 : 18): case ((((int) (Integer.MIN_VALUE * Integer.MAX_VALUE)) == 0) ? 19 : 19): case ((((int) (-1 * Integer.MIN_VALUE)) == 0) ? 20 : 20): case ((((int) (-1 * -1)) == 0) ? 21 : 21): case ((((int) (-1 * 0)) == 0) ? 22 : 22): case ((((int) (-1 * 1)) == 0) ? 23 : 23): case ((((int) (-1 * Integer.MAX_VALUE)) == 0) ? 24 : 24): case ((((int) (0 * Integer.MIN_VALUE)) == 0) ? 25 : 25): case ((((int) (0 * -1)) == 0) ? 26 : 26): case ((((int) (0 * 0)) == 0) ? 27 : 27): case ((((int) (0 * 1)) == 0) ? 28 : 28): case ((((int) (0 * Integer.MAX_VALUE)) == 0) ? 29 : 29): case ((((int) (1 * Integer.MIN_VALUE)) == 0) ? 30 : 30): case ((((int) (1 * -1)) == 0) ? 31 : 31): case ((((int) (1 * 0)) == 0) ? 32 : 32): case ((((int) (1 * 1)) == 0) ? 33 : 33): case ((((int) (1 * Integer.MAX_VALUE)) == 0) ? 34 : 34): case ((((int) (Integer.MAX_VALUE * Integer.MIN_VALUE)) == 0) ? 35 : 35): case ((((int) (Integer.MAX_VALUE * -1)) == 0) ? 36 : 36): case ((((int) (Integer.MAX_VALUE * 0)) == 0) ? 37 : 37): case ((((int) (Integer.MAX_VALUE * 1)) == 0) ? 38 : 38): case ((((int) (Integer.MAX_VALUE * Integer.MAX_VALUE)) == 0) ? 39 : 39): case ((((int) (Integer.MIN_VALUE / Integer.MIN_VALUE)) == 0) ? 40 : 40): case ((((int) (Integer.MIN_VALUE / -1)) == 0) ? 41 : 41): case ((((int) (Integer.MIN_VALUE / 1)) == 0) ? 42 : 42): case ((((int) (Integer.MIN_VALUE / Integer.MAX_VALUE)) == 0) ? 43 : 43): case ((((int) (-1 / Integer.MIN_VALUE)) == 0) ? 44 : 44): case ((((int) (-1 / -1)) == 0) ? 45 : 45): case ((((int) (-1 / 1)) == 0) ? 46 : 46): case ((((int) (-1 / Integer.MAX_VALUE)) == 0) ? 47 : 47): case ((((int) (0 / Integer.MIN_VALUE)) == 0) ? 48 : 48): case ((((int) (0 / -1)) == 0) ? 49 : 49): case ((((int) (0 / 1)) == 0) ? 50 : 50): case ((((int) (0 / Integer.MAX_VALUE)) == 0) ? 51 : 51): case ((((int) (1 / Integer.MIN_VALUE)) == 0) ? 52 : 52): case ((((int) (1 / -1)) == 0) ? 53 : 53): case ((((int) (1 / 1)) == 0) ? 54 : 54): case ((((int) (1 / Integer.MAX_VALUE)) == 0) ? 55 : 55): case ((((int) (Integer.MAX_VALUE / Integer.MIN_VALUE)) == 0) ? 56 : 56): case ((((int) (Integer.MAX_VALUE / -1)) == 0) ? 57 : 57): case ((((int) (Integer.MAX_VALUE / 1)) == 0) ? 58 : 58): case ((((int) (Integer.MAX_VALUE / Integer.MAX_VALUE)) == 0) ? 59 : 59): case ((((int) (Integer.MIN_VALUE % Integer.MIN_VALUE)) == 0) ? 60 : 60): case ((((int) (Integer.MIN_VALUE % -1)) == 0) ? 61 : 61): case ((((int) (Integer.MIN_VALUE % 1)) == 0) ? 62 : 62): case ((((int) (Integer.MIN_VALUE % Integer.MAX_VALUE)) == 0) ? 63 : 63): case ((((int) (-1 % Integer.MIN_VALUE)) == 0) ? 64 : 64): case ((((int) (-1 % -1)) == 0) ? 65 : 65): case ((((int) (-1 % 1)) == 0) ? 66 : 66): case ((((int) (-1 % Integer.MAX_VALUE)) == 0) ? 67 : 67): case ((((int) (0 % Integer.MIN_VALUE)) == 0) ? 68 : 68): case ((((int) (0 % -1)) == 0) ? 69 : 69): case ((((int) (0 % 1)) == 0) ? 70 : 70): case ((((int) (0 % Integer.MAX_VALUE)) == 0) ? 71 : 71): case ((((int) (1 % Integer.MIN_VALUE)) == 0) ? 72 : 72): case ((((int) (1 % -1)) == 0) ? 73 : 73): case ((((int) (1 % 1)) == 0) ? 74 : 74): case ((((int) (1 % Integer.MAX_VALUE)) == 0) ? 75 : 75): case ((((int) (Integer.MAX_VALUE % Integer.MIN_VALUE)) == 0) ? 76 : 76): case ((((int) (Integer.MAX_VALUE % -1)) == 0) ? 77 : 77): case ((((int) (Integer.MAX_VALUE % 1)) == 0) ? 78 : 78): case ((((int) (Integer.MAX_VALUE % Integer.MAX_VALUE)) == 0) ? 79 : 79): case ((((int) (Integer.MIN_VALUE + Integer.MIN_VALUE)) == 0) ? 80 : 80): case ((((int) (Integer.MIN_VALUE + -1)) == 0) ? 81 : 81): case ((((int) (Integer.MIN_VALUE + 0)) == 0) ? 82 : 82): case ((((int) (Integer.MIN_VALUE + 1)) == 0) ? 83 : 83): case ((((int) (Integer.MIN_VALUE + Integer.MAX_VALUE)) == 0) ? 84 : 84): case ((((int) (-1 + Integer.MIN_VALUE)) == 0) ? 85 : 85): case ((((int) (-1 + -1)) == 0) ? 86 : 86): case ((((int) (-1 + 0)) == 0) ? 87 : 87): case ((((int) (-1 + 1)) == 0) ? 88 : 88): case ((((int) (-1 + Integer.MAX_VALUE)) == 0) ? 89 : 89): case ((((int) (0 + Integer.MIN_VALUE)) == 0) ? 90 : 90): case ((((int) (0 + -1)) == 0) ? 91 : 91): case ((((int) (0 + 0)) == 0) ? 92 : 92): case ((((int) (0 + 1)) == 0) ? 93 : 93): case ((((int) (0 + Integer.MAX_VALUE)) == 0) ? 94 : 94): case ((((int) (1 + Integer.MIN_VALUE)) == 0) ? 95 : 95): case ((((int) (1 + -1)) == 0) ? 96 : 96): case ((((int) (1 + 0)) == 0) ? 97 : 97): case ((((int) (1 + 1)) == 0) ? 98 : 98): case ((((int) (1 + Integer.MAX_VALUE)) == 0) ? 99 : 99): case ((((int) (Integer.MAX_VALUE + Integer.MIN_VALUE)) == 0) ? 100 : 100): case ((((int) (Integer.MAX_VALUE + -1)) == 0) ? 101 : 101): case ((((int) (Integer.MAX_VALUE + 0)) == 0) ? 102 : 102): case ((((int) (Integer.MAX_VALUE + 1)) == 0) ? 103 : 103): case ((((int) (Integer.MAX_VALUE + Integer.MAX_VALUE)) == 0) ? 104 : 104): case ((((int) (Integer.MIN_VALUE - Integer.MIN_VALUE)) == 0) ? 105 : 105): case ((((int) (Integer.MIN_VALUE - -1)) == 0) ? 106 : 106): case ((((int) (Integer.MIN_VALUE - 0)) == 0) ? 107 : 107): case ((((int) (Integer.MIN_VALUE - 1)) == 0) ? 108 : 108): case ((((int) (Integer.MIN_VALUE - Integer.MAX_VALUE)) == 0) ? 109 : 109): case ((((int) (-1 - Integer.MIN_VALUE)) == 0) ? 110 : 110): case ((((int) (-1 - -1)) == 0) ? 111 : 111): case ((((int) (-1 - 0)) == 0) ? 112 : 112): case ((((int) (-1 - 1)) == 0) ? 113 : 113): case ((((int) (-1 - Integer.MAX_VALUE)) == 0) ? 114 : 114): case ((((int) (0 - Integer.MIN_VALUE)) == 0) ? 115 : 115): case ((((int) (0 - -1)) == 0) ? 116 : 116): case ((((int) (0 - 0)) == 0) ? 117 : 117): case ((((int) (0 - 1)) == 0) ? 118 : 118): case ((((int) (0 - Integer.MAX_VALUE)) == 0) ? 119 : 119): case ((((int) (1 - Integer.MIN_VALUE)) == 0) ? 120 : 120): case ((((int) (1 - -1)) == 0) ? 121 : 121): case ((((int) (1 - 0)) == 0) ? 122 : 122): case ((((int) (1 - 1)) == 0) ? 123 : 123): case ((((int) (1 - Integer.MAX_VALUE)) == 0) ? 124 : 124): case ((((int) (Integer.MAX_VALUE - Integer.MIN_VALUE)) == 0) ? 125 : 125): case ((((int) (Integer.MAX_VALUE - -1)) == 0) ? 126 : 126): case ((((int) (Integer.MAX_VALUE - 0)) == 0) ? 127 : 127): case ((((int) (Integer.MAX_VALUE - 1)) == 0) ? 128 : 128): case ((((int) (Integer.MAX_VALUE - Integer.MAX_VALUE)) == 0) ? 129 : 129): case ((((int) (Integer.MIN_VALUE << Integer.MIN_VALUE)) == 0) ? 130 : 130): case ((((int) (Integer.MIN_VALUE << -1)) == 0) ? 131 : 131): case ((((int) (Integer.MIN_VALUE << 0)) == 0) ? 132 : 132): case ((((int) (Integer.MIN_VALUE << 1)) == 0) ? 133 : 133): case ((((int) (Integer.MIN_VALUE << Integer.MAX_VALUE)) == 0) ? 134 : 134): case ((((int) (-1 << Integer.MIN_VALUE)) == 0) ? 135 : 135): case ((((int) (-1 << -1)) == 0) ? 136 : 136): case ((((int) (-1 << 0)) == 0) ? 137 : 137): case ((((int) (-1 << 1)) == 0) ? 138 : 138): case ((((int) (-1 << Integer.MAX_VALUE)) == 0) ? 139 : 139): case ((((int) (0 << Integer.MIN_VALUE)) == 0) ? 140 : 140): case ((((int) (0 << -1)) == 0) ? 141 : 141): case ((((int) (0 << 0)) == 0) ? 142 : 142): case ((((int) (0 << 1)) == 0) ? 143 : 143): case ((((int) (0 << Integer.MAX_VALUE)) == 0) ? 144 : 144): case ((((int) (1 << Integer.MIN_VALUE)) == 0) ? 145 : 145): case ((((int) (1 << -1)) == 0) ? 146 : 146): case ((((int) (1 << 0)) == 0) ? 147 : 147): case ((((int) (1 << 1)) == 0) ? 148 : 148): case ((((int) (1 << Integer.MAX_VALUE)) == 0) ? 149 : 149): case ((((int) (Integer.MAX_VALUE << Integer.MIN_VALUE)) == 0) ? 150 : 150): case ((((int) (Integer.MAX_VALUE << -1)) == 0) ? 151 : 151): case ((((int) (Integer.MAX_VALUE << 0)) == 0) ? 152 : 152): case ((((int) (Integer.MAX_VALUE << 1)) == 0) ? 153 : 153): case ((((int) (Integer.MAX_VALUE << Integer.MAX_VALUE)) == 0) ? 154 : 154): case ((((int) (Integer.MIN_VALUE >> Integer.MIN_VALUE)) == 0) ? 155 : 155): case ((((int) (Integer.MIN_VALUE >> -1)) == 0) ? 156 : 156): case ((((int) (Integer.MIN_VALUE >> 0)) == 0) ? 157 : 157): case ((((int) (Integer.MIN_VALUE >> 1)) == 0) ? 158 : 158): case ((((int) (Integer.MIN_VALUE >> Integer.MAX_VALUE)) == 0) ? 159 : 159): case ((((int) (-1 >> Integer.MIN_VALUE)) == 0) ? 160 : 160): case ((((int) (-1 >> -1)) == 0) ? 161 : 161): case ((((int) (-1 >> 0)) == 0) ? 162 : 162): case ((((int) (-1 >> 1)) == 0) ? 163 : 163): case ((((int) (-1 >> Integer.MAX_VALUE)) == 0) ? 164 : 164): case ((((int) (0 >> Integer.MIN_VALUE)) == 0) ? 165 : 165): case ((((int) (0 >> -1)) == 0) ? 166 : 166): case ((((int) (0 >> 0)) == 0) ? 167 : 167): case ((((int) (0 >> 1)) == 0) ? 168 : 168): case ((((int) (0 >> Integer.MAX_VALUE)) == 0) ? 169 : 169): case ((((int) (1 >> Integer.MIN_VALUE)) == 0) ? 170 : 170): case ((((int) (1 >> -1)) == 0) ? 171 : 171): case ((((int) (1 >> 0)) == 0) ? 172 : 172): case ((((int) (1 >> 1)) == 0) ? 173 : 173): case ((((int) (1 >> Integer.MAX_VALUE)) == 0) ? 174 : 174): case ((((int) (Integer.MAX_VALUE >> Integer.MIN_VALUE)) == 0) ? 175 : 175): case ((((int) (Integer.MAX_VALUE >> -1)) == 0) ? 176 : 176): case ((((int) (Integer.MAX_VALUE >> 0)) == 0) ? 177 : 177): case ((((int) (Integer.MAX_VALUE >> 1)) == 0) ? 178 : 178): case ((((int) (Integer.MAX_VALUE >> Integer.MAX_VALUE)) == 0) ? 179 : 179): case ((((int) (Integer.MIN_VALUE >>> Integer.MIN_VALUE)) == 0) ? 180 : 180): case ((((int) (Integer.MIN_VALUE >>> -1)) == 0) ? 181 : 181): case ((((int) (Integer.MIN_VALUE >>> 0)) == 0) ? 182 : 182): case ((((int) (Integer.MIN_VALUE >>> 1)) == 0) ? 183 : 183): case ((((int) (Integer.MIN_VALUE >>> Integer.MAX_VALUE)) == 0) ? 184 : 184): case ((((int) (-1 >>> Integer.MIN_VALUE)) == 0) ? 185 : 185): case ((((int) (-1 >>> -1)) == 0) ? 186 : 186): case ((((int) (-1 >>> 0)) == 0) ? 187 : 187): case ((((int) (-1 >>> 1)) == 0) ? 188 : 188): case ((((int) (-1 >>> Integer.MAX_VALUE)) == 0) ? 189 : 189): case ((((int) (0 >>> Integer.MIN_VALUE)) == 0) ? 190 : 190): case ((((int) (0 >>> -1)) == 0) ? 191 : 191): case ((((int) (0 >>> 0)) == 0) ? 192 : 192): case ((((int) (0 >>> 1)) == 0) ? 193 : 193): case ((((int) (0 >>> Integer.MAX_VALUE)) == 0) ? 194 : 194): case ((((int) (1 >>> Integer.MIN_VALUE)) == 0) ? 195 : 195): case ((((int) (1 >>> -1)) == 0) ? 196 : 196): case ((((int) (1 >>> 0)) == 0) ? 197 : 197): case ((((int) (1 >>> 1)) == 0) ? 198 : 198): case ((((int) (1 >>> Integer.MAX_VALUE)) == 0) ? 199 : 199): case ((((int) (Integer.MAX_VALUE >>> Integer.MIN_VALUE)) == 0) ? 200 : 200): case ((((int) (Integer.MAX_VALUE >>> -1)) == 0) ? 201 : 201): case ((((int) (Integer.MAX_VALUE >>> 0)) == 0) ? 202 : 202): case ((((int) (Integer.MAX_VALUE >>> 1)) == 0) ? 203 : 203): case ((((int) (Integer.MAX_VALUE >>> Integer.MAX_VALUE)) == 0) ? 204 : 204): case ((Integer.MIN_VALUE < Integer.MIN_VALUE) ? 205 : 205): case ((Integer.MIN_VALUE < -1) ? 206 : 206): case ((Integer.MIN_VALUE < 0) ? 207 : 207): case ((Integer.MIN_VALUE < 1) ? 208 : 208): case ((Integer.MIN_VALUE < Integer.MAX_VALUE) ? 209 : 209): case ((-1 < Integer.MIN_VALUE) ? 210 : 210): case ((-1 < -1) ? 211 : 211): case ((-1 < 0) ? 212 : 212): case ((-1 < 1) ? 213 : 213): case ((-1 < Integer.MAX_VALUE) ? 214 : 214): case ((0 < Integer.MIN_VALUE) ? 215 : 215): case ((0 < -1) ? 216 : 216): case ((0 < 0) ? 217 : 217): case ((0 < 1) ? 218 : 218): case ((0 < Integer.MAX_VALUE) ? 219 : 219): case ((1 < Integer.MIN_VALUE) ? 220 : 220): case ((1 < -1) ? 221 : 221): case ((1 < 0) ? 222 : 222): case ((1 < 1) ? 223 : 223): case ((1 < Integer.MAX_VALUE) ? 224 : 224): case ((Integer.MAX_VALUE < Integer.MIN_VALUE) ? 225 : 225): case ((Integer.MAX_VALUE < -1) ? 226 : 226): case ((Integer.MAX_VALUE < 0) ? 227 : 227): case ((Integer.MAX_VALUE < 1) ? 228 : 228): case ((Integer.MAX_VALUE < Integer.MAX_VALUE) ? 229 : 229): case ((Integer.MIN_VALUE > Integer.MIN_VALUE) ? 230 : 230): case ((Integer.MIN_VALUE > -1) ? 231 : 231): case ((Integer.MIN_VALUE > 0) ? 232 : 232): case ((Integer.MIN_VALUE > 1) ? 233 : 233): case ((Integer.MIN_VALUE > Integer.MAX_VALUE) ? 234 : 234): case ((-1 > Integer.MIN_VALUE) ? 235 : 235): case ((-1 > -1) ? 236 : 236): case ((-1 > 0) ? 237 : 237): case ((-1 > 1) ? 238 : 238): case ((-1 > Integer.MAX_VALUE) ? 239 : 239): case ((0 > Integer.MIN_VALUE) ? 240 : 240): case ((0 > -1) ? 241 : 241): case ((0 > 0) ? 242 : 242): case ((0 > 1) ? 243 : 243): case ((0 > Integer.MAX_VALUE) ? 244 : 244): case ((1 > Integer.MIN_VALUE) ? 245 : 245): case ((1 > -1) ? 246 : 246): case ((1 > 0) ? 247 : 247): case ((1 > 1) ? 248 : 248): case ((1 > Integer.MAX_VALUE) ? 249 : 249): case ((Integer.MAX_VALUE > Integer.MIN_VALUE) ? 250 : 250): case ((Integer.MAX_VALUE > -1) ? 251 : 251): case ((Integer.MAX_VALUE > 0) ? 252 : 252): case ((Integer.MAX_VALUE > 1) ? 253 : 253): case ((Integer.MAX_VALUE > Integer.MAX_VALUE) ? 254 : 254): case ((Integer.MIN_VALUE <= Integer.MIN_VALUE) ? 255 : 255): case ((Integer.MIN_VALUE <= -1) ? 256 : 256): case ((Integer.MIN_VALUE <= 0) ? 257 : 257): case ((Integer.MIN_VALUE <= 1) ? 258 : 258): case ((Integer.MIN_VALUE <= Integer.MAX_VALUE) ? 259 : 259): case ((-1 <= Integer.MIN_VALUE) ? 260 : 260): case ((-1 <= -1) ? 261 : 261): case ((-1 <= 0) ? 262 : 262): case ((-1 <= 1) ? 263 : 263): case ((-1 <= Integer.MAX_VALUE) ? 264 : 264): case ((0 <= Integer.MIN_VALUE) ? 265 : 265): case ((0 <= -1) ? 266 : 266): case ((0 <= 0) ? 267 : 267): case ((0 <= 1) ? 268 : 268): case ((0 <= Integer.MAX_VALUE) ? 269 : 269): case ((1 <= Integer.MIN_VALUE) ? 270 : 270): case ((1 <= -1) ? 271 : 271): case ((1 <= 0) ? 272 : 272): case ((1 <= 1) ? 273 : 273): case ((1 <= Integer.MAX_VALUE) ? 274 : 274): case ((Integer.MAX_VALUE <= Integer.MIN_VALUE) ? 275 : 275): case ((Integer.MAX_VALUE <= -1) ? 276 : 276): case ((Integer.MAX_VALUE <= 0) ? 277 : 277): case ((Integer.MAX_VALUE <= 1) ? 278 : 278): case ((Integer.MAX_VALUE <= Integer.MAX_VALUE) ? 279 : 279): case ((Integer.MIN_VALUE >= Integer.MIN_VALUE) ? 280 : 280): case ((Integer.MIN_VALUE >= -1) ? 281 : 281): case ((Integer.MIN_VALUE >= 0) ? 282 : 282): case ((Integer.MIN_VALUE >= 1) ? 283 : 283): case ((Integer.MIN_VALUE >= Integer.MAX_VALUE) ? 284 : 284): case ((-1 >= Integer.MIN_VALUE) ? 285 : 285): case ((-1 >= -1) ? 286 : 286): case ((-1 >= 0) ? 287 : 287): case ((-1 >= 1) ? 288 : 288): case ((-1 >= Integer.MAX_VALUE) ? 289 : 289): case ((0 >= Integer.MIN_VALUE) ? 290 : 290): case ((0 >= -1) ? 291 : 291): case ((0 >= 0) ? 292 : 292): case ((0 >= 1) ? 293 : 293): case ((0 >= Integer.MAX_VALUE) ? 294 : 294): case ((1 >= Integer.MIN_VALUE) ? 295 : 295): case ((1 >= -1) ? 296 : 296): case ((1 >= 0) ? 297 : 297): case ((1 >= 1) ? 298 : 298): case ((1 >= Integer.MAX_VALUE) ? 299 : 299): case ((Integer.MAX_VALUE >= Integer.MIN_VALUE) ? 300 : 300): case ((Integer.MAX_VALUE >= -1) ? 301 : 301): case ((Integer.MAX_VALUE >= 0) ? 302 : 302): case ((Integer.MAX_VALUE >= 1) ? 303 : 303): case ((Integer.MAX_VALUE >= Integer.MAX_VALUE) ? 304 : 304): case ((Integer.MIN_VALUE == Integer.MIN_VALUE) ? 305 : 305): case ((Integer.MIN_VALUE == -1) ? 306 : 306): case ((Integer.MIN_VALUE == 0) ? 307 : 307): case ((Integer.MIN_VALUE == 1) ? 308 : 308): case ((Integer.MIN_VALUE == Integer.MAX_VALUE) ? 309 : 309): case ((-1 == Integer.MIN_VALUE) ? 310 : 310): case ((-1 == -1) ? 311 : 311): case ((-1 == 0) ? 312 : 312): case ((-1 == 1) ? 313 : 313): case ((-1 == Integer.MAX_VALUE) ? 314 : 314): case ((0 == Integer.MIN_VALUE) ? 315 : 315): case ((0 == -1) ? 316 : 316): case ((0 == 0) ? 317 : 317): case ((0 == 1) ? 318 : 318): case ((0 == Integer.MAX_VALUE) ? 319 : 319): case ((1 == Integer.MIN_VALUE) ? 320 : 320): case ((1 == -1) ? 321 : 321): case ((1 == 0) ? 322 : 322): case ((1 == 1) ? 323 : 323): case ((1 == Integer.MAX_VALUE) ? 324 : 324): case ((Integer.MAX_VALUE == Integer.MIN_VALUE) ? 325 : 325): case ((Integer.MAX_VALUE == -1) ? 326 : 326): case ((Integer.MAX_VALUE == 0) ? 327 : 327): case ((Integer.MAX_VALUE == 1) ? 328 : 328): case ((Integer.MAX_VALUE == Integer.MAX_VALUE) ? 329 : 329): case ((Integer.MIN_VALUE != Integer.MIN_VALUE) ? 330 : 330): case ((Integer.MIN_VALUE != -1) ? 331 : 331): case ((Integer.MIN_VALUE != 0) ? 332 : 332): case ((Integer.MIN_VALUE != 1) ? 333 : 333): case ((Integer.MIN_VALUE != Integer.MAX_VALUE) ? 334 : 334): case ((-1 != Integer.MIN_VALUE) ? 335 : 335): case ((-1 != -1) ? 336 : 336): case ((-1 != 0) ? 337 : 337): case ((-1 != 1) ? 338 : 338): case ((-1 != Integer.MAX_VALUE) ? 339 : 339): case ((0 != Integer.MIN_VALUE) ? 340 : 340): case ((0 != -1) ? 341 : 341): case ((0 != 0) ? 342 : 342): case ((0 != 1) ? 343 : 343): case ((0 != Integer.MAX_VALUE) ? 344 : 344): case ((1 != Integer.MIN_VALUE) ? 345 : 345): case ((1 != -1) ? 346 : 346): case ((1 != 0) ? 347 : 347): case ((1 != 1) ? 348 : 348): case ((1 != Integer.MAX_VALUE) ? 349 : 349): case ((Integer.MAX_VALUE != Integer.MIN_VALUE) ? 350 : 350): case ((Integer.MAX_VALUE != -1) ? 351 : 351): case ((Integer.MAX_VALUE != 0) ? 352 : 352): case ((Integer.MAX_VALUE != 1) ? 353 : 353): case ((Integer.MAX_VALUE != Integer.MAX_VALUE) ? 354 : 354): case ((((int) (Integer.MIN_VALUE & Integer.MIN_VALUE)) == 0) ? 355 : 355): case ((((int) (Integer.MIN_VALUE & -1)) == 0) ? 356 : 356): case ((((int) (Integer.MIN_VALUE & 0)) == 0) ? 357 : 357): case ((((int) (Integer.MIN_VALUE & 1)) == 0) ? 358 : 358): case ((((int) (Integer.MIN_VALUE & Integer.MAX_VALUE)) == 0) ? 359 : 359): case ((((int) (-1 & Integer.MIN_VALUE)) == 0) ? 360 : 360): case ((((int) (-1 & -1)) == 0) ? 361 : 361): case ((((int) (-1 & 0)) == 0) ? 362 : 362): case ((((int) (-1 & 1)) == 0) ? 363 : 363): case ((((int) (-1 & Integer.MAX_VALUE)) == 0) ? 364 : 364): case ((((int) (0 & Integer.MIN_VALUE)) == 0) ? 365 : 365): case ((((int) (0 & -1)) == 0) ? 366 : 366): case ((((int) (0 & 0)) == 0) ? 367 : 367): case ((((int) (0 & 1)) == 0) ? 368 : 368): case ((((int) (0 & Integer.MAX_VALUE)) == 0) ? 369 : 369): case ((((int) (1 & Integer.MIN_VALUE)) == 0) ? 370 : 370): case ((((int) (1 & -1)) == 0) ? 371 : 371): case ((((int) (1 & 0)) == 0) ? 372 : 372): case ((((int) (1 & 1)) == 0) ? 373 : 373): case ((((int) (1 & Integer.MAX_VALUE)) == 0) ? 374 : 374): case ((((int) (Integer.MAX_VALUE & Integer.MIN_VALUE)) == 0) ? 375 : 375): case ((((int) (Integer.MAX_VALUE & -1)) == 0) ? 376 : 376): case ((((int) (Integer.MAX_VALUE & 0)) == 0) ? 377 : 377): case ((((int) (Integer.MAX_VALUE & 1)) == 0) ? 378 : 378): case ((((int) (Integer.MAX_VALUE & Integer.MAX_VALUE)) == 0) ? 379 : 379): case ((((int) (Integer.MIN_VALUE ^ Integer.MIN_VALUE)) == 0) ? 380 : 380): case ((((int) (Integer.MIN_VALUE ^ -1)) == 0) ? 381 : 381): case ((((int) (Integer.MIN_VALUE ^ 0)) == 0) ? 382 : 382): case ((((int) (Integer.MIN_VALUE ^ 1)) == 0) ? 383 : 383): case ((((int) (Integer.MIN_VALUE ^ Integer.MAX_VALUE)) == 0) ? 384 : 384): case ((((int) (-1 ^ Integer.MIN_VALUE)) == 0) ? 385 : 385): case ((((int) (-1 ^ -1)) == 0) ? 386 : 386): case ((((int) (-1 ^ 0)) == 0) ? 387 : 387): case ((((int) (-1 ^ 1)) == 0) ? 388 : 388): case ((((int) (-1 ^ Integer.MAX_VALUE)) == 0) ? 389 : 389): case ((((int) (0 ^ Integer.MIN_VALUE)) == 0) ? 390 : 390): case ((((int) (0 ^ -1)) == 0) ? 391 : 391): case ((((int) (0 ^ 0)) == 0) ? 392 : 392): case ((((int) (0 ^ 1)) == 0) ? 393 : 393): case ((((int) (0 ^ Integer.MAX_VALUE)) == 0) ? 394 : 394): case ((((int) (1 ^ Integer.MIN_VALUE)) == 0) ? 395 : 395): case ((((int) (1 ^ -1)) == 0) ? 396 : 396): case ((((int) (1 ^ 0)) == 0) ? 397 : 397): case ((((int) (1 ^ 1)) == 0) ? 398 : 398): case ((((int) (1 ^ Integer.MAX_VALUE)) == 0) ? 399 : 399): case ((((int) (Integer.MAX_VALUE ^ Integer.MIN_VALUE)) == 0) ? 400 : 400): case ((((int) (Integer.MAX_VALUE ^ -1)) == 0) ? 401 : 401): case ((((int) (Integer.MAX_VALUE ^ 0)) == 0) ? 402 : 402): case ((((int) (Integer.MAX_VALUE ^ 1)) == 0) ? 403 : 403): case ((((int) (Integer.MAX_VALUE ^ Integer.MAX_VALUE)) == 0) ? 404 : 404): case ((((int) (Integer.MIN_VALUE | Integer.MIN_VALUE)) == 0) ? 405 : 405): case ((((int) (Integer.MIN_VALUE | -1)) == 0) ? 406 : 406): case ((((int) (Integer.MIN_VALUE | 0)) == 0) ? 407 : 407): case ((((int) (Integer.MIN_VALUE | 1)) == 0) ? 408 : 408): case ((((int) (Integer.MIN_VALUE | Integer.MAX_VALUE)) == 0) ? 409 : 409): case ((((int) (-1 | Integer.MIN_VALUE)) == 0) ? 410 : 410): case ((((int) (-1 | -1)) == 0) ? 411 : 411): case ((((int) (-1 | 0)) == 0) ? 412 : 412): case ((((int) (-1 | 1)) == 0) ? 413 : 413): case ((((int) (-1 | Integer.MAX_VALUE)) == 0) ? 414 : 414): case ((((int) (0 | Integer.MIN_VALUE)) == 0) ? 415 : 415): case ((((int) (0 | -1)) == 0) ? 416 : 416): case ((((int) (0 | 0)) == 0) ? 417 : 417): case ((((int) (0 | 1)) == 0) ? 418 : 418): case ((((int) (0 | Integer.MAX_VALUE)) == 0) ? 419 : 419): case ((((int) (1 | Integer.MIN_VALUE)) == 0) ? 420 : 420): case ((((int) (1 | -1)) == 0) ? 421 : 421): case ((((int) (1 | 0)) == 0) ? 422 : 422): case ((((int) (1 | 1)) == 0) ? 423 : 423): case ((((int) (1 | Integer.MAX_VALUE)) == 0) ? 424 : 424): case ((((int) (Integer.MAX_VALUE | Integer.MIN_VALUE)) == 0) ? 425 : 425): case ((((int) (Integer.MAX_VALUE | -1)) == 0) ? 426 : 426): case ((((int) (Integer.MAX_VALUE | 0)) == 0) ? 427 : 427): case ((((int) (Integer.MAX_VALUE | 1)) == 0) ? 428 : 428): case ((((int) (Integer.MAX_VALUE | Integer.MAX_VALUE)) == 0) ? 429 : 429): default: } } // -------- // long tests static long longPlus(long x) { return (long) + x; } static long longMinus(long x) { return (long) - x; } static long longBitNot(long x) { return (long) ~ x; } static long longTimes(long x, long y) { return (long) (x * y); } static long longDiv(long x, long y) { return (long) (x / y); } static long longRem(long x, long y) { return (long) (x % y); } static long longAdd(long x, long y) { return (long) (x + y); } static long longSub(long x, long y) { return (long) (x - y); } static long longShl(long x, long y) { return (long) (x << y); } static long longShr(long x, long y) { return (long) (x >> y); } static long longUshr(long x, long y) { return (long) (x >>> y); } static boolean longLt(long x, long y) { return x < y; } static boolean longGt(long x, long y) { return x > y; } static boolean longLe(long x, long y) { return x <= y; } static boolean longGe(long x, long y) { return x >= y; } static boolean longEq(long x, long y) { return x == y; } static boolean longNe(long x, long y) { return x != y; } static long longAnd(long x, long y) { return (long) (x & y); } static long longXor(long x, long y) { return (long) (x ^ y); } static long longOr(long x, long y) { return (long) (x | y); } static void longTest() { Tester.checkEqual(longPlus(Long.MIN_VALUE), (long) + Long.MIN_VALUE, "(long) + Long.MIN_VALUE"); Tester.checkEqual(longPlus(-1L), (long) + -1L, "(long) + -1L"); Tester.checkEqual(longPlus(0L), (long) + 0L, "(long) + 0L"); Tester.checkEqual(longPlus(1L), (long) + 1L, "(long) + 1L"); Tester.checkEqual(longPlus(Long.MAX_VALUE), (long) + Long.MAX_VALUE, "(long) + Long.MAX_VALUE"); Tester.checkEqual(longMinus(Long.MIN_VALUE), (long) - Long.MIN_VALUE, "(long) - Long.MIN_VALUE"); Tester.checkEqual(longMinus(-1L), (long) - -1L, "(long) - -1L"); Tester.checkEqual(longMinus(0L), (long) - 0L, "(long) - 0L"); Tester.checkEqual(longMinus(1L), (long) - 1L, "(long) - 1L"); Tester.checkEqual(longMinus(Long.MAX_VALUE), (long) - Long.MAX_VALUE, "(long) - Long.MAX_VALUE"); Tester.checkEqual(longBitNot(Long.MIN_VALUE), (long) ~ Long.MIN_VALUE, "(long) ~ Long.MIN_VALUE"); Tester.checkEqual(longBitNot(-1L), (long) ~ -1L, "(long) ~ -1L"); Tester.checkEqual(longBitNot(0L), (long) ~ 0L, "(long) ~ 0L"); Tester.checkEqual(longBitNot(1L), (long) ~ 1L, "(long) ~ 1L"); Tester.checkEqual(longBitNot(Long.MAX_VALUE), (long) ~ Long.MAX_VALUE, "(long) ~ Long.MAX_VALUE"); Tester.checkEqual(longTimes(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE * Long.MIN_VALUE), "(long) (Long.MIN_VALUE * Long.MIN_VALUE)"); Tester.checkEqual(longTimes(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE * -1L), "(long) (Long.MIN_VALUE * -1L)"); Tester.checkEqual(longTimes(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE * 0L), "(long) (Long.MIN_VALUE * 0L)"); Tester.checkEqual(longTimes(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE * 1L), "(long) (Long.MIN_VALUE * 1L)"); Tester.checkEqual(longTimes(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE * Long.MAX_VALUE), "(long) (Long.MIN_VALUE * Long.MAX_VALUE)"); Tester.checkEqual(longTimes(-1L, Long.MIN_VALUE), (long) (-1L * Long.MIN_VALUE), "(long) (-1L * Long.MIN_VALUE)"); Tester.checkEqual(longTimes(-1L, -1L), (long) (-1L * -1L), "(long) (-1L * -1L)"); Tester.checkEqual(longTimes(-1L, 0L), (long) (-1L * 0L), "(long) (-1L * 0L)"); Tester.checkEqual(longTimes(-1L, 1L), (long) (-1L * 1L), "(long) (-1L * 1L)"); Tester.checkEqual(longTimes(-1L, Long.MAX_VALUE), (long) (-1L * Long.MAX_VALUE), "(long) (-1L * Long.MAX_VALUE)"); Tester.checkEqual(longTimes(0L, Long.MIN_VALUE), (long) (0L * Long.MIN_VALUE), "(long) (0L * Long.MIN_VALUE)"); Tester.checkEqual(longTimes(0L, -1L), (long) (0L * -1L), "(long) (0L * -1L)"); Tester.checkEqual(longTimes(0L, 0L), (long) (0L * 0L), "(long) (0L * 0L)"); Tester.checkEqual(longTimes(0L, 1L), (long) (0L * 1L), "(long) (0L * 1L)"); Tester.checkEqual(longTimes(0L, Long.MAX_VALUE), (long) (0L * Long.MAX_VALUE), "(long) (0L * Long.MAX_VALUE)"); Tester.checkEqual(longTimes(1L, Long.MIN_VALUE), (long) (1L * Long.MIN_VALUE), "(long) (1L * Long.MIN_VALUE)"); Tester.checkEqual(longTimes(1L, -1L), (long) (1L * -1L), "(long) (1L * -1L)"); Tester.checkEqual(longTimes(1L, 0L), (long) (1L * 0L), "(long) (1L * 0L)"); Tester.checkEqual(longTimes(1L, 1L), (long) (1L * 1L), "(long) (1L * 1L)"); Tester.checkEqual(longTimes(1L, Long.MAX_VALUE), (long) (1L * Long.MAX_VALUE), "(long) (1L * Long.MAX_VALUE)"); Tester.checkEqual(longTimes(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE * Long.MIN_VALUE), "(long) (Long.MAX_VALUE * Long.MIN_VALUE)"); Tester.checkEqual(longTimes(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE * -1L), "(long) (Long.MAX_VALUE * -1L)"); Tester.checkEqual(longTimes(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE * 0L), "(long) (Long.MAX_VALUE * 0L)"); Tester.checkEqual(longTimes(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE * 1L), "(long) (Long.MAX_VALUE * 1L)"); Tester.checkEqual(longTimes(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE * Long.MAX_VALUE), "(long) (Long.MAX_VALUE * Long.MAX_VALUE)"); Tester.checkEqual(longDiv(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE / Long.MIN_VALUE), "(long) (Long.MIN_VALUE / Long.MIN_VALUE)"); Tester.checkEqual(longDiv(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE / -1L), "(long) (Long.MIN_VALUE / -1L)"); Tester.checkEqual(longDiv(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE / 1L), "(long) (Long.MIN_VALUE / 1L)"); Tester.checkEqual(longDiv(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE / Long.MAX_VALUE), "(long) (Long.MIN_VALUE / Long.MAX_VALUE)"); Tester.checkEqual(longDiv(-1L, Long.MIN_VALUE), (long) (-1L / Long.MIN_VALUE), "(long) (-1L / Long.MIN_VALUE)"); Tester.checkEqual(longDiv(-1L, -1L), (long) (-1L / -1L), "(long) (-1L / -1L)"); Tester.checkEqual(longDiv(-1L, 1L), (long) (-1L / 1L), "(long) (-1L / 1L)"); Tester.checkEqual(longDiv(-1L, Long.MAX_VALUE), (long) (-1L / Long.MAX_VALUE), "(long) (-1L / Long.MAX_VALUE)"); Tester.checkEqual(longDiv(0L, Long.MIN_VALUE), (long) (0L / Long.MIN_VALUE), "(long) (0L / Long.MIN_VALUE)"); Tester.checkEqual(longDiv(0L, -1L), (long) (0L / -1L), "(long) (0L / -1L)"); Tester.checkEqual(longDiv(0L, 1L), (long) (0L / 1L), "(long) (0L / 1L)"); Tester.checkEqual(longDiv(0L, Long.MAX_VALUE), (long) (0L / Long.MAX_VALUE), "(long) (0L / Long.MAX_VALUE)"); Tester.checkEqual(longDiv(1L, Long.MIN_VALUE), (long) (1L / Long.MIN_VALUE), "(long) (1L / Long.MIN_VALUE)"); Tester.checkEqual(longDiv(1L, -1L), (long) (1L / -1L), "(long) (1L / -1L)"); Tester.checkEqual(longDiv(1L, 1L), (long) (1L / 1L), "(long) (1L / 1L)"); Tester.checkEqual(longDiv(1L, Long.MAX_VALUE), (long) (1L / Long.MAX_VALUE), "(long) (1L / Long.MAX_VALUE)"); Tester.checkEqual(longDiv(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE / Long.MIN_VALUE), "(long) (Long.MAX_VALUE / Long.MIN_VALUE)"); Tester.checkEqual(longDiv(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE / -1L), "(long) (Long.MAX_VALUE / -1L)"); Tester.checkEqual(longDiv(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE / 1L), "(long) (Long.MAX_VALUE / 1L)"); Tester.checkEqual(longDiv(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE / Long.MAX_VALUE), "(long) (Long.MAX_VALUE / Long.MAX_VALUE)"); Tester.checkEqual(longRem(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE % Long.MIN_VALUE), "(long) (Long.MIN_VALUE % Long.MIN_VALUE)"); Tester.checkEqual(longRem(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE % -1L), "(long) (Long.MIN_VALUE % -1L)"); Tester.checkEqual(longRem(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE % 1L), "(long) (Long.MIN_VALUE % 1L)"); Tester.checkEqual(longRem(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE % Long.MAX_VALUE), "(long) (Long.MIN_VALUE % Long.MAX_VALUE)"); Tester.checkEqual(longRem(-1L, Long.MIN_VALUE), (long) (-1L % Long.MIN_VALUE), "(long) (-1L % Long.MIN_VALUE)"); Tester.checkEqual(longRem(-1L, -1L), (long) (-1L % -1L), "(long) (-1L % -1L)"); Tester.checkEqual(longRem(-1L, 1L), (long) (-1L % 1L), "(long) (-1L % 1L)"); Tester.checkEqual(longRem(-1L, Long.MAX_VALUE), (long) (-1L % Long.MAX_VALUE), "(long) (-1L % Long.MAX_VALUE)"); Tester.checkEqual(longRem(0L, Long.MIN_VALUE), (long) (0L % Long.MIN_VALUE), "(long) (0L % Long.MIN_VALUE)"); Tester.checkEqual(longRem(0L, -1L), (long) (0L % -1L), "(long) (0L % -1L)"); Tester.checkEqual(longRem(0L, 1L), (long) (0L % 1L), "(long) (0L % 1L)"); Tester.checkEqual(longRem(0L, Long.MAX_VALUE), (long) (0L % Long.MAX_VALUE), "(long) (0L % Long.MAX_VALUE)"); Tester.checkEqual(longRem(1L, Long.MIN_VALUE), (long) (1L % Long.MIN_VALUE), "(long) (1L % Long.MIN_VALUE)"); Tester.checkEqual(longRem(1L, -1L), (long) (1L % -1L), "(long) (1L % -1L)"); Tester.checkEqual(longRem(1L, 1L), (long) (1L % 1L), "(long) (1L % 1L)"); Tester.checkEqual(longRem(1L, Long.MAX_VALUE), (long) (1L % Long.MAX_VALUE), "(long) (1L % Long.MAX_VALUE)"); Tester.checkEqual(longRem(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE % Long.MIN_VALUE), "(long) (Long.MAX_VALUE % Long.MIN_VALUE)"); Tester.checkEqual(longRem(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE % -1L), "(long) (Long.MAX_VALUE % -1L)"); Tester.checkEqual(longRem(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE % 1L), "(long) (Long.MAX_VALUE % 1L)"); Tester.checkEqual(longRem(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE % Long.MAX_VALUE), "(long) (Long.MAX_VALUE % Long.MAX_VALUE)"); Tester.checkEqual(longAdd(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE + Long.MIN_VALUE), "(long) (Long.MIN_VALUE + Long.MIN_VALUE)"); Tester.checkEqual(longAdd(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE + -1L), "(long) (Long.MIN_VALUE + -1L)"); Tester.checkEqual(longAdd(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE + 0L), "(long) (Long.MIN_VALUE + 0L)"); Tester.checkEqual(longAdd(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE + 1L), "(long) (Long.MIN_VALUE + 1L)"); Tester.checkEqual(longAdd(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE + Long.MAX_VALUE), "(long) (Long.MIN_VALUE + Long.MAX_VALUE)"); Tester.checkEqual(longAdd(-1L, Long.MIN_VALUE), (long) (-1L + Long.MIN_VALUE), "(long) (-1L + Long.MIN_VALUE)"); Tester.checkEqual(longAdd(-1L, -1L), (long) (-1L + -1L), "(long) (-1L + -1L)"); Tester.checkEqual(longAdd(-1L, 0L), (long) (-1L + 0L), "(long) (-1L + 0L)"); Tester.checkEqual(longAdd(-1L, 1L), (long) (-1L + 1L), "(long) (-1L + 1L)"); Tester.checkEqual(longAdd(-1L, Long.MAX_VALUE), (long) (-1L + Long.MAX_VALUE), "(long) (-1L + Long.MAX_VALUE)"); Tester.checkEqual(longAdd(0L, Long.MIN_VALUE), (long) (0L + Long.MIN_VALUE), "(long) (0L + Long.MIN_VALUE)"); Tester.checkEqual(longAdd(0L, -1L), (long) (0L + -1L), "(long) (0L + -1L)"); Tester.checkEqual(longAdd(0L, 0L), (long) (0L + 0L), "(long) (0L + 0L)"); Tester.checkEqual(longAdd(0L, 1L), (long) (0L + 1L), "(long) (0L + 1L)"); Tester.checkEqual(longAdd(0L, Long.MAX_VALUE), (long) (0L + Long.MAX_VALUE), "(long) (0L + Long.MAX_VALUE)"); Tester.checkEqual(longAdd(1L, Long.MIN_VALUE), (long) (1L + Long.MIN_VALUE), "(long) (1L + Long.MIN_VALUE)"); Tester.checkEqual(longAdd(1L, -1L), (long) (1L + -1L), "(long) (1L + -1L)"); Tester.checkEqual(longAdd(1L, 0L), (long) (1L + 0L), "(long) (1L + 0L)"); Tester.checkEqual(longAdd(1L, 1L), (long) (1L + 1L), "(long) (1L + 1L)"); Tester.checkEqual(longAdd(1L, Long.MAX_VALUE), (long) (1L + Long.MAX_VALUE), "(long) (1L + Long.MAX_VALUE)"); Tester.checkEqual(longAdd(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE + Long.MIN_VALUE), "(long) (Long.MAX_VALUE + Long.MIN_VALUE)"); Tester.checkEqual(longAdd(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE + -1L), "(long) (Long.MAX_VALUE + -1L)"); Tester.checkEqual(longAdd(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE + 0L), "(long) (Long.MAX_VALUE + 0L)"); Tester.checkEqual(longAdd(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE + 1L), "(long) (Long.MAX_VALUE + 1L)"); Tester.checkEqual(longAdd(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE + Long.MAX_VALUE), "(long) (Long.MAX_VALUE + Long.MAX_VALUE)"); Tester.checkEqual(longSub(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE - Long.MIN_VALUE), "(long) (Long.MIN_VALUE - Long.MIN_VALUE)"); Tester.checkEqual(longSub(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE - -1L), "(long) (Long.MIN_VALUE - -1L)"); Tester.checkEqual(longSub(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE - 0L), "(long) (Long.MIN_VALUE - 0L)"); Tester.checkEqual(longSub(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE - 1L), "(long) (Long.MIN_VALUE - 1L)"); Tester.checkEqual(longSub(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE - Long.MAX_VALUE), "(long) (Long.MIN_VALUE - Long.MAX_VALUE)"); Tester.checkEqual(longSub(-1L, Long.MIN_VALUE), (long) (-1L - Long.MIN_VALUE), "(long) (-1L - Long.MIN_VALUE)"); Tester.checkEqual(longSub(-1L, -1L), (long) (-1L - -1L), "(long) (-1L - -1L)"); Tester.checkEqual(longSub(-1L, 0L), (long) (-1L - 0L), "(long) (-1L - 0L)"); Tester.checkEqual(longSub(-1L, 1L), (long) (-1L - 1L), "(long) (-1L - 1L)"); Tester.checkEqual(longSub(-1L, Long.MAX_VALUE), (long) (-1L - Long.MAX_VALUE), "(long) (-1L - Long.MAX_VALUE)"); Tester.checkEqual(longSub(0L, Long.MIN_VALUE), (long) (0L - Long.MIN_VALUE), "(long) (0L - Long.MIN_VALUE)"); Tester.checkEqual(longSub(0L, -1L), (long) (0L - -1L), "(long) (0L - -1L)"); Tester.checkEqual(longSub(0L, 0L), (long) (0L - 0L), "(long) (0L - 0L)"); Tester.checkEqual(longSub(0L, 1L), (long) (0L - 1L), "(long) (0L - 1L)"); Tester.checkEqual(longSub(0L, Long.MAX_VALUE), (long) (0L - Long.MAX_VALUE), "(long) (0L - Long.MAX_VALUE)"); Tester.checkEqual(longSub(1L, Long.MIN_VALUE), (long) (1L - Long.MIN_VALUE), "(long) (1L - Long.MIN_VALUE)"); Tester.checkEqual(longSub(1L, -1L), (long) (1L - -1L), "(long) (1L - -1L)"); Tester.checkEqual(longSub(1L, 0L), (long) (1L - 0L), "(long) (1L - 0L)"); Tester.checkEqual(longSub(1L, 1L), (long) (1L - 1L), "(long) (1L - 1L)"); Tester.checkEqual(longSub(1L, Long.MAX_VALUE), (long) (1L - Long.MAX_VALUE), "(long) (1L - Long.MAX_VALUE)"); Tester.checkEqual(longSub(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE - Long.MIN_VALUE), "(long) (Long.MAX_VALUE - Long.MIN_VALUE)"); Tester.checkEqual(longSub(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE - -1L), "(long) (Long.MAX_VALUE - -1L)"); Tester.checkEqual(longSub(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE - 0L), "(long) (Long.MAX_VALUE - 0L)"); Tester.checkEqual(longSub(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE - 1L), "(long) (Long.MAX_VALUE - 1L)"); Tester.checkEqual(longSub(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE - Long.MAX_VALUE), "(long) (Long.MAX_VALUE - Long.MAX_VALUE)"); Tester.checkEqual(longShl(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE << Long.MIN_VALUE), "(long) (Long.MIN_VALUE << Long.MIN_VALUE)"); Tester.checkEqual(longShl(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE << -1L), "(long) (Long.MIN_VALUE << -1L)"); Tester.checkEqual(longShl(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE << 0L), "(long) (Long.MIN_VALUE << 0L)"); Tester.checkEqual(longShl(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE << 1L), "(long) (Long.MIN_VALUE << 1L)"); Tester.checkEqual(longShl(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE << Long.MAX_VALUE), "(long) (Long.MIN_VALUE << Long.MAX_VALUE)"); Tester.checkEqual(longShl(-1L, Long.MIN_VALUE), (long) (-1L << Long.MIN_VALUE), "(long) (-1L << Long.MIN_VALUE)"); Tester.checkEqual(longShl(-1L, -1L), (long) (-1L << -1L), "(long) (-1L << -1L)"); Tester.checkEqual(longShl(-1L, 0L), (long) (-1L << 0L), "(long) (-1L << 0L)"); Tester.checkEqual(longShl(-1L, 1L), (long) (-1L << 1L), "(long) (-1L << 1L)"); Tester.checkEqual(longShl(-1L, Long.MAX_VALUE), (long) (-1L << Long.MAX_VALUE), "(long) (-1L << Long.MAX_VALUE)"); Tester.checkEqual(longShl(0L, Long.MIN_VALUE), (long) (0L << Long.MIN_VALUE), "(long) (0L << Long.MIN_VALUE)"); Tester.checkEqual(longShl(0L, -1L), (long) (0L << -1L), "(long) (0L << -1L)"); Tester.checkEqual(longShl(0L, 0L), (long) (0L << 0L), "(long) (0L << 0L)"); Tester.checkEqual(longShl(0L, 1L), (long) (0L << 1L), "(long) (0L << 1L)"); Tester.checkEqual(longShl(0L, Long.MAX_VALUE), (long) (0L << Long.MAX_VALUE), "(long) (0L << Long.MAX_VALUE)"); Tester.checkEqual(longShl(1L, Long.MIN_VALUE), (long) (1L << Long.MIN_VALUE), "(long) (1L << Long.MIN_VALUE)"); Tester.checkEqual(longShl(1L, -1L), (long) (1L << -1L), "(long) (1L << -1L)"); Tester.checkEqual(longShl(1L, 0L), (long) (1L << 0L), "(long) (1L << 0L)"); Tester.checkEqual(longShl(1L, 1L), (long) (1L << 1L), "(long) (1L << 1L)"); Tester.checkEqual(longShl(1L, Long.MAX_VALUE), (long) (1L << Long.MAX_VALUE), "(long) (1L << Long.MAX_VALUE)"); Tester.checkEqual(longShl(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE << Long.MIN_VALUE), "(long) (Long.MAX_VALUE << Long.MIN_VALUE)"); Tester.checkEqual(longShl(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE << -1L), "(long) (Long.MAX_VALUE << -1L)"); Tester.checkEqual(longShl(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE << 0L), "(long) (Long.MAX_VALUE << 0L)"); Tester.checkEqual(longShl(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE << 1L), "(long) (Long.MAX_VALUE << 1L)"); Tester.checkEqual(longShl(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE << Long.MAX_VALUE), "(long) (Long.MAX_VALUE << Long.MAX_VALUE)"); Tester.checkEqual(longShr(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE >> Long.MIN_VALUE), "(long) (Long.MIN_VALUE >> Long.MIN_VALUE)"); Tester.checkEqual(longShr(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE >> -1L), "(long) (Long.MIN_VALUE >> -1L)"); Tester.checkEqual(longShr(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE >> 0L), "(long) (Long.MIN_VALUE >> 0L)"); Tester.checkEqual(longShr(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE >> 1L), "(long) (Long.MIN_VALUE >> 1L)"); Tester.checkEqual(longShr(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE >> Long.MAX_VALUE), "(long) (Long.MIN_VALUE >> Long.MAX_VALUE)"); Tester.checkEqual(longShr(-1L, Long.MIN_VALUE), (long) (-1L >> Long.MIN_VALUE), "(long) (-1L >> Long.MIN_VALUE)"); Tester.checkEqual(longShr(-1L, -1L), (long) (-1L >> -1L), "(long) (-1L >> -1L)"); Tester.checkEqual(longShr(-1L, 0L), (long) (-1L >> 0L), "(long) (-1L >> 0L)"); Tester.checkEqual(longShr(-1L, 1L), (long) (-1L >> 1L), "(long) (-1L >> 1L)"); Tester.checkEqual(longShr(-1L, Long.MAX_VALUE), (long) (-1L >> Long.MAX_VALUE), "(long) (-1L >> Long.MAX_VALUE)"); Tester.checkEqual(longShr(0L, Long.MIN_VALUE), (long) (0L >> Long.MIN_VALUE), "(long) (0L >> Long.MIN_VALUE)"); Tester.checkEqual(longShr(0L, -1L), (long) (0L >> -1L), "(long) (0L >> -1L)"); Tester.checkEqual(longShr(0L, 0L), (long) (0L >> 0L), "(long) (0L >> 0L)"); Tester.checkEqual(longShr(0L, 1L), (long) (0L >> 1L), "(long) (0L >> 1L)"); Tester.checkEqual(longShr(0L, Long.MAX_VALUE), (long) (0L >> Long.MAX_VALUE), "(long) (0L >> Long.MAX_VALUE)"); Tester.checkEqual(longShr(1L, Long.MIN_VALUE), (long) (1L >> Long.MIN_VALUE), "(long) (1L >> Long.MIN_VALUE)"); Tester.checkEqual(longShr(1L, -1L), (long) (1L >> -1L), "(long) (1L >> -1L)"); Tester.checkEqual(longShr(1L, 0L), (long) (1L >> 0L), "(long) (1L >> 0L)"); Tester.checkEqual(longShr(1L, 1L), (long) (1L >> 1L), "(long) (1L >> 1L)"); Tester.checkEqual(longShr(1L, Long.MAX_VALUE), (long) (1L >> Long.MAX_VALUE), "(long) (1L >> Long.MAX_VALUE)"); Tester.checkEqual(longShr(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE >> Long.MIN_VALUE), "(long) (Long.MAX_VALUE >> Long.MIN_VALUE)"); Tester.checkEqual(longShr(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE >> -1L), "(long) (Long.MAX_VALUE >> -1L)"); Tester.checkEqual(longShr(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE >> 0L), "(long) (Long.MAX_VALUE >> 0L)"); Tester.checkEqual(longShr(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE >> 1L), "(long) (Long.MAX_VALUE >> 1L)"); Tester.checkEqual(longShr(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE >> Long.MAX_VALUE), "(long) (Long.MAX_VALUE >> Long.MAX_VALUE)"); Tester.checkEqual(longUshr(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE >>> Long.MIN_VALUE), "(long) (Long.MIN_VALUE >>> Long.MIN_VALUE)"); Tester.checkEqual(longUshr(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE >>> -1L), "(long) (Long.MIN_VALUE >>> -1L)"); Tester.checkEqual(longUshr(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE >>> 0L), "(long) (Long.MIN_VALUE >>> 0L)"); Tester.checkEqual(longUshr(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE >>> 1L), "(long) (Long.MIN_VALUE >>> 1L)"); Tester.checkEqual(longUshr(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE >>> Long.MAX_VALUE), "(long) (Long.MIN_VALUE >>> Long.MAX_VALUE)"); Tester.checkEqual(longUshr(-1L, Long.MIN_VALUE), (long) (-1L >>> Long.MIN_VALUE), "(long) (-1L >>> Long.MIN_VALUE)"); Tester.checkEqual(longUshr(-1L, -1L), (long) (-1L >>> -1L), "(long) (-1L >>> -1L)"); Tester.checkEqual(longUshr(-1L, 0L), (long) (-1L >>> 0L), "(long) (-1L >>> 0L)"); Tester.checkEqual(longUshr(-1L, 1L), (long) (-1L >>> 1L), "(long) (-1L >>> 1L)"); Tester.checkEqual(longUshr(-1L, Long.MAX_VALUE), (long) (-1L >>> Long.MAX_VALUE), "(long) (-1L >>> Long.MAX_VALUE)"); Tester.checkEqual(longUshr(0L, Long.MIN_VALUE), (long) (0L >>> Long.MIN_VALUE), "(long) (0L >>> Long.MIN_VALUE)"); Tester.checkEqual(longUshr(0L, -1L), (long) (0L >>> -1L), "(long) (0L >>> -1L)"); Tester.checkEqual(longUshr(0L, 0L), (long) (0L >>> 0L), "(long) (0L >>> 0L)"); Tester.checkEqual(longUshr(0L, 1L), (long) (0L >>> 1L), "(long) (0L >>> 1L)"); Tester.checkEqual(longUshr(0L, Long.MAX_VALUE), (long) (0L >>> Long.MAX_VALUE), "(long) (0L >>> Long.MAX_VALUE)"); Tester.checkEqual(longUshr(1L, Long.MIN_VALUE), (long) (1L >>> Long.MIN_VALUE), "(long) (1L >>> Long.MIN_VALUE)"); Tester.checkEqual(longUshr(1L, -1L), (long) (1L >>> -1L), "(long) (1L >>> -1L)"); Tester.checkEqual(longUshr(1L, 0L), (long) (1L >>> 0L), "(long) (1L >>> 0L)"); Tester.checkEqual(longUshr(1L, 1L), (long) (1L >>> 1L), "(long) (1L >>> 1L)"); Tester.checkEqual(longUshr(1L, Long.MAX_VALUE), (long) (1L >>> Long.MAX_VALUE), "(long) (1L >>> Long.MAX_VALUE)"); Tester.checkEqual(longUshr(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE >>> Long.MIN_VALUE), "(long) (Long.MAX_VALUE >>> Long.MIN_VALUE)"); Tester.checkEqual(longUshr(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE >>> -1L), "(long) (Long.MAX_VALUE >>> -1L)"); Tester.checkEqual(longUshr(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE >>> 0L), "(long) (Long.MAX_VALUE >>> 0L)"); Tester.checkEqual(longUshr(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE >>> 1L), "(long) (Long.MAX_VALUE >>> 1L)"); Tester.checkEqual(longUshr(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE >>> Long.MAX_VALUE), "(long) (Long.MAX_VALUE >>> Long.MAX_VALUE)"); Tester.checkEqual(longLt(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE < Long.MIN_VALUE, "Long.MIN_VALUE < Long.MIN_VALUE"); Tester.checkEqual(longLt(Long.MIN_VALUE, -1L), Long.MIN_VALUE < -1L, "Long.MIN_VALUE < -1L"); Tester.checkEqual(longLt(Long.MIN_VALUE, 0L), Long.MIN_VALUE < 0L, "Long.MIN_VALUE < 0L"); Tester.checkEqual(longLt(Long.MIN_VALUE, 1L), Long.MIN_VALUE < 1L, "Long.MIN_VALUE < 1L"); Tester.checkEqual(longLt(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE < Long.MAX_VALUE, "Long.MIN_VALUE < Long.MAX_VALUE"); Tester.checkEqual(longLt(-1L, Long.MIN_VALUE), -1L < Long.MIN_VALUE, "-1L < Long.MIN_VALUE"); Tester.checkEqual(longLt(-1L, -1L), -1L < -1L, "-1L < -1L"); Tester.checkEqual(longLt(-1L, 0L), -1L < 0L, "-1L < 0L"); Tester.checkEqual(longLt(-1L, 1L), -1L < 1L, "-1L < 1L"); Tester.checkEqual(longLt(-1L, Long.MAX_VALUE), -1L < Long.MAX_VALUE, "-1L < Long.MAX_VALUE"); Tester.checkEqual(longLt(0L, Long.MIN_VALUE), 0L < Long.MIN_VALUE, "0L < Long.MIN_VALUE"); Tester.checkEqual(longLt(0L, -1L), 0L < -1L, "0L < -1L"); Tester.checkEqual(longLt(0L, 0L), 0L < 0L, "0L < 0L"); Tester.checkEqual(longLt(0L, 1L), 0L < 1L, "0L < 1L"); Tester.checkEqual(longLt(0L, Long.MAX_VALUE), 0L < Long.MAX_VALUE, "0L < Long.MAX_VALUE"); Tester.checkEqual(longLt(1L, Long.MIN_VALUE), 1L < Long.MIN_VALUE, "1L < Long.MIN_VALUE"); Tester.checkEqual(longLt(1L, -1L), 1L < -1L, "1L < -1L"); Tester.checkEqual(longLt(1L, 0L), 1L < 0L, "1L < 0L"); Tester.checkEqual(longLt(1L, 1L), 1L < 1L, "1L < 1L"); Tester.checkEqual(longLt(1L, Long.MAX_VALUE), 1L < Long.MAX_VALUE, "1L < Long.MAX_VALUE"); Tester.checkEqual(longLt(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE < Long.MIN_VALUE, "Long.MAX_VALUE < Long.MIN_VALUE"); Tester.checkEqual(longLt(Long.MAX_VALUE, -1L), Long.MAX_VALUE < -1L, "Long.MAX_VALUE < -1L"); Tester.checkEqual(longLt(Long.MAX_VALUE, 0L), Long.MAX_VALUE < 0L, "Long.MAX_VALUE < 0L"); Tester.checkEqual(longLt(Long.MAX_VALUE, 1L), Long.MAX_VALUE < 1L, "Long.MAX_VALUE < 1L"); Tester.checkEqual(longLt(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE < Long.MAX_VALUE, "Long.MAX_VALUE < Long.MAX_VALUE"); Tester.checkEqual(longGt(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE > Long.MIN_VALUE, "Long.MIN_VALUE > Long.MIN_VALUE"); Tester.checkEqual(longGt(Long.MIN_VALUE, -1L), Long.MIN_VALUE > -1L, "Long.MIN_VALUE > -1L"); Tester.checkEqual(longGt(Long.MIN_VALUE, 0L), Long.MIN_VALUE > 0L, "Long.MIN_VALUE > 0L"); Tester.checkEqual(longGt(Long.MIN_VALUE, 1L), Long.MIN_VALUE > 1L, "Long.MIN_VALUE > 1L"); Tester.checkEqual(longGt(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE > Long.MAX_VALUE, "Long.MIN_VALUE > Long.MAX_VALUE"); Tester.checkEqual(longGt(-1L, Long.MIN_VALUE), -1L > Long.MIN_VALUE, "-1L > Long.MIN_VALUE"); Tester.checkEqual(longGt(-1L, -1L), -1L > -1L, "-1L > -1L"); Tester.checkEqual(longGt(-1L, 0L), -1L > 0L, "-1L > 0L"); Tester.checkEqual(longGt(-1L, 1L), -1L > 1L, "-1L > 1L"); Tester.checkEqual(longGt(-1L, Long.MAX_VALUE), -1L > Long.MAX_VALUE, "-1L > Long.MAX_VALUE"); Tester.checkEqual(longGt(0L, Long.MIN_VALUE), 0L > Long.MIN_VALUE, "0L > Long.MIN_VALUE"); Tester.checkEqual(longGt(0L, -1L), 0L > -1L, "0L > -1L"); Tester.checkEqual(longGt(0L, 0L), 0L > 0L, "0L > 0L"); Tester.checkEqual(longGt(0L, 1L), 0L > 1L, "0L > 1L"); Tester.checkEqual(longGt(0L, Long.MAX_VALUE), 0L > Long.MAX_VALUE, "0L > Long.MAX_VALUE"); Tester.checkEqual(longGt(1L, Long.MIN_VALUE), 1L > Long.MIN_VALUE, "1L > Long.MIN_VALUE"); Tester.checkEqual(longGt(1L, -1L), 1L > -1L, "1L > -1L"); Tester.checkEqual(longGt(1L, 0L), 1L > 0L, "1L > 0L"); Tester.checkEqual(longGt(1L, 1L), 1L > 1L, "1L > 1L"); Tester.checkEqual(longGt(1L, Long.MAX_VALUE), 1L > Long.MAX_VALUE, "1L > Long.MAX_VALUE"); Tester.checkEqual(longGt(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE > Long.MIN_VALUE, "Long.MAX_VALUE > Long.MIN_VALUE"); Tester.checkEqual(longGt(Long.MAX_VALUE, -1L), Long.MAX_VALUE > -1L, "Long.MAX_VALUE > -1L"); Tester.checkEqual(longGt(Long.MAX_VALUE, 0L), Long.MAX_VALUE > 0L, "Long.MAX_VALUE > 0L"); Tester.checkEqual(longGt(Long.MAX_VALUE, 1L), Long.MAX_VALUE > 1L, "Long.MAX_VALUE > 1L"); Tester.checkEqual(longGt(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE > Long.MAX_VALUE, "Long.MAX_VALUE > Long.MAX_VALUE"); Tester.checkEqual(longLe(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE <= Long.MIN_VALUE, "Long.MIN_VALUE <= Long.MIN_VALUE"); Tester.checkEqual(longLe(Long.MIN_VALUE, -1L), Long.MIN_VALUE <= -1L, "Long.MIN_VALUE <= -1L"); Tester.checkEqual(longLe(Long.MIN_VALUE, 0L), Long.MIN_VALUE <= 0L, "Long.MIN_VALUE <= 0L"); Tester.checkEqual(longLe(Long.MIN_VALUE, 1L), Long.MIN_VALUE <= 1L, "Long.MIN_VALUE <= 1L"); Tester.checkEqual(longLe(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE <= Long.MAX_VALUE, "Long.MIN_VALUE <= Long.MAX_VALUE"); Tester.checkEqual(longLe(-1L, Long.MIN_VALUE), -1L <= Long.MIN_VALUE, "-1L <= Long.MIN_VALUE"); Tester.checkEqual(longLe(-1L, -1L), -1L <= -1L, "-1L <= -1L"); Tester.checkEqual(longLe(-1L, 0L), -1L <= 0L, "-1L <= 0L"); Tester.checkEqual(longLe(-1L, 1L), -1L <= 1L, "-1L <= 1L"); Tester.checkEqual(longLe(-1L, Long.MAX_VALUE), -1L <= Long.MAX_VALUE, "-1L <= Long.MAX_VALUE"); Tester.checkEqual(longLe(0L, Long.MIN_VALUE), 0L <= Long.MIN_VALUE, "0L <= Long.MIN_VALUE"); Tester.checkEqual(longLe(0L, -1L), 0L <= -1L, "0L <= -1L"); Tester.checkEqual(longLe(0L, 0L), 0L <= 0L, "0L <= 0L"); Tester.checkEqual(longLe(0L, 1L), 0L <= 1L, "0L <= 1L"); Tester.checkEqual(longLe(0L, Long.MAX_VALUE), 0L <= Long.MAX_VALUE, "0L <= Long.MAX_VALUE"); Tester.checkEqual(longLe(1L, Long.MIN_VALUE), 1L <= Long.MIN_VALUE, "1L <= Long.MIN_VALUE"); Tester.checkEqual(longLe(1L, -1L), 1L <= -1L, "1L <= -1L"); Tester.checkEqual(longLe(1L, 0L), 1L <= 0L, "1L <= 0L"); Tester.checkEqual(longLe(1L, 1L), 1L <= 1L, "1L <= 1L"); Tester.checkEqual(longLe(1L, Long.MAX_VALUE), 1L <= Long.MAX_VALUE, "1L <= Long.MAX_VALUE"); Tester.checkEqual(longLe(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE <= Long.MIN_VALUE, "Long.MAX_VALUE <= Long.MIN_VALUE"); Tester.checkEqual(longLe(Long.MAX_VALUE, -1L), Long.MAX_VALUE <= -1L, "Long.MAX_VALUE <= -1L"); Tester.checkEqual(longLe(Long.MAX_VALUE, 0L), Long.MAX_VALUE <= 0L, "Long.MAX_VALUE <= 0L"); Tester.checkEqual(longLe(Long.MAX_VALUE, 1L), Long.MAX_VALUE <= 1L, "Long.MAX_VALUE <= 1L"); Tester.checkEqual(longLe(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE <= Long.MAX_VALUE, "Long.MAX_VALUE <= Long.MAX_VALUE"); Tester.checkEqual(longGe(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE >= Long.MIN_VALUE, "Long.MIN_VALUE >= Long.MIN_VALUE"); Tester.checkEqual(longGe(Long.MIN_VALUE, -1L), Long.MIN_VALUE >= -1L, "Long.MIN_VALUE >= -1L"); Tester.checkEqual(longGe(Long.MIN_VALUE, 0L), Long.MIN_VALUE >= 0L, "Long.MIN_VALUE >= 0L"); Tester.checkEqual(longGe(Long.MIN_VALUE, 1L), Long.MIN_VALUE >= 1L, "Long.MIN_VALUE >= 1L"); Tester.checkEqual(longGe(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE >= Long.MAX_VALUE, "Long.MIN_VALUE >= Long.MAX_VALUE"); Tester.checkEqual(longGe(-1L, Long.MIN_VALUE), -1L >= Long.MIN_VALUE, "-1L >= Long.MIN_VALUE"); Tester.checkEqual(longGe(-1L, -1L), -1L >= -1L, "-1L >= -1L"); Tester.checkEqual(longGe(-1L, 0L), -1L >= 0L, "-1L >= 0L"); Tester.checkEqual(longGe(-1L, 1L), -1L >= 1L, "-1L >= 1L"); Tester.checkEqual(longGe(-1L, Long.MAX_VALUE), -1L >= Long.MAX_VALUE, "-1L >= Long.MAX_VALUE"); Tester.checkEqual(longGe(0L, Long.MIN_VALUE), 0L >= Long.MIN_VALUE, "0L >= Long.MIN_VALUE"); Tester.checkEqual(longGe(0L, -1L), 0L >= -1L, "0L >= -1L"); Tester.checkEqual(longGe(0L, 0L), 0L >= 0L, "0L >= 0L"); Tester.checkEqual(longGe(0L, 1L), 0L >= 1L, "0L >= 1L"); Tester.checkEqual(longGe(0L, Long.MAX_VALUE), 0L >= Long.MAX_VALUE, "0L >= Long.MAX_VALUE"); Tester.checkEqual(longGe(1L, Long.MIN_VALUE), 1L >= Long.MIN_VALUE, "1L >= Long.MIN_VALUE"); Tester.checkEqual(longGe(1L, -1L), 1L >= -1L, "1L >= -1L"); Tester.checkEqual(longGe(1L, 0L), 1L >= 0L, "1L >= 0L"); Tester.checkEqual(longGe(1L, 1L), 1L >= 1L, "1L >= 1L"); Tester.checkEqual(longGe(1L, Long.MAX_VALUE), 1L >= Long.MAX_VALUE, "1L >= Long.MAX_VALUE"); Tester.checkEqual(longGe(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE >= Long.MIN_VALUE, "Long.MAX_VALUE >= Long.MIN_VALUE"); Tester.checkEqual(longGe(Long.MAX_VALUE, -1L), Long.MAX_VALUE >= -1L, "Long.MAX_VALUE >= -1L"); Tester.checkEqual(longGe(Long.MAX_VALUE, 0L), Long.MAX_VALUE >= 0L, "Long.MAX_VALUE >= 0L"); Tester.checkEqual(longGe(Long.MAX_VALUE, 1L), Long.MAX_VALUE >= 1L, "Long.MAX_VALUE >= 1L"); Tester.checkEqual(longGe(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE >= Long.MAX_VALUE, "Long.MAX_VALUE >= Long.MAX_VALUE"); Tester.checkEqual(longEq(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE == Long.MIN_VALUE, "Long.MIN_VALUE == Long.MIN_VALUE"); Tester.checkEqual(longEq(Long.MIN_VALUE, -1L), Long.MIN_VALUE == -1L, "Long.MIN_VALUE == -1L"); Tester.checkEqual(longEq(Long.MIN_VALUE, 0L), Long.MIN_VALUE == 0L, "Long.MIN_VALUE == 0L"); Tester.checkEqual(longEq(Long.MIN_VALUE, 1L), Long.MIN_VALUE == 1L, "Long.MIN_VALUE == 1L"); Tester.checkEqual(longEq(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE == Long.MAX_VALUE, "Long.MIN_VALUE == Long.MAX_VALUE"); Tester.checkEqual(longEq(-1L, Long.MIN_VALUE), -1L == Long.MIN_VALUE, "-1L == Long.MIN_VALUE"); Tester.checkEqual(longEq(-1L, -1L), -1L == -1L, "-1L == -1L"); Tester.checkEqual(longEq(-1L, 0L), -1L == 0L, "-1L == 0L"); Tester.checkEqual(longEq(-1L, 1L), -1L == 1L, "-1L == 1L"); Tester.checkEqual(longEq(-1L, Long.MAX_VALUE), -1L == Long.MAX_VALUE, "-1L == Long.MAX_VALUE"); Tester.checkEqual(longEq(0L, Long.MIN_VALUE), 0L == Long.MIN_VALUE, "0L == Long.MIN_VALUE"); Tester.checkEqual(longEq(0L, -1L), 0L == -1L, "0L == -1L"); Tester.checkEqual(longEq(0L, 0L), 0L == 0L, "0L == 0L"); Tester.checkEqual(longEq(0L, 1L), 0L == 1L, "0L == 1L"); Tester.checkEqual(longEq(0L, Long.MAX_VALUE), 0L == Long.MAX_VALUE, "0L == Long.MAX_VALUE"); Tester.checkEqual(longEq(1L, Long.MIN_VALUE), 1L == Long.MIN_VALUE, "1L == Long.MIN_VALUE"); Tester.checkEqual(longEq(1L, -1L), 1L == -1L, "1L == -1L"); Tester.checkEqual(longEq(1L, 0L), 1L == 0L, "1L == 0L"); Tester.checkEqual(longEq(1L, 1L), 1L == 1L, "1L == 1L"); Tester.checkEqual(longEq(1L, Long.MAX_VALUE), 1L == Long.MAX_VALUE, "1L == Long.MAX_VALUE"); Tester.checkEqual(longEq(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE == Long.MIN_VALUE, "Long.MAX_VALUE == Long.MIN_VALUE"); Tester.checkEqual(longEq(Long.MAX_VALUE, -1L), Long.MAX_VALUE == -1L, "Long.MAX_VALUE == -1L"); Tester.checkEqual(longEq(Long.MAX_VALUE, 0L), Long.MAX_VALUE == 0L, "Long.MAX_VALUE == 0L"); Tester.checkEqual(longEq(Long.MAX_VALUE, 1L), Long.MAX_VALUE == 1L, "Long.MAX_VALUE == 1L"); Tester.checkEqual(longEq(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE == Long.MAX_VALUE, "Long.MAX_VALUE == Long.MAX_VALUE"); Tester.checkEqual(longNe(Long.MIN_VALUE, Long.MIN_VALUE), Long.MIN_VALUE != Long.MIN_VALUE, "Long.MIN_VALUE != Long.MIN_VALUE"); Tester.checkEqual(longNe(Long.MIN_VALUE, -1L), Long.MIN_VALUE != -1L, "Long.MIN_VALUE != -1L"); Tester.checkEqual(longNe(Long.MIN_VALUE, 0L), Long.MIN_VALUE != 0L, "Long.MIN_VALUE != 0L"); Tester.checkEqual(longNe(Long.MIN_VALUE, 1L), Long.MIN_VALUE != 1L, "Long.MIN_VALUE != 1L"); Tester.checkEqual(longNe(Long.MIN_VALUE, Long.MAX_VALUE), Long.MIN_VALUE != Long.MAX_VALUE, "Long.MIN_VALUE != Long.MAX_VALUE"); Tester.checkEqual(longNe(-1L, Long.MIN_VALUE), -1L != Long.MIN_VALUE, "-1L != Long.MIN_VALUE"); Tester.checkEqual(longNe(-1L, -1L), -1L != -1L, "-1L != -1L"); Tester.checkEqual(longNe(-1L, 0L), -1L != 0L, "-1L != 0L"); Tester.checkEqual(longNe(-1L, 1L), -1L != 1L, "-1L != 1L"); Tester.checkEqual(longNe(-1L, Long.MAX_VALUE), -1L != Long.MAX_VALUE, "-1L != Long.MAX_VALUE"); Tester.checkEqual(longNe(0L, Long.MIN_VALUE), 0L != Long.MIN_VALUE, "0L != Long.MIN_VALUE"); Tester.checkEqual(longNe(0L, -1L), 0L != -1L, "0L != -1L"); Tester.checkEqual(longNe(0L, 0L), 0L != 0L, "0L != 0L"); Tester.checkEqual(longNe(0L, 1L), 0L != 1L, "0L != 1L"); Tester.checkEqual(longNe(0L, Long.MAX_VALUE), 0L != Long.MAX_VALUE, "0L != Long.MAX_VALUE"); Tester.checkEqual(longNe(1L, Long.MIN_VALUE), 1L != Long.MIN_VALUE, "1L != Long.MIN_VALUE"); Tester.checkEqual(longNe(1L, -1L), 1L != -1L, "1L != -1L"); Tester.checkEqual(longNe(1L, 0L), 1L != 0L, "1L != 0L"); Tester.checkEqual(longNe(1L, 1L), 1L != 1L, "1L != 1L"); Tester.checkEqual(longNe(1L, Long.MAX_VALUE), 1L != Long.MAX_VALUE, "1L != Long.MAX_VALUE"); Tester.checkEqual(longNe(Long.MAX_VALUE, Long.MIN_VALUE), Long.MAX_VALUE != Long.MIN_VALUE, "Long.MAX_VALUE != Long.MIN_VALUE"); Tester.checkEqual(longNe(Long.MAX_VALUE, -1L), Long.MAX_VALUE != -1L, "Long.MAX_VALUE != -1L"); Tester.checkEqual(longNe(Long.MAX_VALUE, 0L), Long.MAX_VALUE != 0L, "Long.MAX_VALUE != 0L"); Tester.checkEqual(longNe(Long.MAX_VALUE, 1L), Long.MAX_VALUE != 1L, "Long.MAX_VALUE != 1L"); Tester.checkEqual(longNe(Long.MAX_VALUE, Long.MAX_VALUE), Long.MAX_VALUE != Long.MAX_VALUE, "Long.MAX_VALUE != Long.MAX_VALUE"); Tester.checkEqual(longAnd(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE & Long.MIN_VALUE), "(long) (Long.MIN_VALUE & Long.MIN_VALUE)"); Tester.checkEqual(longAnd(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE & -1L), "(long) (Long.MIN_VALUE & -1L)"); Tester.checkEqual(longAnd(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE & 0L), "(long) (Long.MIN_VALUE & 0L)"); Tester.checkEqual(longAnd(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE & 1L), "(long) (Long.MIN_VALUE & 1L)"); Tester.checkEqual(longAnd(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE & Long.MAX_VALUE), "(long) (Long.MIN_VALUE & Long.MAX_VALUE)"); Tester.checkEqual(longAnd(-1L, Long.MIN_VALUE), (long) (-1L & Long.MIN_VALUE), "(long) (-1L & Long.MIN_VALUE)"); Tester.checkEqual(longAnd(-1L, -1L), (long) (-1L & -1L), "(long) (-1L & -1L)"); Tester.checkEqual(longAnd(-1L, 0L), (long) (-1L & 0L), "(long) (-1L & 0L)"); Tester.checkEqual(longAnd(-1L, 1L), (long) (-1L & 1L), "(long) (-1L & 1L)"); Tester.checkEqual(longAnd(-1L, Long.MAX_VALUE), (long) (-1L & Long.MAX_VALUE), "(long) (-1L & Long.MAX_VALUE)"); Tester.checkEqual(longAnd(0L, Long.MIN_VALUE), (long) (0L & Long.MIN_VALUE), "(long) (0L & Long.MIN_VALUE)"); Tester.checkEqual(longAnd(0L, -1L), (long) (0L & -1L), "(long) (0L & -1L)"); Tester.checkEqual(longAnd(0L, 0L), (long) (0L & 0L), "(long) (0L & 0L)"); Tester.checkEqual(longAnd(0L, 1L), (long) (0L & 1L), "(long) (0L & 1L)"); Tester.checkEqual(longAnd(0L, Long.MAX_VALUE), (long) (0L & Long.MAX_VALUE), "(long) (0L & Long.MAX_VALUE)"); Tester.checkEqual(longAnd(1L, Long.MIN_VALUE), (long) (1L & Long.MIN_VALUE), "(long) (1L & Long.MIN_VALUE)"); Tester.checkEqual(longAnd(1L, -1L), (long) (1L & -1L), "(long) (1L & -1L)"); Tester.checkEqual(longAnd(1L, 0L), (long) (1L & 0L), "(long) (1L & 0L)"); Tester.checkEqual(longAnd(1L, 1L), (long) (1L & 1L), "(long) (1L & 1L)"); Tester.checkEqual(longAnd(1L, Long.MAX_VALUE), (long) (1L & Long.MAX_VALUE), "(long) (1L & Long.MAX_VALUE)"); Tester.checkEqual(longAnd(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE & Long.MIN_VALUE), "(long) (Long.MAX_VALUE & Long.MIN_VALUE)"); Tester.checkEqual(longAnd(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE & -1L), "(long) (Long.MAX_VALUE & -1L)"); Tester.checkEqual(longAnd(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE & 0L), "(long) (Long.MAX_VALUE & 0L)"); Tester.checkEqual(longAnd(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE & 1L), "(long) (Long.MAX_VALUE & 1L)"); Tester.checkEqual(longAnd(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE & Long.MAX_VALUE), "(long) (Long.MAX_VALUE & Long.MAX_VALUE)"); Tester.checkEqual(longXor(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE ^ Long.MIN_VALUE), "(long) (Long.MIN_VALUE ^ Long.MIN_VALUE)"); Tester.checkEqual(longXor(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE ^ -1L), "(long) (Long.MIN_VALUE ^ -1L)"); Tester.checkEqual(longXor(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE ^ 0L), "(long) (Long.MIN_VALUE ^ 0L)"); Tester.checkEqual(longXor(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE ^ 1L), "(long) (Long.MIN_VALUE ^ 1L)"); Tester.checkEqual(longXor(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE ^ Long.MAX_VALUE), "(long) (Long.MIN_VALUE ^ Long.MAX_VALUE)"); Tester.checkEqual(longXor(-1L, Long.MIN_VALUE), (long) (-1L ^ Long.MIN_VALUE), "(long) (-1L ^ Long.MIN_VALUE)"); Tester.checkEqual(longXor(-1L, -1L), (long) (-1L ^ -1L), "(long) (-1L ^ -1L)"); Tester.checkEqual(longXor(-1L, 0L), (long) (-1L ^ 0L), "(long) (-1L ^ 0L)"); Tester.checkEqual(longXor(-1L, 1L), (long) (-1L ^ 1L), "(long) (-1L ^ 1L)"); Tester.checkEqual(longXor(-1L, Long.MAX_VALUE), (long) (-1L ^ Long.MAX_VALUE), "(long) (-1L ^ Long.MAX_VALUE)"); Tester.checkEqual(longXor(0L, Long.MIN_VALUE), (long) (0L ^ Long.MIN_VALUE), "(long) (0L ^ Long.MIN_VALUE)"); Tester.checkEqual(longXor(0L, -1L), (long) (0L ^ -1L), "(long) (0L ^ -1L)"); Tester.checkEqual(longXor(0L, 0L), (long) (0L ^ 0L), "(long) (0L ^ 0L)"); Tester.checkEqual(longXor(0L, 1L), (long) (0L ^ 1L), "(long) (0L ^ 1L)"); Tester.checkEqual(longXor(0L, Long.MAX_VALUE), (long) (0L ^ Long.MAX_VALUE), "(long) (0L ^ Long.MAX_VALUE)"); Tester.checkEqual(longXor(1L, Long.MIN_VALUE), (long) (1L ^ Long.MIN_VALUE), "(long) (1L ^ Long.MIN_VALUE)"); Tester.checkEqual(longXor(1L, -1L), (long) (1L ^ -1L), "(long) (1L ^ -1L)"); Tester.checkEqual(longXor(1L, 0L), (long) (1L ^ 0L), "(long) (1L ^ 0L)"); Tester.checkEqual(longXor(1L, 1L), (long) (1L ^ 1L), "(long) (1L ^ 1L)"); Tester.checkEqual(longXor(1L, Long.MAX_VALUE), (long) (1L ^ Long.MAX_VALUE), "(long) (1L ^ Long.MAX_VALUE)"); Tester.checkEqual(longXor(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE ^ Long.MIN_VALUE), "(long) (Long.MAX_VALUE ^ Long.MIN_VALUE)"); Tester.checkEqual(longXor(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE ^ -1L), "(long) (Long.MAX_VALUE ^ -1L)"); Tester.checkEqual(longXor(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE ^ 0L), "(long) (Long.MAX_VALUE ^ 0L)"); Tester.checkEqual(longXor(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE ^ 1L), "(long) (Long.MAX_VALUE ^ 1L)"); Tester.checkEqual(longXor(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE ^ Long.MAX_VALUE), "(long) (Long.MAX_VALUE ^ Long.MAX_VALUE)"); Tester.checkEqual(longOr(Long.MIN_VALUE, Long.MIN_VALUE), (long) (Long.MIN_VALUE | Long.MIN_VALUE), "(long) (Long.MIN_VALUE | Long.MIN_VALUE)"); Tester.checkEqual(longOr(Long.MIN_VALUE, -1L), (long) (Long.MIN_VALUE | -1L), "(long) (Long.MIN_VALUE | -1L)"); Tester.checkEqual(longOr(Long.MIN_VALUE, 0L), (long) (Long.MIN_VALUE | 0L), "(long) (Long.MIN_VALUE | 0L)"); Tester.checkEqual(longOr(Long.MIN_VALUE, 1L), (long) (Long.MIN_VALUE | 1L), "(long) (Long.MIN_VALUE | 1L)"); Tester.checkEqual(longOr(Long.MIN_VALUE, Long.MAX_VALUE), (long) (Long.MIN_VALUE | Long.MAX_VALUE), "(long) (Long.MIN_VALUE | Long.MAX_VALUE)"); Tester.checkEqual(longOr(-1L, Long.MIN_VALUE), (long) (-1L | Long.MIN_VALUE), "(long) (-1L | Long.MIN_VALUE)"); Tester.checkEqual(longOr(-1L, -1L), (long) (-1L | -1L), "(long) (-1L | -1L)"); Tester.checkEqual(longOr(-1L, 0L), (long) (-1L | 0L), "(long) (-1L | 0L)"); Tester.checkEqual(longOr(-1L, 1L), (long) (-1L | 1L), "(long) (-1L | 1L)"); Tester.checkEqual(longOr(-1L, Long.MAX_VALUE), (long) (-1L | Long.MAX_VALUE), "(long) (-1L | Long.MAX_VALUE)"); Tester.checkEqual(longOr(0L, Long.MIN_VALUE), (long) (0L | Long.MIN_VALUE), "(long) (0L | Long.MIN_VALUE)"); Tester.checkEqual(longOr(0L, -1L), (long) (0L | -1L), "(long) (0L | -1L)"); Tester.checkEqual(longOr(0L, 0L), (long) (0L | 0L), "(long) (0L | 0L)"); Tester.checkEqual(longOr(0L, 1L), (long) (0L | 1L), "(long) (0L | 1L)"); Tester.checkEqual(longOr(0L, Long.MAX_VALUE), (long) (0L | Long.MAX_VALUE), "(long) (0L | Long.MAX_VALUE)"); Tester.checkEqual(longOr(1L, Long.MIN_VALUE), (long) (1L | Long.MIN_VALUE), "(long) (1L | Long.MIN_VALUE)"); Tester.checkEqual(longOr(1L, -1L), (long) (1L | -1L), "(long) (1L | -1L)"); Tester.checkEqual(longOr(1L, 0L), (long) (1L | 0L), "(long) (1L | 0L)"); Tester.checkEqual(longOr(1L, 1L), (long) (1L | 1L), "(long) (1L | 1L)"); Tester.checkEqual(longOr(1L, Long.MAX_VALUE), (long) (1L | Long.MAX_VALUE), "(long) (1L | Long.MAX_VALUE)"); Tester.checkEqual(longOr(Long.MAX_VALUE, Long.MIN_VALUE), (long) (Long.MAX_VALUE | Long.MIN_VALUE), "(long) (Long.MAX_VALUE | Long.MIN_VALUE)"); Tester.checkEqual(longOr(Long.MAX_VALUE, -1L), (long) (Long.MAX_VALUE | -1L), "(long) (Long.MAX_VALUE | -1L)"); Tester.checkEqual(longOr(Long.MAX_VALUE, 0L), (long) (Long.MAX_VALUE | 0L), "(long) (Long.MAX_VALUE | 0L)"); Tester.checkEqual(longOr(Long.MAX_VALUE, 1L), (long) (Long.MAX_VALUE | 1L), "(long) (Long.MAX_VALUE | 1L)"); Tester.checkEqual(longOr(Long.MAX_VALUE, Long.MAX_VALUE), (long) (Long.MAX_VALUE | Long.MAX_VALUE), "(long) (Long.MAX_VALUE | Long.MAX_VALUE)"); } static void longSwitch() { switch(0) { case ((((long) + Long.MIN_VALUE) == 0) ? 0 : 0): case ((((long) + -1L) == 0) ? 1 : 1): case ((((long) + 0L) == 0) ? 2 : 2): case ((((long) + 1L) == 0) ? 3 : 3): case ((((long) + Long.MAX_VALUE) == 0) ? 4 : 4): case ((((long) - Long.MIN_VALUE) == 0) ? 5 : 5): case ((((long) - -1L) == 0) ? 6 : 6): case ((((long) - 0L) == 0) ? 7 : 7): case ((((long) - 1L) == 0) ? 8 : 8): case ((((long) - Long.MAX_VALUE) == 0) ? 9 : 9): case ((((long) ~ Long.MIN_VALUE) == 0) ? 10 : 10): case ((((long) ~ -1L) == 0) ? 11 : 11): case ((((long) ~ 0L) == 0) ? 12 : 12): case ((((long) ~ 1L) == 0) ? 13 : 13): case ((((long) ~ Long.MAX_VALUE) == 0) ? 14 : 14): case ((((long) (Long.MIN_VALUE * Long.MIN_VALUE)) == 0) ? 15 : 15): case ((((long) (Long.MIN_VALUE * -1L)) == 0) ? 16 : 16): case ((((long) (Long.MIN_VALUE * 0L)) == 0) ? 17 : 17): case ((((long) (Long.MIN_VALUE * 1L)) == 0) ? 18 : 18): case ((((long) (Long.MIN_VALUE * Long.MAX_VALUE)) == 0) ? 19 : 19): case ((((long) (-1L * Long.MIN_VALUE)) == 0) ? 20 : 20): case ((((long) (-1L * -1L)) == 0) ? 21 : 21): case ((((long) (-1L * 0L)) == 0) ? 22 : 22): case ((((long) (-1L * 1L)) == 0) ? 23 : 23): case ((((long) (-1L * Long.MAX_VALUE)) == 0) ? 24 : 24): case ((((long) (0L * Long.MIN_VALUE)) == 0) ? 25 : 25): case ((((long) (0L * -1L)) == 0) ? 26 : 26): case ((((long) (0L * 0L)) == 0) ? 27 : 27): case ((((long) (0L * 1L)) == 0) ? 28 : 28): case ((((long) (0L * Long.MAX_VALUE)) == 0) ? 29 : 29): case ((((long) (1L * Long.MIN_VALUE)) == 0) ? 30 : 30): case ((((long) (1L * -1L)) == 0) ? 31 : 31): case ((((long) (1L * 0L)) == 0) ? 32 : 32): case ((((long) (1L * 1L)) == 0) ? 33 : 33): case ((((long) (1L * Long.MAX_VALUE)) == 0) ? 34 : 34): case ((((long) (Long.MAX_VALUE * Long.MIN_VALUE)) == 0) ? 35 : 35): case ((((long) (Long.MAX_VALUE * -1L)) == 0) ? 36 : 36): case ((((long) (Long.MAX_VALUE * 0L)) == 0) ? 37 : 37): case ((((long) (Long.MAX_VALUE * 1L)) == 0) ? 38 : 38): case ((((long) (Long.MAX_VALUE * Long.MAX_VALUE)) == 0) ? 39 : 39): case ((((long) (Long.MIN_VALUE / Long.MIN_VALUE)) == 0) ? 40 : 40): case ((((long) (Long.MIN_VALUE / -1L)) == 0) ? 41 : 41): case ((((long) (Long.MIN_VALUE / 1L)) == 0) ? 42 : 42): case ((((long) (Long.MIN_VALUE / Long.MAX_VALUE)) == 0) ? 43 : 43): case ((((long) (-1L / Long.MIN_VALUE)) == 0) ? 44 : 44): case ((((long) (-1L / -1L)) == 0) ? 45 : 45): case ((((long) (-1L / 1L)) == 0) ? 46 : 46): case ((((long) (-1L / Long.MAX_VALUE)) == 0) ? 47 : 47): case ((((long) (0L / Long.MIN_VALUE)) == 0) ? 48 : 48): case ((((long) (0L / -1L)) == 0) ? 49 : 49): case ((((long) (0L / 1L)) == 0) ? 50 : 50): case ((((long) (0L / Long.MAX_VALUE)) == 0) ? 51 : 51): case ((((long) (1L / Long.MIN_VALUE)) == 0) ? 52 : 52): case ((((long) (1L / -1L)) == 0) ? 53 : 53): case ((((long) (1L / 1L)) == 0) ? 54 : 54): case ((((long) (1L / Long.MAX_VALUE)) == 0) ? 55 : 55): case ((((long) (Long.MAX_VALUE / Long.MIN_VALUE)) == 0) ? 56 : 56): case ((((long) (Long.MAX_VALUE / -1L)) == 0) ? 57 : 57): case ((((long) (Long.MAX_VALUE / 1L)) == 0) ? 58 : 58): case ((((long) (Long.MAX_VALUE / Long.MAX_VALUE)) == 0) ? 59 : 59): case ((((long) (Long.MIN_VALUE % Long.MIN_VALUE)) == 0) ? 60 : 60): case ((((long) (Long.MIN_VALUE % -1L)) == 0) ? 61 : 61): case ((((long) (Long.MIN_VALUE % 1L)) == 0) ? 62 : 62): case ((((long) (Long.MIN_VALUE % Long.MAX_VALUE)) == 0) ? 63 : 63): case ((((long) (-1L % Long.MIN_VALUE)) == 0) ? 64 : 64): case ((((long) (-1L % -1L)) == 0) ? 65 : 65): case ((((long) (-1L % 1L)) == 0) ? 66 : 66): case ((((long) (-1L % Long.MAX_VALUE)) == 0) ? 67 : 67): case ((((long) (0L % Long.MIN_VALUE)) == 0) ? 68 : 68): case ((((long) (0L % -1L)) == 0) ? 69 : 69): case ((((long) (0L % 1L)) == 0) ? 70 : 70): case ((((long) (0L % Long.MAX_VALUE)) == 0) ? 71 : 71): case ((((long) (1L % Long.MIN_VALUE)) == 0) ? 72 : 72): case ((((long) (1L % -1L)) == 0) ? 73 : 73): case ((((long) (1L % 1L)) == 0) ? 74 : 74): case ((((long) (1L % Long.MAX_VALUE)) == 0) ? 75 : 75): case ((((long) (Long.MAX_VALUE % Long.MIN_VALUE)) == 0) ? 76 : 76): case ((((long) (Long.MAX_VALUE % -1L)) == 0) ? 77 : 77): case ((((long) (Long.MAX_VALUE % 1L)) == 0) ? 78 : 78): case ((((long) (Long.MAX_VALUE % Long.MAX_VALUE)) == 0) ? 79 : 79): case ((((long) (Long.MIN_VALUE + Long.MIN_VALUE)) == 0) ? 80 : 80): case ((((long) (Long.MIN_VALUE + -1L)) == 0) ? 81 : 81): case ((((long) (Long.MIN_VALUE + 0L)) == 0) ? 82 : 82): case ((((long) (Long.MIN_VALUE + 1L)) == 0) ? 83 : 83): case ((((long) (Long.MIN_VALUE + Long.MAX_VALUE)) == 0) ? 84 : 84): case ((((long) (-1L + Long.MIN_VALUE)) == 0) ? 85 : 85): case ((((long) (-1L + -1L)) == 0) ? 86 : 86): case ((((long) (-1L + 0L)) == 0) ? 87 : 87): case ((((long) (-1L + 1L)) == 0) ? 88 : 88): case ((((long) (-1L + Long.MAX_VALUE)) == 0) ? 89 : 89): case ((((long) (0L + Long.MIN_VALUE)) == 0) ? 90 : 90): case ((((long) (0L + -1L)) == 0) ? 91 : 91): case ((((long) (0L + 0L)) == 0) ? 92 : 92): case ((((long) (0L + 1L)) == 0) ? 93 : 93): case ((((long) (0L + Long.MAX_VALUE)) == 0) ? 94 : 94): case ((((long) (1L + Long.MIN_VALUE)) == 0) ? 95 : 95): case ((((long) (1L + -1L)) == 0) ? 96 : 96): case ((((long) (1L + 0L)) == 0) ? 97 : 97): case ((((long) (1L + 1L)) == 0) ? 98 : 98): case ((((long) (1L + Long.MAX_VALUE)) == 0) ? 99 : 99): case ((((long) (Long.MAX_VALUE + Long.MIN_VALUE)) == 0) ? 100 : 100): case ((((long) (Long.MAX_VALUE + -1L)) == 0) ? 101 : 101): case ((((long) (Long.MAX_VALUE + 0L)) == 0) ? 102 : 102): case ((((long) (Long.MAX_VALUE + 1L)) == 0) ? 103 : 103): case ((((long) (Long.MAX_VALUE + Long.MAX_VALUE)) == 0) ? 104 : 104): case ((((long) (Long.MIN_VALUE - Long.MIN_VALUE)) == 0) ? 105 : 105): case ((((long) (Long.MIN_VALUE - -1L)) == 0) ? 106 : 106): case ((((long) (Long.MIN_VALUE - 0L)) == 0) ? 107 : 107): case ((((long) (Long.MIN_VALUE - 1L)) == 0) ? 108 : 108): case ((((long) (Long.MIN_VALUE - Long.MAX_VALUE)) == 0) ? 109 : 109): case ((((long) (-1L - Long.MIN_VALUE)) == 0) ? 110 : 110): case ((((long) (-1L - -1L)) == 0) ? 111 : 111): case ((((long) (-1L - 0L)) == 0) ? 112 : 112): case ((((long) (-1L - 1L)) == 0) ? 113 : 113): case ((((long) (-1L - Long.MAX_VALUE)) == 0) ? 114 : 114): case ((((long) (0L - Long.MIN_VALUE)) == 0) ? 115 : 115): case ((((long) (0L - -1L)) == 0) ? 116 : 116): case ((((long) (0L - 0L)) == 0) ? 117 : 117): case ((((long) (0L - 1L)) == 0) ? 118 : 118): case ((((long) (0L - Long.MAX_VALUE)) == 0) ? 119 : 119): case ((((long) (1L - Long.MIN_VALUE)) == 0) ? 120 : 120): case ((((long) (1L - -1L)) == 0) ? 121 : 121): case ((((long) (1L - 0L)) == 0) ? 122 : 122): case ((((long) (1L - 1L)) == 0) ? 123 : 123): case ((((long) (1L - Long.MAX_VALUE)) == 0) ? 124 : 124): case ((((long) (Long.MAX_VALUE - Long.MIN_VALUE)) == 0) ? 125 : 125): case ((((long) (Long.MAX_VALUE - -1L)) == 0) ? 126 : 126): case ((((long) (Long.MAX_VALUE - 0L)) == 0) ? 127 : 127): case ((((long) (Long.MAX_VALUE - 1L)) == 0) ? 128 : 128): case ((((long) (Long.MAX_VALUE - Long.MAX_VALUE)) == 0) ? 129 : 129): case ((((long) (Long.MIN_VALUE << Long.MIN_VALUE)) == 0) ? 130 : 130): case ((((long) (Long.MIN_VALUE << -1L)) == 0) ? 131 : 131): case ((((long) (Long.MIN_VALUE << 0L)) == 0) ? 132 : 132): case ((((long) (Long.MIN_VALUE << 1L)) == 0) ? 133 : 133): case ((((long) (Long.MIN_VALUE << Long.MAX_VALUE)) == 0) ? 134 : 134): case ((((long) (-1L << Long.MIN_VALUE)) == 0) ? 135 : 135): case ((((long) (-1L << -1L)) == 0) ? 136 : 136): case ((((long) (-1L << 0L)) == 0) ? 137 : 137): case ((((long) (-1L << 1L)) == 0) ? 138 : 138): case ((((long) (-1L << Long.MAX_VALUE)) == 0) ? 139 : 139): case ((((long) (0L << Long.MIN_VALUE)) == 0) ? 140 : 140): case ((((long) (0L << -1L)) == 0) ? 141 : 141): case ((((long) (0L << 0L)) == 0) ? 142 : 142): case ((((long) (0L << 1L)) == 0) ? 143 : 143): case ((((long) (0L << Long.MAX_VALUE)) == 0) ? 144 : 144): case ((((long) (1L << Long.MIN_VALUE)) == 0) ? 145 : 145): case ((((long) (1L << -1L)) == 0) ? 146 : 146): case ((((long) (1L << 0L)) == 0) ? 147 : 147): case ((((long) (1L << 1L)) == 0) ? 148 : 148): case ((((long) (1L << Long.MAX_VALUE)) == 0) ? 149 : 149): case ((((long) (Long.MAX_VALUE << Long.MIN_VALUE)) == 0) ? 150 : 150): case ((((long) (Long.MAX_VALUE << -1L)) == 0) ? 151 : 151): case ((((long) (Long.MAX_VALUE << 0L)) == 0) ? 152 : 152): case ((((long) (Long.MAX_VALUE << 1L)) == 0) ? 153 : 153): case ((((long) (Long.MAX_VALUE << Long.MAX_VALUE)) == 0) ? 154 : 154): case ((((long) (Long.MIN_VALUE >> Long.MIN_VALUE)) == 0) ? 155 : 155): case ((((long) (Long.MIN_VALUE >> -1L)) == 0) ? 156 : 156): case ((((long) (Long.MIN_VALUE >> 0L)) == 0) ? 157 : 157): case ((((long) (Long.MIN_VALUE >> 1L)) == 0) ? 158 : 158): case ((((long) (Long.MIN_VALUE >> Long.MAX_VALUE)) == 0) ? 159 : 159): case ((((long) (-1L >> Long.MIN_VALUE)) == 0) ? 160 : 160): case ((((long) (-1L >> -1L)) == 0) ? 161 : 161): case ((((long) (-1L >> 0L)) == 0) ? 162 : 162): case ((((long) (-1L >> 1L)) == 0) ? 163 : 163): case ((((long) (-1L >> Long.MAX_VALUE)) == 0) ? 164 : 164): case ((((long) (0L >> Long.MIN_VALUE)) == 0) ? 165 : 165): case ((((long) (0L >> -1L)) == 0) ? 166 : 166): case ((((long) (0L >> 0L)) == 0) ? 167 : 167): case ((((long) (0L >> 1L)) == 0) ? 168 : 168): case ((((long) (0L >> Long.MAX_VALUE)) == 0) ? 169 : 169): case ((((long) (1L >> Long.MIN_VALUE)) == 0) ? 170 : 170): case ((((long) (1L >> -1L)) == 0) ? 171 : 171): case ((((long) (1L >> 0L)) == 0) ? 172 : 172): case ((((long) (1L >> 1L)) == 0) ? 173 : 173): case ((((long) (1L >> Long.MAX_VALUE)) == 0) ? 174 : 174): case ((((long) (Long.MAX_VALUE >> Long.MIN_VALUE)) == 0) ? 175 : 175): case ((((long) (Long.MAX_VALUE >> -1L)) == 0) ? 176 : 176): case ((((long) (Long.MAX_VALUE >> 0L)) == 0) ? 177 : 177): case ((((long) (Long.MAX_VALUE >> 1L)) == 0) ? 178 : 178): case ((((long) (Long.MAX_VALUE >> Long.MAX_VALUE)) == 0) ? 179 : 179): case ((Long.MIN_VALUE < Long.MIN_VALUE) ? 205 : 205): case ((Long.MIN_VALUE < -1L) ? 206 : 206): case ((Long.MIN_VALUE < 0L) ? 207 : 207): case ((Long.MIN_VALUE < 1L) ? 208 : 208): case ((Long.MIN_VALUE < Long.MAX_VALUE) ? 209 : 209): case ((-1L < Long.MIN_VALUE) ? 210 : 210): case ((-1L < -1L) ? 211 : 211): case ((-1L < 0L) ? 212 : 212): case ((-1L < 1L) ? 213 : 213): case ((-1L < Long.MAX_VALUE) ? 214 : 214): case ((0L < Long.MIN_VALUE) ? 215 : 215): case ((0L < -1L) ? 216 : 216): case ((0L < 0L) ? 217 : 217): case ((0L < 1L) ? 218 : 218): case ((0L < Long.MAX_VALUE) ? 219 : 219): case ((1L < Long.MIN_VALUE) ? 220 : 220): case ((1L < -1L) ? 221 : 221): case ((1L < 0L) ? 222 : 222): case ((1L < 1L) ? 223 : 223): case ((1L < Long.MAX_VALUE) ? 224 : 224): case ((Long.MAX_VALUE < Long.MIN_VALUE) ? 225 : 225): case ((Long.MAX_VALUE < -1L) ? 226 : 226): case ((Long.MAX_VALUE < 0L) ? 227 : 227): case ((Long.MAX_VALUE < 1L) ? 228 : 228): case ((Long.MAX_VALUE < Long.MAX_VALUE) ? 229 : 229): case ((Long.MIN_VALUE > Long.MIN_VALUE) ? 230 : 230): case ((Long.MIN_VALUE > -1L) ? 231 : 231): case ((Long.MIN_VALUE > 0L) ? 232 : 232): case ((Long.MIN_VALUE > 1L) ? 233 : 233): case ((Long.MIN_VALUE > Long.MAX_VALUE) ? 234 : 234): case ((-1L > Long.MIN_VALUE) ? 235 : 235): case ((-1L > -1L) ? 236 : 236): case ((-1L > 0L) ? 237 : 237): case ((-1L > 1L) ? 238 : 238): case ((-1L > Long.MAX_VALUE) ? 239 : 239): case ((0L > Long.MIN_VALUE) ? 240 : 240): case ((0L > -1L) ? 241 : 241): case ((0L > 0L) ? 242 : 242): case ((0L > 1L) ? 243 : 243): case ((0L > Long.MAX_VALUE) ? 244 : 244): case ((1L > Long.MIN_VALUE) ? 245 : 245): case ((1L > -1L) ? 246 : 246): case ((1L > 0L) ? 247 : 247): case ((1L > 1L) ? 248 : 248): case ((1L > Long.MAX_VALUE) ? 249 : 249): case ((Long.MAX_VALUE > Long.MIN_VALUE) ? 250 : 250): case ((Long.MAX_VALUE > -1L) ? 251 : 251): case ((Long.MAX_VALUE > 0L) ? 252 : 252): case ((Long.MAX_VALUE > 1L) ? 253 : 253): case ((Long.MAX_VALUE > Long.MAX_VALUE) ? 254 : 254): case ((Long.MIN_VALUE <= Long.MIN_VALUE) ? 255 : 255): case ((Long.MIN_VALUE <= -1L) ? 256 : 256): case ((Long.MIN_VALUE <= 0L) ? 257 : 257): case ((Long.MIN_VALUE <= 1L) ? 258 : 258): case ((Long.MIN_VALUE <= Long.MAX_VALUE) ? 259 : 259): case ((-1L <= Long.MIN_VALUE) ? 260 : 260): case ((-1L <= -1L) ? 261 : 261): case ((-1L <= 0L) ? 262 : 262): case ((-1L <= 1L) ? 263 : 263): case ((-1L <= Long.MAX_VALUE) ? 264 : 264): case ((0L <= Long.MIN_VALUE) ? 265 : 265): case ((0L <= -1L) ? 266 : 266): case ((0L <= 0L) ? 267 : 267): case ((0L <= 1L) ? 268 : 268): case ((0L <= Long.MAX_VALUE) ? 269 : 269): case ((1L <= Long.MIN_VALUE) ? 270 : 270): case ((1L <= -1L) ? 271 : 271): case ((1L <= 0L) ? 272 : 272): case ((1L <= 1L) ? 273 : 273): case ((1L <= Long.MAX_VALUE) ? 274 : 274): case ((Long.MAX_VALUE <= Long.MIN_VALUE) ? 275 : 275): case ((Long.MAX_VALUE <= -1L) ? 276 : 276): case ((Long.MAX_VALUE <= 0L) ? 277 : 277): case ((Long.MAX_VALUE <= 1L) ? 278 : 278): case ((Long.MAX_VALUE <= Long.MAX_VALUE) ? 279 : 279): case ((Long.MIN_VALUE >= Long.MIN_VALUE) ? 280 : 280): case ((Long.MIN_VALUE >= -1L) ? 281 : 281): case ((Long.MIN_VALUE >= 0L) ? 282 : 282): case ((Long.MIN_VALUE >= 1L) ? 283 : 283): case ((Long.MIN_VALUE >= Long.MAX_VALUE) ? 284 : 284): case ((-1L >= Long.MIN_VALUE) ? 285 : 285): case ((-1L >= -1L) ? 286 : 286): case ((-1L >= 0L) ? 287 : 287): case ((-1L >= 1L) ? 288 : 288): case ((-1L >= Long.MAX_VALUE) ? 289 : 289): case ((0L >= Long.MIN_VALUE) ? 290 : 290): case ((0L >= -1L) ? 291 : 291): case ((0L >= 0L) ? 292 : 292): case ((0L >= 1L) ? 293 : 293): case ((0L >= Long.MAX_VALUE) ? 294 : 294): case ((1L >= Long.MIN_VALUE) ? 295 : 295): case ((1L >= -1L) ? 296 : 296): case ((1L >= 0L) ? 297 : 297): case ((1L >= 1L) ? 298 : 298): case ((1L >= Long.MAX_VALUE) ? 299 : 299): case ((Long.MAX_VALUE >= Long.MIN_VALUE) ? 300 : 300): case ((Long.MAX_VALUE >= -1L) ? 301 : 301): case ((Long.MAX_VALUE >= 0L) ? 302 : 302): case ((Long.MAX_VALUE >= 1L) ? 303 : 303): case ((Long.MAX_VALUE >= Long.MAX_VALUE) ? 304 : 304): case ((Long.MIN_VALUE == Long.MIN_VALUE) ? 305 : 305): case ((Long.MIN_VALUE == -1L) ? 306 : 306): case ((Long.MIN_VALUE == 0L) ? 307 : 307): case ((Long.MIN_VALUE == 1L) ? 308 : 308): case ((Long.MIN_VALUE == Long.MAX_VALUE) ? 309 : 309): case ((-1L == Long.MIN_VALUE) ? 310 : 310): case ((-1L == -1L) ? 311 : 311): case ((-1L == 0L) ? 312 : 312): case ((-1L == 1L) ? 313 : 313): case ((-1L == Long.MAX_VALUE) ? 314 : 314): case ((0L == Long.MIN_VALUE) ? 315 : 315): case ((0L == -1L) ? 316 : 316): case ((0L == 0L) ? 317 : 317): case ((0L == 1L) ? 318 : 318): case ((0L == Long.MAX_VALUE) ? 319 : 319): case ((1L == Long.MIN_VALUE) ? 320 : 320): case ((1L == -1L) ? 321 : 321): case ((1L == 0L) ? 322 : 322): case ((1L == 1L) ? 323 : 323): case ((1L == Long.MAX_VALUE) ? 324 : 324): case ((Long.MAX_VALUE == Long.MIN_VALUE) ? 325 : 325): case ((Long.MAX_VALUE == -1L) ? 326 : 326): case ((Long.MAX_VALUE == 0L) ? 327 : 327): case ((Long.MAX_VALUE == 1L) ? 328 : 328): case ((Long.MAX_VALUE == Long.MAX_VALUE) ? 329 : 329): case ((Long.MIN_VALUE != Long.MIN_VALUE) ? 330 : 330): case ((Long.MIN_VALUE != -1L) ? 331 : 331): case ((Long.MIN_VALUE != 0L) ? 332 : 332): case ((Long.MIN_VALUE != 1L) ? 333 : 333): case ((Long.MIN_VALUE != Long.MAX_VALUE) ? 334 : 334): case ((-1L != Long.MIN_VALUE) ? 335 : 335): case ((-1L != -1L) ? 336 : 336): case ((-1L != 0L) ? 337 : 337): case ((-1L != 1L) ? 338 : 338): case ((-1L != Long.MAX_VALUE) ? 339 : 339): case ((0L != Long.MIN_VALUE) ? 340 : 340): case ((0L != -1L) ? 341 : 341): case ((0L != 0L) ? 342 : 342): case ((0L != 1L) ? 343 : 343): case ((0L != Long.MAX_VALUE) ? 344 : 344): case ((1L != Long.MIN_VALUE) ? 345 : 345): case ((1L != -1L) ? 346 : 346): case ((1L != 0L) ? 347 : 347): case ((1L != 1L) ? 348 : 348): case ((1L != Long.MAX_VALUE) ? 349 : 349): case ((Long.MAX_VALUE != Long.MIN_VALUE) ? 350 : 350): case ((Long.MAX_VALUE != -1L) ? 351 : 351): case ((Long.MAX_VALUE != 0L) ? 352 : 352): case ((Long.MAX_VALUE != 1L) ? 353 : 353): case ((Long.MAX_VALUE != Long.MAX_VALUE) ? 354 : 354): case ((((long) (Long.MIN_VALUE & Long.MIN_VALUE)) == 0) ? 355 : 355): case ((((long) (Long.MIN_VALUE & -1L)) == 0) ? 356 : 356): case ((((long) (Long.MIN_VALUE & 0L)) == 0) ? 357 : 357): case ((((long) (Long.MIN_VALUE & 1L)) == 0) ? 358 : 358): case ((((long) (Long.MIN_VALUE & Long.MAX_VALUE)) == 0) ? 359 : 359): case ((((long) (-1L & Long.MIN_VALUE)) == 0) ? 360 : 360): case ((((long) (-1L & -1L)) == 0) ? 361 : 361): case ((((long) (-1L & 0L)) == 0) ? 362 : 362): case ((((long) (-1L & 1L)) == 0) ? 363 : 363): case ((((long) (-1L & Long.MAX_VALUE)) == 0) ? 364 : 364): case ((((long) (0L & Long.MIN_VALUE)) == 0) ? 365 : 365): case ((((long) (0L & -1L)) == 0) ? 366 : 366): case ((((long) (0L & 0L)) == 0) ? 367 : 367): case ((((long) (0L & 1L)) == 0) ? 368 : 368): case ((((long) (0L & Long.MAX_VALUE)) == 0) ? 369 : 369): case ((((long) (1L & Long.MIN_VALUE)) == 0) ? 370 : 370): case ((((long) (1L & -1L)) == 0) ? 371 : 371): case ((((long) (1L & 0L)) == 0) ? 372 : 372): case ((((long) (1L & 1L)) == 0) ? 373 : 373): case ((((long) (1L & Long.MAX_VALUE)) == 0) ? 374 : 374): case ((((long) (Long.MAX_VALUE & Long.MIN_VALUE)) == 0) ? 375 : 375): case ((((long) (Long.MAX_VALUE & -1L)) == 0) ? 376 : 376): case ((((long) (Long.MAX_VALUE & 0L)) == 0) ? 377 : 377): case ((((long) (Long.MAX_VALUE & 1L)) == 0) ? 378 : 378): case ((((long) (Long.MAX_VALUE & Long.MAX_VALUE)) == 0) ? 379 : 379): case ((((long) (Long.MIN_VALUE ^ Long.MIN_VALUE)) == 0) ? 380 : 380): case ((((long) (Long.MIN_VALUE ^ -1L)) == 0) ? 381 : 381): case ((((long) (Long.MIN_VALUE ^ 0L)) == 0) ? 382 : 382): case ((((long) (Long.MIN_VALUE ^ 1L)) == 0) ? 383 : 383): case ((((long) (Long.MIN_VALUE ^ Long.MAX_VALUE)) == 0) ? 384 : 384): case ((((long) (-1L ^ Long.MIN_VALUE)) == 0) ? 385 : 385): case ((((long) (-1L ^ -1L)) == 0) ? 386 : 386): case ((((long) (-1L ^ 0L)) == 0) ? 387 : 387): case ((((long) (-1L ^ 1L)) == 0) ? 388 : 388): case ((((long) (-1L ^ Long.MAX_VALUE)) == 0) ? 389 : 389): case ((((long) (0L ^ Long.MIN_VALUE)) == 0) ? 390 : 390): case ((((long) (0L ^ -1L)) == 0) ? 391 : 391): case ((((long) (0L ^ 0L)) == 0) ? 392 : 392): case ((((long) (0L ^ 1L)) == 0) ? 393 : 393): case ((((long) (0L ^ Long.MAX_VALUE)) == 0) ? 394 : 394): case ((((long) (1L ^ Long.MIN_VALUE)) == 0) ? 395 : 395): case ((((long) (1L ^ -1L)) == 0) ? 396 : 396): case ((((long) (1L ^ 0L)) == 0) ? 397 : 397): case ((((long) (1L ^ 1L)) == 0) ? 398 : 398): case ((((long) (1L ^ Long.MAX_VALUE)) == 0) ? 399 : 399): case ((((long) (Long.MAX_VALUE ^ Long.MIN_VALUE)) == 0) ? 400 : 400): case ((((long) (Long.MAX_VALUE ^ -1L)) == 0) ? 401 : 401): case ((((long) (Long.MAX_VALUE ^ 0L)) == 0) ? 402 : 402): case ((((long) (Long.MAX_VALUE ^ 1L)) == 0) ? 403 : 403): case ((((long) (Long.MAX_VALUE ^ Long.MAX_VALUE)) == 0) ? 404 : 404): case ((((long) (Long.MIN_VALUE | Long.MIN_VALUE)) == 0) ? 405 : 405): case ((((long) (Long.MIN_VALUE | -1L)) == 0) ? 406 : 406): case ((((long) (Long.MIN_VALUE | 0L)) == 0) ? 407 : 407): case ((((long) (Long.MIN_VALUE | 1L)) == 0) ? 408 : 408): case ((((long) (Long.MIN_VALUE | Long.MAX_VALUE)) == 0) ? 409 : 409): case ((((long) (-1L | Long.MIN_VALUE)) == 0) ? 410 : 410): case ((((long) (-1L | -1L)) == 0) ? 411 : 411): case ((((long) (-1L | 0L)) == 0) ? 412 : 412): case ((((long) (-1L | 1L)) == 0) ? 413 : 413): case ((((long) (-1L | Long.MAX_VALUE)) == 0) ? 414 : 414): case ((((long) (0L | Long.MIN_VALUE)) == 0) ? 415 : 415): case ((((long) (0L | -1L)) == 0) ? 416 : 416): case ((((long) (0L | 0L)) == 0) ? 417 : 417): case ((((long) (0L | 1L)) == 0) ? 418 : 418): case ((((long) (0L | Long.MAX_VALUE)) == 0) ? 419 : 419): case ((((long) (1L | Long.MIN_VALUE)) == 0) ? 420 : 420): case ((((long) (1L | -1L)) == 0) ? 421 : 421): case ((((long) (1L | 0L)) == 0) ? 422 : 422): case ((((long) (1L | 1L)) == 0) ? 423 : 423): case ((((long) (1L | Long.MAX_VALUE)) == 0) ? 424 : 424): case ((((long) (Long.MAX_VALUE | Long.MIN_VALUE)) == 0) ? 425 : 425): case ((((long) (Long.MAX_VALUE | -1L)) == 0) ? 426 : 426): case ((((long) (Long.MAX_VALUE | 0L)) == 0) ? 427 : 427): case ((((long) (Long.MAX_VALUE | 1L)) == 0) ? 428 : 428): case ((((long) (Long.MAX_VALUE | Long.MAX_VALUE)) == 0) ? 429 : 429): default: } } // -------- // float tests static float floatPlus(float x) { return (float) + x; } static float floatMinus(float x) { return (float) - x; } static float floatTimes(float x, float y) { return (float) (x * y); } static float floatDiv(float x, float y) { return (float) (x / y); } static float floatRem(float x, float y) { return (float) (x % y); } static float floatAdd(float x, float y) { return (float) (x + y); } static float floatSub(float x, float y) { return (float) (x - y); } static boolean floatLt(float x, float y) { return x < y; } static boolean floatGt(float x, float y) { return x > y; } static boolean floatLe(float x, float y) { return x <= y; } static boolean floatGe(float x, float y) { return x >= y; } static boolean floatEq(float x, float y) { return x == y; } static boolean floatNe(float x, float y) { return x != y; } static void floatTest() { Tester.checkEqual(floatPlus(Float.NEGATIVE_INFINITY), (float) + Float.NEGATIVE_INFINITY, "(float) + Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatPlus(-1.0f), (float) + -1.0f, "(float) + -1.0f"); Tester.checkEqual(floatPlus(-0.0f), (float) + -0.0f, "(float) + -0.0f"); Tester.checkEqual(floatPlus(0.0f), (float) + 0.0f, "(float) + 0.0f"); Tester.checkEqual(floatPlus(Float.MIN_VALUE), (float) + Float.MIN_VALUE, "(float) + Float.MIN_VALUE"); Tester.checkEqual(floatPlus(1.0f), (float) + 1.0f, "(float) + 1.0f"); Tester.checkEqual(floatPlus(Float.MAX_VALUE), (float) + Float.MAX_VALUE, "(float) + Float.MAX_VALUE"); Tester.checkEqual(floatPlus(Float.POSITIVE_INFINITY), (float) + Float.POSITIVE_INFINITY, "(float) + Float.POSITIVE_INFINITY"); Tester.checkEqual(floatPlus(Float.NaN), (float) + Float.NaN, "(float) + Float.NaN"); Tester.checkEqual(floatMinus(Float.NEGATIVE_INFINITY), (float) - Float.NEGATIVE_INFINITY, "(float) - Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatMinus(-1.0f), (float) - -1.0f, "(float) - -1.0f"); Tester.checkEqual(floatMinus(-0.0f), (float) - -0.0f, "(float) - -0.0f"); Tester.checkEqual(floatMinus(0.0f), (float) - 0.0f, "(float) - 0.0f"); Tester.checkEqual(floatMinus(Float.MIN_VALUE), (float) - Float.MIN_VALUE, "(float) - Float.MIN_VALUE"); Tester.checkEqual(floatMinus(1.0f), (float) - 1.0f, "(float) - 1.0f"); Tester.checkEqual(floatMinus(Float.MAX_VALUE), (float) - Float.MAX_VALUE, "(float) - Float.MAX_VALUE"); Tester.checkEqual(floatMinus(Float.POSITIVE_INFINITY), (float) - Float.POSITIVE_INFINITY, "(float) - Float.POSITIVE_INFINITY"); Tester.checkEqual(floatMinus(Float.NaN), (float) - Float.NaN, "(float) - Float.NaN"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY * Float.NEGATIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, -1.0f), (float) (Float.NEGATIVE_INFINITY * -1.0f), "(float) (Float.NEGATIVE_INFINITY * -1.0f)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, -0.0f), (float) (Float.NEGATIVE_INFINITY * -0.0f), "(float) (Float.NEGATIVE_INFINITY * -0.0f)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, 0.0f), (float) (Float.NEGATIVE_INFINITY * 0.0f), "(float) (Float.NEGATIVE_INFINITY * 0.0f)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), (float) (Float.NEGATIVE_INFINITY * Float.MIN_VALUE), "(float) (Float.NEGATIVE_INFINITY * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, 1.0f), (float) (Float.NEGATIVE_INFINITY * 1.0f), "(float) (Float.NEGATIVE_INFINITY * 1.0f)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), (float) (Float.NEGATIVE_INFINITY * Float.MAX_VALUE), "(float) (Float.NEGATIVE_INFINITY * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY * Float.POSITIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.NEGATIVE_INFINITY, Float.NaN), (float) (Float.NEGATIVE_INFINITY * Float.NaN), "(float) (Float.NEGATIVE_INFINITY * Float.NaN)"); Tester.checkEqual(floatTimes(-1.0f, Float.NEGATIVE_INFINITY), (float) (-1.0f * Float.NEGATIVE_INFINITY), "(float) (-1.0f * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(-1.0f, -1.0f), (float) (-1.0f * -1.0f), "(float) (-1.0f * -1.0f)"); Tester.checkEqual(floatTimes(-1.0f, -0.0f), (float) (-1.0f * -0.0f), "(float) (-1.0f * -0.0f)"); Tester.checkEqual(floatTimes(-1.0f, 0.0f), (float) (-1.0f * 0.0f), "(float) (-1.0f * 0.0f)"); Tester.checkEqual(floatTimes(-1.0f, Float.MIN_VALUE), (float) (-1.0f * Float.MIN_VALUE), "(float) (-1.0f * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(-1.0f, 1.0f), (float) (-1.0f * 1.0f), "(float) (-1.0f * 1.0f)"); Tester.checkEqual(floatTimes(-1.0f, Float.MAX_VALUE), (float) (-1.0f * Float.MAX_VALUE), "(float) (-1.0f * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(-1.0f, Float.POSITIVE_INFINITY), (float) (-1.0f * Float.POSITIVE_INFINITY), "(float) (-1.0f * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(-1.0f, Float.NaN), (float) (-1.0f * Float.NaN), "(float) (-1.0f * Float.NaN)"); Tester.checkEqual(floatTimes(-0.0f, Float.NEGATIVE_INFINITY), (float) (-0.0f * Float.NEGATIVE_INFINITY), "(float) (-0.0f * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(-0.0f, -1.0f), (float) (-0.0f * -1.0f), "(float) (-0.0f * -1.0f)"); Tester.checkEqual(floatTimes(-0.0f, -0.0f), (float) (-0.0f * -0.0f), "(float) (-0.0f * -0.0f)"); Tester.checkEqual(floatTimes(-0.0f, 0.0f), (float) (-0.0f * 0.0f), "(float) (-0.0f * 0.0f)"); Tester.checkEqual(floatTimes(-0.0f, Float.MIN_VALUE), (float) (-0.0f * Float.MIN_VALUE), "(float) (-0.0f * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(-0.0f, 1.0f), (float) (-0.0f * 1.0f), "(float) (-0.0f * 1.0f)"); Tester.checkEqual(floatTimes(-0.0f, Float.MAX_VALUE), (float) (-0.0f * Float.MAX_VALUE), "(float) (-0.0f * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(-0.0f, Float.POSITIVE_INFINITY), (float) (-0.0f * Float.POSITIVE_INFINITY), "(float) (-0.0f * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(-0.0f, Float.NaN), (float) (-0.0f * Float.NaN), "(float) (-0.0f * Float.NaN)"); Tester.checkEqual(floatTimes(0.0f, Float.NEGATIVE_INFINITY), (float) (0.0f * Float.NEGATIVE_INFINITY), "(float) (0.0f * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(0.0f, -1.0f), (float) (0.0f * -1.0f), "(float) (0.0f * -1.0f)"); Tester.checkEqual(floatTimes(0.0f, -0.0f), (float) (0.0f * -0.0f), "(float) (0.0f * -0.0f)"); Tester.checkEqual(floatTimes(0.0f, 0.0f), (float) (0.0f * 0.0f), "(float) (0.0f * 0.0f)"); Tester.checkEqual(floatTimes(0.0f, Float.MIN_VALUE), (float) (0.0f * Float.MIN_VALUE), "(float) (0.0f * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(0.0f, 1.0f), (float) (0.0f * 1.0f), "(float) (0.0f * 1.0f)"); Tester.checkEqual(floatTimes(0.0f, Float.MAX_VALUE), (float) (0.0f * Float.MAX_VALUE), "(float) (0.0f * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(0.0f, Float.POSITIVE_INFINITY), (float) (0.0f * Float.POSITIVE_INFINITY), "(float) (0.0f * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(0.0f, Float.NaN), (float) (0.0f * Float.NaN), "(float) (0.0f * Float.NaN)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MIN_VALUE * Float.NEGATIVE_INFINITY), "(float) (Float.MIN_VALUE * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, -1.0f), (float) (Float.MIN_VALUE * -1.0f), "(float) (Float.MIN_VALUE * -1.0f)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, -0.0f), (float) (Float.MIN_VALUE * -0.0f), "(float) (Float.MIN_VALUE * -0.0f)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, 0.0f), (float) (Float.MIN_VALUE * 0.0f), "(float) (Float.MIN_VALUE * 0.0f)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, Float.MIN_VALUE), (float) (Float.MIN_VALUE * Float.MIN_VALUE), "(float) (Float.MIN_VALUE * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, 1.0f), (float) (Float.MIN_VALUE * 1.0f), "(float) (Float.MIN_VALUE * 1.0f)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, Float.MAX_VALUE), (float) (Float.MIN_VALUE * Float.MAX_VALUE), "(float) (Float.MIN_VALUE * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MIN_VALUE * Float.POSITIVE_INFINITY), "(float) (Float.MIN_VALUE * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.MIN_VALUE, Float.NaN), (float) (Float.MIN_VALUE * Float.NaN), "(float) (Float.MIN_VALUE * Float.NaN)"); Tester.checkEqual(floatTimes(1.0f, Float.NEGATIVE_INFINITY), (float) (1.0f * Float.NEGATIVE_INFINITY), "(float) (1.0f * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(1.0f, -1.0f), (float) (1.0f * -1.0f), "(float) (1.0f * -1.0f)"); Tester.checkEqual(floatTimes(1.0f, -0.0f), (float) (1.0f * -0.0f), "(float) (1.0f * -0.0f)"); Tester.checkEqual(floatTimes(1.0f, 0.0f), (float) (1.0f * 0.0f), "(float) (1.0f * 0.0f)"); Tester.checkEqual(floatTimes(1.0f, Float.MIN_VALUE), (float) (1.0f * Float.MIN_VALUE), "(float) (1.0f * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(1.0f, 1.0f), (float) (1.0f * 1.0f), "(float) (1.0f * 1.0f)"); Tester.checkEqual(floatTimes(1.0f, Float.MAX_VALUE), (float) (1.0f * Float.MAX_VALUE), "(float) (1.0f * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(1.0f, Float.POSITIVE_INFINITY), (float) (1.0f * Float.POSITIVE_INFINITY), "(float) (1.0f * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(1.0f, Float.NaN), (float) (1.0f * Float.NaN), "(float) (1.0f * Float.NaN)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MAX_VALUE * Float.NEGATIVE_INFINITY), "(float) (Float.MAX_VALUE * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, -1.0f), (float) (Float.MAX_VALUE * -1.0f), "(float) (Float.MAX_VALUE * -1.0f)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, -0.0f), (float) (Float.MAX_VALUE * -0.0f), "(float) (Float.MAX_VALUE * -0.0f)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, 0.0f), (float) (Float.MAX_VALUE * 0.0f), "(float) (Float.MAX_VALUE * 0.0f)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, Float.MIN_VALUE), (float) (Float.MAX_VALUE * Float.MIN_VALUE), "(float) (Float.MAX_VALUE * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, 1.0f), (float) (Float.MAX_VALUE * 1.0f), "(float) (Float.MAX_VALUE * 1.0f)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, Float.MAX_VALUE), (float) (Float.MAX_VALUE * Float.MAX_VALUE), "(float) (Float.MAX_VALUE * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MAX_VALUE * Float.POSITIVE_INFINITY), "(float) (Float.MAX_VALUE * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.MAX_VALUE, Float.NaN), (float) (Float.MAX_VALUE * Float.NaN), "(float) (Float.MAX_VALUE * Float.NaN)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.POSITIVE_INFINITY * Float.NEGATIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, -1.0f), (float) (Float.POSITIVE_INFINITY * -1.0f), "(float) (Float.POSITIVE_INFINITY * -1.0f)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, -0.0f), (float) (Float.POSITIVE_INFINITY * -0.0f), "(float) (Float.POSITIVE_INFINITY * -0.0f)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, 0.0f), (float) (Float.POSITIVE_INFINITY * 0.0f), "(float) (Float.POSITIVE_INFINITY * 0.0f)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, Float.MIN_VALUE), (float) (Float.POSITIVE_INFINITY * Float.MIN_VALUE), "(float) (Float.POSITIVE_INFINITY * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, 1.0f), (float) (Float.POSITIVE_INFINITY * 1.0f), "(float) (Float.POSITIVE_INFINITY * 1.0f)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, Float.MAX_VALUE), (float) (Float.POSITIVE_INFINITY * Float.MAX_VALUE), "(float) (Float.POSITIVE_INFINITY * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.POSITIVE_INFINITY * Float.POSITIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.POSITIVE_INFINITY, Float.NaN), (float) (Float.POSITIVE_INFINITY * Float.NaN), "(float) (Float.POSITIVE_INFINITY * Float.NaN)"); Tester.checkEqual(floatTimes(Float.NaN, Float.NEGATIVE_INFINITY), (float) (Float.NaN * Float.NEGATIVE_INFINITY), "(float) (Float.NaN * Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.NaN, -1.0f), (float) (Float.NaN * -1.0f), "(float) (Float.NaN * -1.0f)"); Tester.checkEqual(floatTimes(Float.NaN, -0.0f), (float) (Float.NaN * -0.0f), "(float) (Float.NaN * -0.0f)"); Tester.checkEqual(floatTimes(Float.NaN, 0.0f), (float) (Float.NaN * 0.0f), "(float) (Float.NaN * 0.0f)"); Tester.checkEqual(floatTimes(Float.NaN, Float.MIN_VALUE), (float) (Float.NaN * Float.MIN_VALUE), "(float) (Float.NaN * Float.MIN_VALUE)"); Tester.checkEqual(floatTimes(Float.NaN, 1.0f), (float) (Float.NaN * 1.0f), "(float) (Float.NaN * 1.0f)"); Tester.checkEqual(floatTimes(Float.NaN, Float.MAX_VALUE), (float) (Float.NaN * Float.MAX_VALUE), "(float) (Float.NaN * Float.MAX_VALUE)"); Tester.checkEqual(floatTimes(Float.NaN, Float.POSITIVE_INFINITY), (float) (Float.NaN * Float.POSITIVE_INFINITY), "(float) (Float.NaN * Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatTimes(Float.NaN, Float.NaN), (float) (Float.NaN * Float.NaN), "(float) (Float.NaN * Float.NaN)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY / Float.NEGATIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, -1.0f), (float) (Float.NEGATIVE_INFINITY / -1.0f), "(float) (Float.NEGATIVE_INFINITY / -1.0f)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, -0.0f), (float) (Float.NEGATIVE_INFINITY / -0.0f), "(float) (Float.NEGATIVE_INFINITY / -0.0f)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, 0.0f), (float) (Float.NEGATIVE_INFINITY / 0.0f), "(float) (Float.NEGATIVE_INFINITY / 0.0f)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), (float) (Float.NEGATIVE_INFINITY / Float.MIN_VALUE), "(float) (Float.NEGATIVE_INFINITY / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, 1.0f), (float) (Float.NEGATIVE_INFINITY / 1.0f), "(float) (Float.NEGATIVE_INFINITY / 1.0f)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), (float) (Float.NEGATIVE_INFINITY / Float.MAX_VALUE), "(float) (Float.NEGATIVE_INFINITY / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY / Float.POSITIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.NEGATIVE_INFINITY, Float.NaN), (float) (Float.NEGATIVE_INFINITY / Float.NaN), "(float) (Float.NEGATIVE_INFINITY / Float.NaN)"); Tester.checkEqual(floatDiv(-1.0f, Float.NEGATIVE_INFINITY), (float) (-1.0f / Float.NEGATIVE_INFINITY), "(float) (-1.0f / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(-1.0f, -1.0f), (float) (-1.0f / -1.0f), "(float) (-1.0f / -1.0f)"); Tester.checkEqual(floatDiv(-1.0f, -0.0f), (float) (-1.0f / -0.0f), "(float) (-1.0f / -0.0f)"); Tester.checkEqual(floatDiv(-1.0f, 0.0f), (float) (-1.0f / 0.0f), "(float) (-1.0f / 0.0f)"); Tester.checkEqual(floatDiv(-1.0f, Float.MIN_VALUE), (float) (-1.0f / Float.MIN_VALUE), "(float) (-1.0f / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(-1.0f, 1.0f), (float) (-1.0f / 1.0f), "(float) (-1.0f / 1.0f)"); Tester.checkEqual(floatDiv(-1.0f, Float.MAX_VALUE), (float) (-1.0f / Float.MAX_VALUE), "(float) (-1.0f / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(-1.0f, Float.POSITIVE_INFINITY), (float) (-1.0f / Float.POSITIVE_INFINITY), "(float) (-1.0f / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(-1.0f, Float.NaN), (float) (-1.0f / Float.NaN), "(float) (-1.0f / Float.NaN)"); Tester.checkEqual(floatDiv(-0.0f, Float.NEGATIVE_INFINITY), (float) (-0.0f / Float.NEGATIVE_INFINITY), "(float) (-0.0f / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(-0.0f, -1.0f), (float) (-0.0f / -1.0f), "(float) (-0.0f / -1.0f)"); Tester.checkEqual(floatDiv(-0.0f, -0.0f), (float) (-0.0f / -0.0f), "(float) (-0.0f / -0.0f)"); Tester.checkEqual(floatDiv(-0.0f, 0.0f), (float) (-0.0f / 0.0f), "(float) (-0.0f / 0.0f)"); Tester.checkEqual(floatDiv(-0.0f, Float.MIN_VALUE), (float) (-0.0f / Float.MIN_VALUE), "(float) (-0.0f / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(-0.0f, 1.0f), (float) (-0.0f / 1.0f), "(float) (-0.0f / 1.0f)"); Tester.checkEqual(floatDiv(-0.0f, Float.MAX_VALUE), (float) (-0.0f / Float.MAX_VALUE), "(float) (-0.0f / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(-0.0f, Float.POSITIVE_INFINITY), (float) (-0.0f / Float.POSITIVE_INFINITY), "(float) (-0.0f / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(-0.0f, Float.NaN), (float) (-0.0f / Float.NaN), "(float) (-0.0f / Float.NaN)"); Tester.checkEqual(floatDiv(0.0f, Float.NEGATIVE_INFINITY), (float) (0.0f / Float.NEGATIVE_INFINITY), "(float) (0.0f / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(0.0f, -1.0f), (float) (0.0f / -1.0f), "(float) (0.0f / -1.0f)"); Tester.checkEqual(floatDiv(0.0f, -0.0f), (float) (0.0f / -0.0f), "(float) (0.0f / -0.0f)"); Tester.checkEqual(floatDiv(0.0f, 0.0f), (float) (0.0f / 0.0f), "(float) (0.0f / 0.0f)"); Tester.checkEqual(floatDiv(0.0f, Float.MIN_VALUE), (float) (0.0f / Float.MIN_VALUE), "(float) (0.0f / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(0.0f, 1.0f), (float) (0.0f / 1.0f), "(float) (0.0f / 1.0f)"); Tester.checkEqual(floatDiv(0.0f, Float.MAX_VALUE), (float) (0.0f / Float.MAX_VALUE), "(float) (0.0f / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(0.0f, Float.POSITIVE_INFINITY), (float) (0.0f / Float.POSITIVE_INFINITY), "(float) (0.0f / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(0.0f, Float.NaN), (float) (0.0f / Float.NaN), "(float) (0.0f / Float.NaN)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MIN_VALUE / Float.NEGATIVE_INFINITY), "(float) (Float.MIN_VALUE / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, -1.0f), (float) (Float.MIN_VALUE / -1.0f), "(float) (Float.MIN_VALUE / -1.0f)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, -0.0f), (float) (Float.MIN_VALUE / -0.0f), "(float) (Float.MIN_VALUE / -0.0f)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, 0.0f), (float) (Float.MIN_VALUE / 0.0f), "(float) (Float.MIN_VALUE / 0.0f)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, Float.MIN_VALUE), (float) (Float.MIN_VALUE / Float.MIN_VALUE), "(float) (Float.MIN_VALUE / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, 1.0f), (float) (Float.MIN_VALUE / 1.0f), "(float) (Float.MIN_VALUE / 1.0f)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, Float.MAX_VALUE), (float) (Float.MIN_VALUE / Float.MAX_VALUE), "(float) (Float.MIN_VALUE / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MIN_VALUE / Float.POSITIVE_INFINITY), "(float) (Float.MIN_VALUE / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.MIN_VALUE, Float.NaN), (float) (Float.MIN_VALUE / Float.NaN), "(float) (Float.MIN_VALUE / Float.NaN)"); Tester.checkEqual(floatDiv(1.0f, Float.NEGATIVE_INFINITY), (float) (1.0f / Float.NEGATIVE_INFINITY), "(float) (1.0f / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(1.0f, -1.0f), (float) (1.0f / -1.0f), "(float) (1.0f / -1.0f)"); Tester.checkEqual(floatDiv(1.0f, -0.0f), (float) (1.0f / -0.0f), "(float) (1.0f / -0.0f)"); Tester.checkEqual(floatDiv(1.0f, 0.0f), (float) (1.0f / 0.0f), "(float) (1.0f / 0.0f)"); Tester.checkEqual(floatDiv(1.0f, Float.MIN_VALUE), (float) (1.0f / Float.MIN_VALUE), "(float) (1.0f / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(1.0f, 1.0f), (float) (1.0f / 1.0f), "(float) (1.0f / 1.0f)"); Tester.checkEqual(floatDiv(1.0f, Float.MAX_VALUE), (float) (1.0f / Float.MAX_VALUE), "(float) (1.0f / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(1.0f, Float.POSITIVE_INFINITY), (float) (1.0f / Float.POSITIVE_INFINITY), "(float) (1.0f / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(1.0f, Float.NaN), (float) (1.0f / Float.NaN), "(float) (1.0f / Float.NaN)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MAX_VALUE / Float.NEGATIVE_INFINITY), "(float) (Float.MAX_VALUE / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, -1.0f), (float) (Float.MAX_VALUE / -1.0f), "(float) (Float.MAX_VALUE / -1.0f)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, -0.0f), (float) (Float.MAX_VALUE / -0.0f), "(float) (Float.MAX_VALUE / -0.0f)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, 0.0f), (float) (Float.MAX_VALUE / 0.0f), "(float) (Float.MAX_VALUE / 0.0f)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, Float.MIN_VALUE), (float) (Float.MAX_VALUE / Float.MIN_VALUE), "(float) (Float.MAX_VALUE / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, 1.0f), (float) (Float.MAX_VALUE / 1.0f), "(float) (Float.MAX_VALUE / 1.0f)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, Float.MAX_VALUE), (float) (Float.MAX_VALUE / Float.MAX_VALUE), "(float) (Float.MAX_VALUE / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MAX_VALUE / Float.POSITIVE_INFINITY), "(float) (Float.MAX_VALUE / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.MAX_VALUE, Float.NaN), (float) (Float.MAX_VALUE / Float.NaN), "(float) (Float.MAX_VALUE / Float.NaN)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.POSITIVE_INFINITY / Float.NEGATIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, -1.0f), (float) (Float.POSITIVE_INFINITY / -1.0f), "(float) (Float.POSITIVE_INFINITY / -1.0f)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, -0.0f), (float) (Float.POSITIVE_INFINITY / -0.0f), "(float) (Float.POSITIVE_INFINITY / -0.0f)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, 0.0f), (float) (Float.POSITIVE_INFINITY / 0.0f), "(float) (Float.POSITIVE_INFINITY / 0.0f)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, Float.MIN_VALUE), (float) (Float.POSITIVE_INFINITY / Float.MIN_VALUE), "(float) (Float.POSITIVE_INFINITY / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, 1.0f), (float) (Float.POSITIVE_INFINITY / 1.0f), "(float) (Float.POSITIVE_INFINITY / 1.0f)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, Float.MAX_VALUE), (float) (Float.POSITIVE_INFINITY / Float.MAX_VALUE), "(float) (Float.POSITIVE_INFINITY / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.POSITIVE_INFINITY / Float.POSITIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.POSITIVE_INFINITY, Float.NaN), (float) (Float.POSITIVE_INFINITY / Float.NaN), "(float) (Float.POSITIVE_INFINITY / Float.NaN)"); Tester.checkEqual(floatDiv(Float.NaN, Float.NEGATIVE_INFINITY), (float) (Float.NaN / Float.NEGATIVE_INFINITY), "(float) (Float.NaN / Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.NaN, -1.0f), (float) (Float.NaN / -1.0f), "(float) (Float.NaN / -1.0f)"); Tester.checkEqual(floatDiv(Float.NaN, -0.0f), (float) (Float.NaN / -0.0f), "(float) (Float.NaN / -0.0f)"); Tester.checkEqual(floatDiv(Float.NaN, 0.0f), (float) (Float.NaN / 0.0f), "(float) (Float.NaN / 0.0f)"); Tester.checkEqual(floatDiv(Float.NaN, Float.MIN_VALUE), (float) (Float.NaN / Float.MIN_VALUE), "(float) (Float.NaN / Float.MIN_VALUE)"); Tester.checkEqual(floatDiv(Float.NaN, 1.0f), (float) (Float.NaN / 1.0f), "(float) (Float.NaN / 1.0f)"); Tester.checkEqual(floatDiv(Float.NaN, Float.MAX_VALUE), (float) (Float.NaN / Float.MAX_VALUE), "(float) (Float.NaN / Float.MAX_VALUE)"); Tester.checkEqual(floatDiv(Float.NaN, Float.POSITIVE_INFINITY), (float) (Float.NaN / Float.POSITIVE_INFINITY), "(float) (Float.NaN / Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatDiv(Float.NaN, Float.NaN), (float) (Float.NaN / Float.NaN), "(float) (Float.NaN / Float.NaN)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY % Float.NEGATIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, -1.0f), (float) (Float.NEGATIVE_INFINITY % -1.0f), "(float) (Float.NEGATIVE_INFINITY % -1.0f)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, -0.0f), (float) (Float.NEGATIVE_INFINITY % -0.0f), "(float) (Float.NEGATIVE_INFINITY % -0.0f)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, 0.0f), (float) (Float.NEGATIVE_INFINITY % 0.0f), "(float) (Float.NEGATIVE_INFINITY % 0.0f)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), (float) (Float.NEGATIVE_INFINITY % Float.MIN_VALUE), "(float) (Float.NEGATIVE_INFINITY % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, 1.0f), (float) (Float.NEGATIVE_INFINITY % 1.0f), "(float) (Float.NEGATIVE_INFINITY % 1.0f)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), (float) (Float.NEGATIVE_INFINITY % Float.MAX_VALUE), "(float) (Float.NEGATIVE_INFINITY % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY % Float.POSITIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.NEGATIVE_INFINITY, Float.NaN), (float) (Float.NEGATIVE_INFINITY % Float.NaN), "(float) (Float.NEGATIVE_INFINITY % Float.NaN)"); Tester.checkEqual(floatRem(-1.0f, Float.NEGATIVE_INFINITY), (float) (-1.0f % Float.NEGATIVE_INFINITY), "(float) (-1.0f % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(-1.0f, -1.0f), (float) (-1.0f % -1.0f), "(float) (-1.0f % -1.0f)"); Tester.checkEqual(floatRem(-1.0f, -0.0f), (float) (-1.0f % -0.0f), "(float) (-1.0f % -0.0f)"); Tester.checkEqual(floatRem(-1.0f, 0.0f), (float) (-1.0f % 0.0f), "(float) (-1.0f % 0.0f)"); Tester.checkEqual(floatRem(-1.0f, Float.MIN_VALUE), (float) (-1.0f % Float.MIN_VALUE), "(float) (-1.0f % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(-1.0f, 1.0f), (float) (-1.0f % 1.0f), "(float) (-1.0f % 1.0f)"); Tester.checkEqual(floatRem(-1.0f, Float.MAX_VALUE), (float) (-1.0f % Float.MAX_VALUE), "(float) (-1.0f % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(-1.0f, Float.POSITIVE_INFINITY), (float) (-1.0f % Float.POSITIVE_INFINITY), "(float) (-1.0f % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(-1.0f, Float.NaN), (float) (-1.0f % Float.NaN), "(float) (-1.0f % Float.NaN)"); Tester.checkEqual(floatRem(-0.0f, Float.NEGATIVE_INFINITY), (float) (-0.0f % Float.NEGATIVE_INFINITY), "(float) (-0.0f % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(-0.0f, -1.0f), (float) (-0.0f % -1.0f), "(float) (-0.0f % -1.0f)"); Tester.checkEqual(floatRem(-0.0f, -0.0f), (float) (-0.0f % -0.0f), "(float) (-0.0f % -0.0f)"); Tester.checkEqual(floatRem(-0.0f, 0.0f), (float) (-0.0f % 0.0f), "(float) (-0.0f % 0.0f)"); Tester.checkEqual(floatRem(-0.0f, Float.MIN_VALUE), (float) (-0.0f % Float.MIN_VALUE), "(float) (-0.0f % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(-0.0f, 1.0f), (float) (-0.0f % 1.0f), "(float) (-0.0f % 1.0f)"); Tester.checkEqual(floatRem(-0.0f, Float.MAX_VALUE), (float) (-0.0f % Float.MAX_VALUE), "(float) (-0.0f % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(-0.0f, Float.POSITIVE_INFINITY), (float) (-0.0f % Float.POSITIVE_INFINITY), "(float) (-0.0f % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(-0.0f, Float.NaN), (float) (-0.0f % Float.NaN), "(float) (-0.0f % Float.NaN)"); Tester.checkEqual(floatRem(0.0f, Float.NEGATIVE_INFINITY), (float) (0.0f % Float.NEGATIVE_INFINITY), "(float) (0.0f % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(0.0f, -1.0f), (float) (0.0f % -1.0f), "(float) (0.0f % -1.0f)"); Tester.checkEqual(floatRem(0.0f, -0.0f), (float) (0.0f % -0.0f), "(float) (0.0f % -0.0f)"); Tester.checkEqual(floatRem(0.0f, 0.0f), (float) (0.0f % 0.0f), "(float) (0.0f % 0.0f)"); Tester.checkEqual(floatRem(0.0f, Float.MIN_VALUE), (float) (0.0f % Float.MIN_VALUE), "(float) (0.0f % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(0.0f, 1.0f), (float) (0.0f % 1.0f), "(float) (0.0f % 1.0f)"); Tester.checkEqual(floatRem(0.0f, Float.MAX_VALUE), (float) (0.0f % Float.MAX_VALUE), "(float) (0.0f % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(0.0f, Float.POSITIVE_INFINITY), (float) (0.0f % Float.POSITIVE_INFINITY), "(float) (0.0f % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(0.0f, Float.NaN), (float) (0.0f % Float.NaN), "(float) (0.0f % Float.NaN)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MIN_VALUE % Float.NEGATIVE_INFINITY), "(float) (Float.MIN_VALUE % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, -1.0f), (float) (Float.MIN_VALUE % -1.0f), "(float) (Float.MIN_VALUE % -1.0f)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, -0.0f), (float) (Float.MIN_VALUE % -0.0f), "(float) (Float.MIN_VALUE % -0.0f)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, 0.0f), (float) (Float.MIN_VALUE % 0.0f), "(float) (Float.MIN_VALUE % 0.0f)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, Float.MIN_VALUE), (float) (Float.MIN_VALUE % Float.MIN_VALUE), "(float) (Float.MIN_VALUE % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, 1.0f), (float) (Float.MIN_VALUE % 1.0f), "(float) (Float.MIN_VALUE % 1.0f)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, Float.MAX_VALUE), (float) (Float.MIN_VALUE % Float.MAX_VALUE), "(float) (Float.MIN_VALUE % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MIN_VALUE % Float.POSITIVE_INFINITY), "(float) (Float.MIN_VALUE % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.MIN_VALUE, Float.NaN), (float) (Float.MIN_VALUE % Float.NaN), "(float) (Float.MIN_VALUE % Float.NaN)"); Tester.checkEqual(floatRem(1.0f, Float.NEGATIVE_INFINITY), (float) (1.0f % Float.NEGATIVE_INFINITY), "(float) (1.0f % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(1.0f, -1.0f), (float) (1.0f % -1.0f), "(float) (1.0f % -1.0f)"); Tester.checkEqual(floatRem(1.0f, -0.0f), (float) (1.0f % -0.0f), "(float) (1.0f % -0.0f)"); Tester.checkEqual(floatRem(1.0f, 0.0f), (float) (1.0f % 0.0f), "(float) (1.0f % 0.0f)"); Tester.checkEqual(floatRem(1.0f, Float.MIN_VALUE), (float) (1.0f % Float.MIN_VALUE), "(float) (1.0f % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(1.0f, 1.0f), (float) (1.0f % 1.0f), "(float) (1.0f % 1.0f)"); Tester.checkEqual(floatRem(1.0f, Float.MAX_VALUE), (float) (1.0f % Float.MAX_VALUE), "(float) (1.0f % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(1.0f, Float.POSITIVE_INFINITY), (float) (1.0f % Float.POSITIVE_INFINITY), "(float) (1.0f % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(1.0f, Float.NaN), (float) (1.0f % Float.NaN), "(float) (1.0f % Float.NaN)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MAX_VALUE % Float.NEGATIVE_INFINITY), "(float) (Float.MAX_VALUE % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, -1.0f), (float) (Float.MAX_VALUE % -1.0f), "(float) (Float.MAX_VALUE % -1.0f)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, -0.0f), (float) (Float.MAX_VALUE % -0.0f), "(float) (Float.MAX_VALUE % -0.0f)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, 0.0f), (float) (Float.MAX_VALUE % 0.0f), "(float) (Float.MAX_VALUE % 0.0f)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, Float.MIN_VALUE), (float) (Float.MAX_VALUE % Float.MIN_VALUE), "(float) (Float.MAX_VALUE % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, 1.0f), (float) (Float.MAX_VALUE % 1.0f), "(float) (Float.MAX_VALUE % 1.0f)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, Float.MAX_VALUE), (float) (Float.MAX_VALUE % Float.MAX_VALUE), "(float) (Float.MAX_VALUE % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MAX_VALUE % Float.POSITIVE_INFINITY), "(float) (Float.MAX_VALUE % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.MAX_VALUE, Float.NaN), (float) (Float.MAX_VALUE % Float.NaN), "(float) (Float.MAX_VALUE % Float.NaN)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.POSITIVE_INFINITY % Float.NEGATIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, -1.0f), (float) (Float.POSITIVE_INFINITY % -1.0f), "(float) (Float.POSITIVE_INFINITY % -1.0f)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, -0.0f), (float) (Float.POSITIVE_INFINITY % -0.0f), "(float) (Float.POSITIVE_INFINITY % -0.0f)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, 0.0f), (float) (Float.POSITIVE_INFINITY % 0.0f), "(float) (Float.POSITIVE_INFINITY % 0.0f)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, Float.MIN_VALUE), (float) (Float.POSITIVE_INFINITY % Float.MIN_VALUE), "(float) (Float.POSITIVE_INFINITY % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, 1.0f), (float) (Float.POSITIVE_INFINITY % 1.0f), "(float) (Float.POSITIVE_INFINITY % 1.0f)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, Float.MAX_VALUE), (float) (Float.POSITIVE_INFINITY % Float.MAX_VALUE), "(float) (Float.POSITIVE_INFINITY % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.POSITIVE_INFINITY % Float.POSITIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.POSITIVE_INFINITY, Float.NaN), (float) (Float.POSITIVE_INFINITY % Float.NaN), "(float) (Float.POSITIVE_INFINITY % Float.NaN)"); Tester.checkEqual(floatRem(Float.NaN, Float.NEGATIVE_INFINITY), (float) (Float.NaN % Float.NEGATIVE_INFINITY), "(float) (Float.NaN % Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.NaN, -1.0f), (float) (Float.NaN % -1.0f), "(float) (Float.NaN % -1.0f)"); Tester.checkEqual(floatRem(Float.NaN, -0.0f), (float) (Float.NaN % -0.0f), "(float) (Float.NaN % -0.0f)"); Tester.checkEqual(floatRem(Float.NaN, 0.0f), (float) (Float.NaN % 0.0f), "(float) (Float.NaN % 0.0f)"); Tester.checkEqual(floatRem(Float.NaN, Float.MIN_VALUE), (float) (Float.NaN % Float.MIN_VALUE), "(float) (Float.NaN % Float.MIN_VALUE)"); Tester.checkEqual(floatRem(Float.NaN, 1.0f), (float) (Float.NaN % 1.0f), "(float) (Float.NaN % 1.0f)"); Tester.checkEqual(floatRem(Float.NaN, Float.MAX_VALUE), (float) (Float.NaN % Float.MAX_VALUE), "(float) (Float.NaN % Float.MAX_VALUE)"); Tester.checkEqual(floatRem(Float.NaN, Float.POSITIVE_INFINITY), (float) (Float.NaN % Float.POSITIVE_INFINITY), "(float) (Float.NaN % Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatRem(Float.NaN, Float.NaN), (float) (Float.NaN % Float.NaN), "(float) (Float.NaN % Float.NaN)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY + Float.NEGATIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, -1.0f), (float) (Float.NEGATIVE_INFINITY + -1.0f), "(float) (Float.NEGATIVE_INFINITY + -1.0f)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, -0.0f), (float) (Float.NEGATIVE_INFINITY + -0.0f), "(float) (Float.NEGATIVE_INFINITY + -0.0f)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, 0.0f), (float) (Float.NEGATIVE_INFINITY + 0.0f), "(float) (Float.NEGATIVE_INFINITY + 0.0f)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), (float) (Float.NEGATIVE_INFINITY + Float.MIN_VALUE), "(float) (Float.NEGATIVE_INFINITY + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, 1.0f), (float) (Float.NEGATIVE_INFINITY + 1.0f), "(float) (Float.NEGATIVE_INFINITY + 1.0f)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), (float) (Float.NEGATIVE_INFINITY + Float.MAX_VALUE), "(float) (Float.NEGATIVE_INFINITY + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY + Float.POSITIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.NEGATIVE_INFINITY, Float.NaN), (float) (Float.NEGATIVE_INFINITY + Float.NaN), "(float) (Float.NEGATIVE_INFINITY + Float.NaN)"); Tester.checkEqual(floatAdd(-1.0f, Float.NEGATIVE_INFINITY), (float) (-1.0f + Float.NEGATIVE_INFINITY), "(float) (-1.0f + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(-1.0f, -1.0f), (float) (-1.0f + -1.0f), "(float) (-1.0f + -1.0f)"); Tester.checkEqual(floatAdd(-1.0f, -0.0f), (float) (-1.0f + -0.0f), "(float) (-1.0f + -0.0f)"); Tester.checkEqual(floatAdd(-1.0f, 0.0f), (float) (-1.0f + 0.0f), "(float) (-1.0f + 0.0f)"); Tester.checkEqual(floatAdd(-1.0f, Float.MIN_VALUE), (float) (-1.0f + Float.MIN_VALUE), "(float) (-1.0f + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(-1.0f, 1.0f), (float) (-1.0f + 1.0f), "(float) (-1.0f + 1.0f)"); Tester.checkEqual(floatAdd(-1.0f, Float.MAX_VALUE), (float) (-1.0f + Float.MAX_VALUE), "(float) (-1.0f + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(-1.0f, Float.POSITIVE_INFINITY), (float) (-1.0f + Float.POSITIVE_INFINITY), "(float) (-1.0f + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(-1.0f, Float.NaN), (float) (-1.0f + Float.NaN), "(float) (-1.0f + Float.NaN)"); Tester.checkEqual(floatAdd(-0.0f, Float.NEGATIVE_INFINITY), (float) (-0.0f + Float.NEGATIVE_INFINITY), "(float) (-0.0f + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(-0.0f, -1.0f), (float) (-0.0f + -1.0f), "(float) (-0.0f + -1.0f)"); Tester.checkEqual(floatAdd(-0.0f, -0.0f), (float) (-0.0f + -0.0f), "(float) (-0.0f + -0.0f)"); Tester.checkEqual(floatAdd(-0.0f, 0.0f), (float) (-0.0f + 0.0f), "(float) (-0.0f + 0.0f)"); Tester.checkEqual(floatAdd(-0.0f, Float.MIN_VALUE), (float) (-0.0f + Float.MIN_VALUE), "(float) (-0.0f + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(-0.0f, 1.0f), (float) (-0.0f + 1.0f), "(float) (-0.0f + 1.0f)"); Tester.checkEqual(floatAdd(-0.0f, Float.MAX_VALUE), (float) (-0.0f + Float.MAX_VALUE), "(float) (-0.0f + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(-0.0f, Float.POSITIVE_INFINITY), (float) (-0.0f + Float.POSITIVE_INFINITY), "(float) (-0.0f + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(-0.0f, Float.NaN), (float) (-0.0f + Float.NaN), "(float) (-0.0f + Float.NaN)"); Tester.checkEqual(floatAdd(0.0f, Float.NEGATIVE_INFINITY), (float) (0.0f + Float.NEGATIVE_INFINITY), "(float) (0.0f + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(0.0f, -1.0f), (float) (0.0f + -1.0f), "(float) (0.0f + -1.0f)"); Tester.checkEqual(floatAdd(0.0f, -0.0f), (float) (0.0f + -0.0f), "(float) (0.0f + -0.0f)"); Tester.checkEqual(floatAdd(0.0f, 0.0f), (float) (0.0f + 0.0f), "(float) (0.0f + 0.0f)"); Tester.checkEqual(floatAdd(0.0f, Float.MIN_VALUE), (float) (0.0f + Float.MIN_VALUE), "(float) (0.0f + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(0.0f, 1.0f), (float) (0.0f + 1.0f), "(float) (0.0f + 1.0f)"); Tester.checkEqual(floatAdd(0.0f, Float.MAX_VALUE), (float) (0.0f + Float.MAX_VALUE), "(float) (0.0f + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(0.0f, Float.POSITIVE_INFINITY), (float) (0.0f + Float.POSITIVE_INFINITY), "(float) (0.0f + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(0.0f, Float.NaN), (float) (0.0f + Float.NaN), "(float) (0.0f + Float.NaN)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MIN_VALUE + Float.NEGATIVE_INFINITY), "(float) (Float.MIN_VALUE + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, -1.0f), (float) (Float.MIN_VALUE + -1.0f), "(float) (Float.MIN_VALUE + -1.0f)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, -0.0f), (float) (Float.MIN_VALUE + -0.0f), "(float) (Float.MIN_VALUE + -0.0f)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, 0.0f), (float) (Float.MIN_VALUE + 0.0f), "(float) (Float.MIN_VALUE + 0.0f)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, Float.MIN_VALUE), (float) (Float.MIN_VALUE + Float.MIN_VALUE), "(float) (Float.MIN_VALUE + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, 1.0f), (float) (Float.MIN_VALUE + 1.0f), "(float) (Float.MIN_VALUE + 1.0f)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, Float.MAX_VALUE), (float) (Float.MIN_VALUE + Float.MAX_VALUE), "(float) (Float.MIN_VALUE + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MIN_VALUE + Float.POSITIVE_INFINITY), "(float) (Float.MIN_VALUE + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.MIN_VALUE, Float.NaN), (float) (Float.MIN_VALUE + Float.NaN), "(float) (Float.MIN_VALUE + Float.NaN)"); Tester.checkEqual(floatAdd(1.0f, Float.NEGATIVE_INFINITY), (float) (1.0f + Float.NEGATIVE_INFINITY), "(float) (1.0f + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(1.0f, -1.0f), (float) (1.0f + -1.0f), "(float) (1.0f + -1.0f)"); Tester.checkEqual(floatAdd(1.0f, -0.0f), (float) (1.0f + -0.0f), "(float) (1.0f + -0.0f)"); Tester.checkEqual(floatAdd(1.0f, 0.0f), (float) (1.0f + 0.0f), "(float) (1.0f + 0.0f)"); Tester.checkEqual(floatAdd(1.0f, Float.MIN_VALUE), (float) (1.0f + Float.MIN_VALUE), "(float) (1.0f + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(1.0f, 1.0f), (float) (1.0f + 1.0f), "(float) (1.0f + 1.0f)"); Tester.checkEqual(floatAdd(1.0f, Float.MAX_VALUE), (float) (1.0f + Float.MAX_VALUE), "(float) (1.0f + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(1.0f, Float.POSITIVE_INFINITY), (float) (1.0f + Float.POSITIVE_INFINITY), "(float) (1.0f + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(1.0f, Float.NaN), (float) (1.0f + Float.NaN), "(float) (1.0f + Float.NaN)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MAX_VALUE + Float.NEGATIVE_INFINITY), "(float) (Float.MAX_VALUE + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, -1.0f), (float) (Float.MAX_VALUE + -1.0f), "(float) (Float.MAX_VALUE + -1.0f)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, -0.0f), (float) (Float.MAX_VALUE + -0.0f), "(float) (Float.MAX_VALUE + -0.0f)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, 0.0f), (float) (Float.MAX_VALUE + 0.0f), "(float) (Float.MAX_VALUE + 0.0f)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, Float.MIN_VALUE), (float) (Float.MAX_VALUE + Float.MIN_VALUE), "(float) (Float.MAX_VALUE + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, 1.0f), (float) (Float.MAX_VALUE + 1.0f), "(float) (Float.MAX_VALUE + 1.0f)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, Float.MAX_VALUE), (float) (Float.MAX_VALUE + Float.MAX_VALUE), "(float) (Float.MAX_VALUE + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MAX_VALUE + Float.POSITIVE_INFINITY), "(float) (Float.MAX_VALUE + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.MAX_VALUE, Float.NaN), (float) (Float.MAX_VALUE + Float.NaN), "(float) (Float.MAX_VALUE + Float.NaN)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.POSITIVE_INFINITY + Float.NEGATIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, -1.0f), (float) (Float.POSITIVE_INFINITY + -1.0f), "(float) (Float.POSITIVE_INFINITY + -1.0f)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, -0.0f), (float) (Float.POSITIVE_INFINITY + -0.0f), "(float) (Float.POSITIVE_INFINITY + -0.0f)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, 0.0f), (float) (Float.POSITIVE_INFINITY + 0.0f), "(float) (Float.POSITIVE_INFINITY + 0.0f)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, Float.MIN_VALUE), (float) (Float.POSITIVE_INFINITY + Float.MIN_VALUE), "(float) (Float.POSITIVE_INFINITY + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, 1.0f), (float) (Float.POSITIVE_INFINITY + 1.0f), "(float) (Float.POSITIVE_INFINITY + 1.0f)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, Float.MAX_VALUE), (float) (Float.POSITIVE_INFINITY + Float.MAX_VALUE), "(float) (Float.POSITIVE_INFINITY + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.POSITIVE_INFINITY + Float.POSITIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.POSITIVE_INFINITY, Float.NaN), (float) (Float.POSITIVE_INFINITY + Float.NaN), "(float) (Float.POSITIVE_INFINITY + Float.NaN)"); Tester.checkEqual(floatAdd(Float.NaN, Float.NEGATIVE_INFINITY), (float) (Float.NaN + Float.NEGATIVE_INFINITY), "(float) (Float.NaN + Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.NaN, -1.0f), (float) (Float.NaN + -1.0f), "(float) (Float.NaN + -1.0f)"); Tester.checkEqual(floatAdd(Float.NaN, -0.0f), (float) (Float.NaN + -0.0f), "(float) (Float.NaN + -0.0f)"); Tester.checkEqual(floatAdd(Float.NaN, 0.0f), (float) (Float.NaN + 0.0f), "(float) (Float.NaN + 0.0f)"); Tester.checkEqual(floatAdd(Float.NaN, Float.MIN_VALUE), (float) (Float.NaN + Float.MIN_VALUE), "(float) (Float.NaN + Float.MIN_VALUE)"); Tester.checkEqual(floatAdd(Float.NaN, 1.0f), (float) (Float.NaN + 1.0f), "(float) (Float.NaN + 1.0f)"); Tester.checkEqual(floatAdd(Float.NaN, Float.MAX_VALUE), (float) (Float.NaN + Float.MAX_VALUE), "(float) (Float.NaN + Float.MAX_VALUE)"); Tester.checkEqual(floatAdd(Float.NaN, Float.POSITIVE_INFINITY), (float) (Float.NaN + Float.POSITIVE_INFINITY), "(float) (Float.NaN + Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatAdd(Float.NaN, Float.NaN), (float) (Float.NaN + Float.NaN), "(float) (Float.NaN + Float.NaN)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY - Float.NEGATIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, -1.0f), (float) (Float.NEGATIVE_INFINITY - -1.0f), "(float) (Float.NEGATIVE_INFINITY - -1.0f)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, -0.0f), (float) (Float.NEGATIVE_INFINITY - -0.0f), "(float) (Float.NEGATIVE_INFINITY - -0.0f)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, 0.0f), (float) (Float.NEGATIVE_INFINITY - 0.0f), "(float) (Float.NEGATIVE_INFINITY - 0.0f)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), (float) (Float.NEGATIVE_INFINITY - Float.MIN_VALUE), "(float) (Float.NEGATIVE_INFINITY - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, 1.0f), (float) (Float.NEGATIVE_INFINITY - 1.0f), "(float) (Float.NEGATIVE_INFINITY - 1.0f)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), (float) (Float.NEGATIVE_INFINITY - Float.MAX_VALUE), "(float) (Float.NEGATIVE_INFINITY - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.NEGATIVE_INFINITY - Float.POSITIVE_INFINITY), "(float) (Float.NEGATIVE_INFINITY - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.NEGATIVE_INFINITY, Float.NaN), (float) (Float.NEGATIVE_INFINITY - Float.NaN), "(float) (Float.NEGATIVE_INFINITY - Float.NaN)"); Tester.checkEqual(floatSub(-1.0f, Float.NEGATIVE_INFINITY), (float) (-1.0f - Float.NEGATIVE_INFINITY), "(float) (-1.0f - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(-1.0f, -1.0f), (float) (-1.0f - -1.0f), "(float) (-1.0f - -1.0f)"); Tester.checkEqual(floatSub(-1.0f, -0.0f), (float) (-1.0f - -0.0f), "(float) (-1.0f - -0.0f)"); Tester.checkEqual(floatSub(-1.0f, 0.0f), (float) (-1.0f - 0.0f), "(float) (-1.0f - 0.0f)"); Tester.checkEqual(floatSub(-1.0f, Float.MIN_VALUE), (float) (-1.0f - Float.MIN_VALUE), "(float) (-1.0f - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(-1.0f, 1.0f), (float) (-1.0f - 1.0f), "(float) (-1.0f - 1.0f)"); Tester.checkEqual(floatSub(-1.0f, Float.MAX_VALUE), (float) (-1.0f - Float.MAX_VALUE), "(float) (-1.0f - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(-1.0f, Float.POSITIVE_INFINITY), (float) (-1.0f - Float.POSITIVE_INFINITY), "(float) (-1.0f - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(-1.0f, Float.NaN), (float) (-1.0f - Float.NaN), "(float) (-1.0f - Float.NaN)"); Tester.checkEqual(floatSub(-0.0f, Float.NEGATIVE_INFINITY), (float) (-0.0f - Float.NEGATIVE_INFINITY), "(float) (-0.0f - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(-0.0f, -1.0f), (float) (-0.0f - -1.0f), "(float) (-0.0f - -1.0f)"); Tester.checkEqual(floatSub(-0.0f, -0.0f), (float) (-0.0f - -0.0f), "(float) (-0.0f - -0.0f)"); Tester.checkEqual(floatSub(-0.0f, 0.0f), (float) (-0.0f - 0.0f), "(float) (-0.0f - 0.0f)"); Tester.checkEqual(floatSub(-0.0f, Float.MIN_VALUE), (float) (-0.0f - Float.MIN_VALUE), "(float) (-0.0f - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(-0.0f, 1.0f), (float) (-0.0f - 1.0f), "(float) (-0.0f - 1.0f)"); Tester.checkEqual(floatSub(-0.0f, Float.MAX_VALUE), (float) (-0.0f - Float.MAX_VALUE), "(float) (-0.0f - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(-0.0f, Float.POSITIVE_INFINITY), (float) (-0.0f - Float.POSITIVE_INFINITY), "(float) (-0.0f - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(-0.0f, Float.NaN), (float) (-0.0f - Float.NaN), "(float) (-0.0f - Float.NaN)"); Tester.checkEqual(floatSub(0.0f, Float.NEGATIVE_INFINITY), (float) (0.0f - Float.NEGATIVE_INFINITY), "(float) (0.0f - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(0.0f, -1.0f), (float) (0.0f - -1.0f), "(float) (0.0f - -1.0f)"); Tester.checkEqual(floatSub(0.0f, -0.0f), (float) (0.0f - -0.0f), "(float) (0.0f - -0.0f)"); Tester.checkEqual(floatSub(0.0f, 0.0f), (float) (0.0f - 0.0f), "(float) (0.0f - 0.0f)"); Tester.checkEqual(floatSub(0.0f, Float.MIN_VALUE), (float) (0.0f - Float.MIN_VALUE), "(float) (0.0f - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(0.0f, 1.0f), (float) (0.0f - 1.0f), "(float) (0.0f - 1.0f)"); Tester.checkEqual(floatSub(0.0f, Float.MAX_VALUE), (float) (0.0f - Float.MAX_VALUE), "(float) (0.0f - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(0.0f, Float.POSITIVE_INFINITY), (float) (0.0f - Float.POSITIVE_INFINITY), "(float) (0.0f - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(0.0f, Float.NaN), (float) (0.0f - Float.NaN), "(float) (0.0f - Float.NaN)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MIN_VALUE - Float.NEGATIVE_INFINITY), "(float) (Float.MIN_VALUE - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, -1.0f), (float) (Float.MIN_VALUE - -1.0f), "(float) (Float.MIN_VALUE - -1.0f)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, -0.0f), (float) (Float.MIN_VALUE - -0.0f), "(float) (Float.MIN_VALUE - -0.0f)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, 0.0f), (float) (Float.MIN_VALUE - 0.0f), "(float) (Float.MIN_VALUE - 0.0f)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, Float.MIN_VALUE), (float) (Float.MIN_VALUE - Float.MIN_VALUE), "(float) (Float.MIN_VALUE - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, 1.0f), (float) (Float.MIN_VALUE - 1.0f), "(float) (Float.MIN_VALUE - 1.0f)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, Float.MAX_VALUE), (float) (Float.MIN_VALUE - Float.MAX_VALUE), "(float) (Float.MIN_VALUE - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MIN_VALUE - Float.POSITIVE_INFINITY), "(float) (Float.MIN_VALUE - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.MIN_VALUE, Float.NaN), (float) (Float.MIN_VALUE - Float.NaN), "(float) (Float.MIN_VALUE - Float.NaN)"); Tester.checkEqual(floatSub(1.0f, Float.NEGATIVE_INFINITY), (float) (1.0f - Float.NEGATIVE_INFINITY), "(float) (1.0f - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(1.0f, -1.0f), (float) (1.0f - -1.0f), "(float) (1.0f - -1.0f)"); Tester.checkEqual(floatSub(1.0f, -0.0f), (float) (1.0f - -0.0f), "(float) (1.0f - -0.0f)"); Tester.checkEqual(floatSub(1.0f, 0.0f), (float) (1.0f - 0.0f), "(float) (1.0f - 0.0f)"); Tester.checkEqual(floatSub(1.0f, Float.MIN_VALUE), (float) (1.0f - Float.MIN_VALUE), "(float) (1.0f - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(1.0f, 1.0f), (float) (1.0f - 1.0f), "(float) (1.0f - 1.0f)"); Tester.checkEqual(floatSub(1.0f, Float.MAX_VALUE), (float) (1.0f - Float.MAX_VALUE), "(float) (1.0f - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(1.0f, Float.POSITIVE_INFINITY), (float) (1.0f - Float.POSITIVE_INFINITY), "(float) (1.0f - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(1.0f, Float.NaN), (float) (1.0f - Float.NaN), "(float) (1.0f - Float.NaN)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), (float) (Float.MAX_VALUE - Float.NEGATIVE_INFINITY), "(float) (Float.MAX_VALUE - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, -1.0f), (float) (Float.MAX_VALUE - -1.0f), "(float) (Float.MAX_VALUE - -1.0f)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, -0.0f), (float) (Float.MAX_VALUE - -0.0f), "(float) (Float.MAX_VALUE - -0.0f)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, 0.0f), (float) (Float.MAX_VALUE - 0.0f), "(float) (Float.MAX_VALUE - 0.0f)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, Float.MIN_VALUE), (float) (Float.MAX_VALUE - Float.MIN_VALUE), "(float) (Float.MAX_VALUE - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, 1.0f), (float) (Float.MAX_VALUE - 1.0f), "(float) (Float.MAX_VALUE - 1.0f)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, Float.MAX_VALUE), (float) (Float.MAX_VALUE - Float.MAX_VALUE), "(float) (Float.MAX_VALUE - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, Float.POSITIVE_INFINITY), (float) (Float.MAX_VALUE - Float.POSITIVE_INFINITY), "(float) (Float.MAX_VALUE - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.MAX_VALUE, Float.NaN), (float) (Float.MAX_VALUE - Float.NaN), "(float) (Float.MAX_VALUE - Float.NaN)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), (float) (Float.POSITIVE_INFINITY - Float.NEGATIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, -1.0f), (float) (Float.POSITIVE_INFINITY - -1.0f), "(float) (Float.POSITIVE_INFINITY - -1.0f)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, -0.0f), (float) (Float.POSITIVE_INFINITY - -0.0f), "(float) (Float.POSITIVE_INFINITY - -0.0f)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, 0.0f), (float) (Float.POSITIVE_INFINITY - 0.0f), "(float) (Float.POSITIVE_INFINITY - 0.0f)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, Float.MIN_VALUE), (float) (Float.POSITIVE_INFINITY - Float.MIN_VALUE), "(float) (Float.POSITIVE_INFINITY - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, 1.0f), (float) (Float.POSITIVE_INFINITY - 1.0f), "(float) (Float.POSITIVE_INFINITY - 1.0f)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, Float.MAX_VALUE), (float) (Float.POSITIVE_INFINITY - Float.MAX_VALUE), "(float) (Float.POSITIVE_INFINITY - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), (float) (Float.POSITIVE_INFINITY - Float.POSITIVE_INFINITY), "(float) (Float.POSITIVE_INFINITY - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.POSITIVE_INFINITY, Float.NaN), (float) (Float.POSITIVE_INFINITY - Float.NaN), "(float) (Float.POSITIVE_INFINITY - Float.NaN)"); Tester.checkEqual(floatSub(Float.NaN, Float.NEGATIVE_INFINITY), (float) (Float.NaN - Float.NEGATIVE_INFINITY), "(float) (Float.NaN - Float.NEGATIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.NaN, -1.0f), (float) (Float.NaN - -1.0f), "(float) (Float.NaN - -1.0f)"); Tester.checkEqual(floatSub(Float.NaN, -0.0f), (float) (Float.NaN - -0.0f), "(float) (Float.NaN - -0.0f)"); Tester.checkEqual(floatSub(Float.NaN, 0.0f), (float) (Float.NaN - 0.0f), "(float) (Float.NaN - 0.0f)"); Tester.checkEqual(floatSub(Float.NaN, Float.MIN_VALUE), (float) (Float.NaN - Float.MIN_VALUE), "(float) (Float.NaN - Float.MIN_VALUE)"); Tester.checkEqual(floatSub(Float.NaN, 1.0f), (float) (Float.NaN - 1.0f), "(float) (Float.NaN - 1.0f)"); Tester.checkEqual(floatSub(Float.NaN, Float.MAX_VALUE), (float) (Float.NaN - Float.MAX_VALUE), "(float) (Float.NaN - Float.MAX_VALUE)"); Tester.checkEqual(floatSub(Float.NaN, Float.POSITIVE_INFINITY), (float) (Float.NaN - Float.POSITIVE_INFINITY), "(float) (Float.NaN - Float.POSITIVE_INFINITY)"); Tester.checkEqual(floatSub(Float.NaN, Float.NaN), (float) (Float.NaN - Float.NaN), "(float) (Float.NaN - Float.NaN)"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY < Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY < -1.0f, "Float.NEGATIVE_INFINITY < -1.0f"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY < -0.0f, "Float.NEGATIVE_INFINITY < -0.0f"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY < 0.0f, "Float.NEGATIVE_INFINITY < 0.0f"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY < Float.MIN_VALUE, "Float.NEGATIVE_INFINITY < Float.MIN_VALUE"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY < 1.0f, "Float.NEGATIVE_INFINITY < 1.0f"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY < Float.MAX_VALUE, "Float.NEGATIVE_INFINITY < Float.MAX_VALUE"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY < Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY < Float.NaN, "Float.NEGATIVE_INFINITY < Float.NaN"); Tester.checkEqual(floatLt(-1.0f, Float.NEGATIVE_INFINITY), -1.0f < Float.NEGATIVE_INFINITY, "-1.0f < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(-1.0f, -1.0f), -1.0f < -1.0f, "-1.0f < -1.0f"); Tester.checkEqual(floatLt(-1.0f, -0.0f), -1.0f < -0.0f, "-1.0f < -0.0f"); Tester.checkEqual(floatLt(-1.0f, 0.0f), -1.0f < 0.0f, "-1.0f < 0.0f"); Tester.checkEqual(floatLt(-1.0f, Float.MIN_VALUE), -1.0f < Float.MIN_VALUE, "-1.0f < Float.MIN_VALUE"); Tester.checkEqual(floatLt(-1.0f, 1.0f), -1.0f < 1.0f, "-1.0f < 1.0f"); Tester.checkEqual(floatLt(-1.0f, Float.MAX_VALUE), -1.0f < Float.MAX_VALUE, "-1.0f < Float.MAX_VALUE"); Tester.checkEqual(floatLt(-1.0f, Float.POSITIVE_INFINITY), -1.0f < Float.POSITIVE_INFINITY, "-1.0f < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(-1.0f, Float.NaN), -1.0f < Float.NaN, "-1.0f < Float.NaN"); Tester.checkEqual(floatLt(-0.0f, Float.NEGATIVE_INFINITY), -0.0f < Float.NEGATIVE_INFINITY, "-0.0f < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(-0.0f, -1.0f), -0.0f < -1.0f, "-0.0f < -1.0f"); Tester.checkEqual(floatLt(-0.0f, -0.0f), -0.0f < -0.0f, "-0.0f < -0.0f"); Tester.checkEqual(floatLt(-0.0f, 0.0f), -0.0f < 0.0f, "-0.0f < 0.0f"); Tester.checkEqual(floatLt(-0.0f, Float.MIN_VALUE), -0.0f < Float.MIN_VALUE, "-0.0f < Float.MIN_VALUE"); Tester.checkEqual(floatLt(-0.0f, 1.0f), -0.0f < 1.0f, "-0.0f < 1.0f"); Tester.checkEqual(floatLt(-0.0f, Float.MAX_VALUE), -0.0f < Float.MAX_VALUE, "-0.0f < Float.MAX_VALUE"); Tester.checkEqual(floatLt(-0.0f, Float.POSITIVE_INFINITY), -0.0f < Float.POSITIVE_INFINITY, "-0.0f < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(-0.0f, Float.NaN), -0.0f < Float.NaN, "-0.0f < Float.NaN"); Tester.checkEqual(floatLt(0.0f, Float.NEGATIVE_INFINITY), 0.0f < Float.NEGATIVE_INFINITY, "0.0f < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(0.0f, -1.0f), 0.0f < -1.0f, "0.0f < -1.0f"); Tester.checkEqual(floatLt(0.0f, -0.0f), 0.0f < -0.0f, "0.0f < -0.0f"); Tester.checkEqual(floatLt(0.0f, 0.0f), 0.0f < 0.0f, "0.0f < 0.0f"); Tester.checkEqual(floatLt(0.0f, Float.MIN_VALUE), 0.0f < Float.MIN_VALUE, "0.0f < Float.MIN_VALUE"); Tester.checkEqual(floatLt(0.0f, 1.0f), 0.0f < 1.0f, "0.0f < 1.0f"); Tester.checkEqual(floatLt(0.0f, Float.MAX_VALUE), 0.0f < Float.MAX_VALUE, "0.0f < Float.MAX_VALUE"); Tester.checkEqual(floatLt(0.0f, Float.POSITIVE_INFINITY), 0.0f < Float.POSITIVE_INFINITY, "0.0f < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(0.0f, Float.NaN), 0.0f < Float.NaN, "0.0f < Float.NaN"); Tester.checkEqual(floatLt(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE < Float.NEGATIVE_INFINITY, "Float.MIN_VALUE < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE < -1.0f, "Float.MIN_VALUE < -1.0f"); Tester.checkEqual(floatLt(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE < -0.0f, "Float.MIN_VALUE < -0.0f"); Tester.checkEqual(floatLt(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE < 0.0f, "Float.MIN_VALUE < 0.0f"); Tester.checkEqual(floatLt(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE < Float.MIN_VALUE, "Float.MIN_VALUE < Float.MIN_VALUE"); Tester.checkEqual(floatLt(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE < 1.0f, "Float.MIN_VALUE < 1.0f"); Tester.checkEqual(floatLt(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE < Float.MAX_VALUE, "Float.MIN_VALUE < Float.MAX_VALUE"); Tester.checkEqual(floatLt(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE < Float.POSITIVE_INFINITY, "Float.MIN_VALUE < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE < Float.NaN, "Float.MIN_VALUE < Float.NaN"); Tester.checkEqual(floatLt(1.0f, Float.NEGATIVE_INFINITY), 1.0f < Float.NEGATIVE_INFINITY, "1.0f < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(1.0f, -1.0f), 1.0f < -1.0f, "1.0f < -1.0f"); Tester.checkEqual(floatLt(1.0f, -0.0f), 1.0f < -0.0f, "1.0f < -0.0f"); Tester.checkEqual(floatLt(1.0f, 0.0f), 1.0f < 0.0f, "1.0f < 0.0f"); Tester.checkEqual(floatLt(1.0f, Float.MIN_VALUE), 1.0f < Float.MIN_VALUE, "1.0f < Float.MIN_VALUE"); Tester.checkEqual(floatLt(1.0f, 1.0f), 1.0f < 1.0f, "1.0f < 1.0f"); Tester.checkEqual(floatLt(1.0f, Float.MAX_VALUE), 1.0f < Float.MAX_VALUE, "1.0f < Float.MAX_VALUE"); Tester.checkEqual(floatLt(1.0f, Float.POSITIVE_INFINITY), 1.0f < Float.POSITIVE_INFINITY, "1.0f < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(1.0f, Float.NaN), 1.0f < Float.NaN, "1.0f < Float.NaN"); Tester.checkEqual(floatLt(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE < Float.NEGATIVE_INFINITY, "Float.MAX_VALUE < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE < -1.0f, "Float.MAX_VALUE < -1.0f"); Tester.checkEqual(floatLt(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE < -0.0f, "Float.MAX_VALUE < -0.0f"); Tester.checkEqual(floatLt(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE < 0.0f, "Float.MAX_VALUE < 0.0f"); Tester.checkEqual(floatLt(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE < Float.MIN_VALUE, "Float.MAX_VALUE < Float.MIN_VALUE"); Tester.checkEqual(floatLt(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE < 1.0f, "Float.MAX_VALUE < 1.0f"); Tester.checkEqual(floatLt(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE < Float.MAX_VALUE, "Float.MAX_VALUE < Float.MAX_VALUE"); Tester.checkEqual(floatLt(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE < Float.POSITIVE_INFINITY, "Float.MAX_VALUE < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE < Float.NaN, "Float.MAX_VALUE < Float.NaN"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY < Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY < -1.0f, "Float.POSITIVE_INFINITY < -1.0f"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY < -0.0f, "Float.POSITIVE_INFINITY < -0.0f"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY < 0.0f, "Float.POSITIVE_INFINITY < 0.0f"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY < Float.MIN_VALUE, "Float.POSITIVE_INFINITY < Float.MIN_VALUE"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY < 1.0f, "Float.POSITIVE_INFINITY < 1.0f"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY < Float.MAX_VALUE, "Float.POSITIVE_INFINITY < Float.MAX_VALUE"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY < Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY < Float.NaN, "Float.POSITIVE_INFINITY < Float.NaN"); Tester.checkEqual(floatLt(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN < Float.NEGATIVE_INFINITY, "Float.NaN < Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLt(Float.NaN, -1.0f), Float.NaN < -1.0f, "Float.NaN < -1.0f"); Tester.checkEqual(floatLt(Float.NaN, -0.0f), Float.NaN < -0.0f, "Float.NaN < -0.0f"); Tester.checkEqual(floatLt(Float.NaN, 0.0f), Float.NaN < 0.0f, "Float.NaN < 0.0f"); Tester.checkEqual(floatLt(Float.NaN, Float.MIN_VALUE), Float.NaN < Float.MIN_VALUE, "Float.NaN < Float.MIN_VALUE"); Tester.checkEqual(floatLt(Float.NaN, 1.0f), Float.NaN < 1.0f, "Float.NaN < 1.0f"); Tester.checkEqual(floatLt(Float.NaN, Float.MAX_VALUE), Float.NaN < Float.MAX_VALUE, "Float.NaN < Float.MAX_VALUE"); Tester.checkEqual(floatLt(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN < Float.POSITIVE_INFINITY, "Float.NaN < Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLt(Float.NaN, Float.NaN), Float.NaN < Float.NaN, "Float.NaN < Float.NaN"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY > Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY > -1.0f, "Float.NEGATIVE_INFINITY > -1.0f"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY > -0.0f, "Float.NEGATIVE_INFINITY > -0.0f"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY > 0.0f, "Float.NEGATIVE_INFINITY > 0.0f"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY > Float.MIN_VALUE, "Float.NEGATIVE_INFINITY > Float.MIN_VALUE"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY > 1.0f, "Float.NEGATIVE_INFINITY > 1.0f"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY > Float.MAX_VALUE, "Float.NEGATIVE_INFINITY > Float.MAX_VALUE"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY > Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY > Float.NaN, "Float.NEGATIVE_INFINITY > Float.NaN"); Tester.checkEqual(floatGt(-1.0f, Float.NEGATIVE_INFINITY), -1.0f > Float.NEGATIVE_INFINITY, "-1.0f > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(-1.0f, -1.0f), -1.0f > -1.0f, "-1.0f > -1.0f"); Tester.checkEqual(floatGt(-1.0f, -0.0f), -1.0f > -0.0f, "-1.0f > -0.0f"); Tester.checkEqual(floatGt(-1.0f, 0.0f), -1.0f > 0.0f, "-1.0f > 0.0f"); Tester.checkEqual(floatGt(-1.0f, Float.MIN_VALUE), -1.0f > Float.MIN_VALUE, "-1.0f > Float.MIN_VALUE"); Tester.checkEqual(floatGt(-1.0f, 1.0f), -1.0f > 1.0f, "-1.0f > 1.0f"); Tester.checkEqual(floatGt(-1.0f, Float.MAX_VALUE), -1.0f > Float.MAX_VALUE, "-1.0f > Float.MAX_VALUE"); Tester.checkEqual(floatGt(-1.0f, Float.POSITIVE_INFINITY), -1.0f > Float.POSITIVE_INFINITY, "-1.0f > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(-1.0f, Float.NaN), -1.0f > Float.NaN, "-1.0f > Float.NaN"); Tester.checkEqual(floatGt(-0.0f, Float.NEGATIVE_INFINITY), -0.0f > Float.NEGATIVE_INFINITY, "-0.0f > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(-0.0f, -1.0f), -0.0f > -1.0f, "-0.0f > -1.0f"); Tester.checkEqual(floatGt(-0.0f, -0.0f), -0.0f > -0.0f, "-0.0f > -0.0f"); Tester.checkEqual(floatGt(-0.0f, 0.0f), -0.0f > 0.0f, "-0.0f > 0.0f"); Tester.checkEqual(floatGt(-0.0f, Float.MIN_VALUE), -0.0f > Float.MIN_VALUE, "-0.0f > Float.MIN_VALUE"); Tester.checkEqual(floatGt(-0.0f, 1.0f), -0.0f > 1.0f, "-0.0f > 1.0f"); Tester.checkEqual(floatGt(-0.0f, Float.MAX_VALUE), -0.0f > Float.MAX_VALUE, "-0.0f > Float.MAX_VALUE"); Tester.checkEqual(floatGt(-0.0f, Float.POSITIVE_INFINITY), -0.0f > Float.POSITIVE_INFINITY, "-0.0f > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(-0.0f, Float.NaN), -0.0f > Float.NaN, "-0.0f > Float.NaN"); Tester.checkEqual(floatGt(0.0f, Float.NEGATIVE_INFINITY), 0.0f > Float.NEGATIVE_INFINITY, "0.0f > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(0.0f, -1.0f), 0.0f > -1.0f, "0.0f > -1.0f"); Tester.checkEqual(floatGt(0.0f, -0.0f), 0.0f > -0.0f, "0.0f > -0.0f"); Tester.checkEqual(floatGt(0.0f, 0.0f), 0.0f > 0.0f, "0.0f > 0.0f"); Tester.checkEqual(floatGt(0.0f, Float.MIN_VALUE), 0.0f > Float.MIN_VALUE, "0.0f > Float.MIN_VALUE"); Tester.checkEqual(floatGt(0.0f, 1.0f), 0.0f > 1.0f, "0.0f > 1.0f"); Tester.checkEqual(floatGt(0.0f, Float.MAX_VALUE), 0.0f > Float.MAX_VALUE, "0.0f > Float.MAX_VALUE"); Tester.checkEqual(floatGt(0.0f, Float.POSITIVE_INFINITY), 0.0f > Float.POSITIVE_INFINITY, "0.0f > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(0.0f, Float.NaN), 0.0f > Float.NaN, "0.0f > Float.NaN"); Tester.checkEqual(floatGt(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE > Float.NEGATIVE_INFINITY, "Float.MIN_VALUE > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE > -1.0f, "Float.MIN_VALUE > -1.0f"); Tester.checkEqual(floatGt(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE > -0.0f, "Float.MIN_VALUE > -0.0f"); Tester.checkEqual(floatGt(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE > 0.0f, "Float.MIN_VALUE > 0.0f"); Tester.checkEqual(floatGt(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE > Float.MIN_VALUE, "Float.MIN_VALUE > Float.MIN_VALUE"); Tester.checkEqual(floatGt(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE > 1.0f, "Float.MIN_VALUE > 1.0f"); Tester.checkEqual(floatGt(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE > Float.MAX_VALUE, "Float.MIN_VALUE > Float.MAX_VALUE"); Tester.checkEqual(floatGt(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE > Float.POSITIVE_INFINITY, "Float.MIN_VALUE > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE > Float.NaN, "Float.MIN_VALUE > Float.NaN"); Tester.checkEqual(floatGt(1.0f, Float.NEGATIVE_INFINITY), 1.0f > Float.NEGATIVE_INFINITY, "1.0f > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(1.0f, -1.0f), 1.0f > -1.0f, "1.0f > -1.0f"); Tester.checkEqual(floatGt(1.0f, -0.0f), 1.0f > -0.0f, "1.0f > -0.0f"); Tester.checkEqual(floatGt(1.0f, 0.0f), 1.0f > 0.0f, "1.0f > 0.0f"); Tester.checkEqual(floatGt(1.0f, Float.MIN_VALUE), 1.0f > Float.MIN_VALUE, "1.0f > Float.MIN_VALUE"); Tester.checkEqual(floatGt(1.0f, 1.0f), 1.0f > 1.0f, "1.0f > 1.0f"); Tester.checkEqual(floatGt(1.0f, Float.MAX_VALUE), 1.0f > Float.MAX_VALUE, "1.0f > Float.MAX_VALUE"); Tester.checkEqual(floatGt(1.0f, Float.POSITIVE_INFINITY), 1.0f > Float.POSITIVE_INFINITY, "1.0f > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(1.0f, Float.NaN), 1.0f > Float.NaN, "1.0f > Float.NaN"); Tester.checkEqual(floatGt(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE > Float.NEGATIVE_INFINITY, "Float.MAX_VALUE > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE > -1.0f, "Float.MAX_VALUE > -1.0f"); Tester.checkEqual(floatGt(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE > -0.0f, "Float.MAX_VALUE > -0.0f"); Tester.checkEqual(floatGt(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE > 0.0f, "Float.MAX_VALUE > 0.0f"); Tester.checkEqual(floatGt(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE > Float.MIN_VALUE, "Float.MAX_VALUE > Float.MIN_VALUE"); Tester.checkEqual(floatGt(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE > 1.0f, "Float.MAX_VALUE > 1.0f"); Tester.checkEqual(floatGt(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE > Float.MAX_VALUE, "Float.MAX_VALUE > Float.MAX_VALUE"); Tester.checkEqual(floatGt(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE > Float.POSITIVE_INFINITY, "Float.MAX_VALUE > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE > Float.NaN, "Float.MAX_VALUE > Float.NaN"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY > Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY > -1.0f, "Float.POSITIVE_INFINITY > -1.0f"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY > -0.0f, "Float.POSITIVE_INFINITY > -0.0f"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY > 0.0f, "Float.POSITIVE_INFINITY > 0.0f"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY > Float.MIN_VALUE, "Float.POSITIVE_INFINITY > Float.MIN_VALUE"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY > 1.0f, "Float.POSITIVE_INFINITY > 1.0f"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY > Float.MAX_VALUE, "Float.POSITIVE_INFINITY > Float.MAX_VALUE"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY > Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY > Float.NaN, "Float.POSITIVE_INFINITY > Float.NaN"); Tester.checkEqual(floatGt(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN > Float.NEGATIVE_INFINITY, "Float.NaN > Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGt(Float.NaN, -1.0f), Float.NaN > -1.0f, "Float.NaN > -1.0f"); Tester.checkEqual(floatGt(Float.NaN, -0.0f), Float.NaN > -0.0f, "Float.NaN > -0.0f"); Tester.checkEqual(floatGt(Float.NaN, 0.0f), Float.NaN > 0.0f, "Float.NaN > 0.0f"); Tester.checkEqual(floatGt(Float.NaN, Float.MIN_VALUE), Float.NaN > Float.MIN_VALUE, "Float.NaN > Float.MIN_VALUE"); Tester.checkEqual(floatGt(Float.NaN, 1.0f), Float.NaN > 1.0f, "Float.NaN > 1.0f"); Tester.checkEqual(floatGt(Float.NaN, Float.MAX_VALUE), Float.NaN > Float.MAX_VALUE, "Float.NaN > Float.MAX_VALUE"); Tester.checkEqual(floatGt(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN > Float.POSITIVE_INFINITY, "Float.NaN > Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGt(Float.NaN, Float.NaN), Float.NaN > Float.NaN, "Float.NaN > Float.NaN"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY <= Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY <= -1.0f, "Float.NEGATIVE_INFINITY <= -1.0f"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY <= -0.0f, "Float.NEGATIVE_INFINITY <= -0.0f"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY <= 0.0f, "Float.NEGATIVE_INFINITY <= 0.0f"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY <= Float.MIN_VALUE, "Float.NEGATIVE_INFINITY <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY <= 1.0f, "Float.NEGATIVE_INFINITY <= 1.0f"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY <= Float.MAX_VALUE, "Float.NEGATIVE_INFINITY <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY <= Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY <= Float.NaN, "Float.NEGATIVE_INFINITY <= Float.NaN"); Tester.checkEqual(floatLe(-1.0f, Float.NEGATIVE_INFINITY), -1.0f <= Float.NEGATIVE_INFINITY, "-1.0f <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(-1.0f, -1.0f), -1.0f <= -1.0f, "-1.0f <= -1.0f"); Tester.checkEqual(floatLe(-1.0f, -0.0f), -1.0f <= -0.0f, "-1.0f <= -0.0f"); Tester.checkEqual(floatLe(-1.0f, 0.0f), -1.0f <= 0.0f, "-1.0f <= 0.0f"); Tester.checkEqual(floatLe(-1.0f, Float.MIN_VALUE), -1.0f <= Float.MIN_VALUE, "-1.0f <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(-1.0f, 1.0f), -1.0f <= 1.0f, "-1.0f <= 1.0f"); Tester.checkEqual(floatLe(-1.0f, Float.MAX_VALUE), -1.0f <= Float.MAX_VALUE, "-1.0f <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(-1.0f, Float.POSITIVE_INFINITY), -1.0f <= Float.POSITIVE_INFINITY, "-1.0f <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(-1.0f, Float.NaN), -1.0f <= Float.NaN, "-1.0f <= Float.NaN"); Tester.checkEqual(floatLe(-0.0f, Float.NEGATIVE_INFINITY), -0.0f <= Float.NEGATIVE_INFINITY, "-0.0f <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(-0.0f, -1.0f), -0.0f <= -1.0f, "-0.0f <= -1.0f"); Tester.checkEqual(floatLe(-0.0f, -0.0f), -0.0f <= -0.0f, "-0.0f <= -0.0f"); Tester.checkEqual(floatLe(-0.0f, 0.0f), -0.0f <= 0.0f, "-0.0f <= 0.0f"); Tester.checkEqual(floatLe(-0.0f, Float.MIN_VALUE), -0.0f <= Float.MIN_VALUE, "-0.0f <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(-0.0f, 1.0f), -0.0f <= 1.0f, "-0.0f <= 1.0f"); Tester.checkEqual(floatLe(-0.0f, Float.MAX_VALUE), -0.0f <= Float.MAX_VALUE, "-0.0f <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(-0.0f, Float.POSITIVE_INFINITY), -0.0f <= Float.POSITIVE_INFINITY, "-0.0f <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(-0.0f, Float.NaN), -0.0f <= Float.NaN, "-0.0f <= Float.NaN"); Tester.checkEqual(floatLe(0.0f, Float.NEGATIVE_INFINITY), 0.0f <= Float.NEGATIVE_INFINITY, "0.0f <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(0.0f, -1.0f), 0.0f <= -1.0f, "0.0f <= -1.0f"); Tester.checkEqual(floatLe(0.0f, -0.0f), 0.0f <= -0.0f, "0.0f <= -0.0f"); Tester.checkEqual(floatLe(0.0f, 0.0f), 0.0f <= 0.0f, "0.0f <= 0.0f"); Tester.checkEqual(floatLe(0.0f, Float.MIN_VALUE), 0.0f <= Float.MIN_VALUE, "0.0f <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(0.0f, 1.0f), 0.0f <= 1.0f, "0.0f <= 1.0f"); Tester.checkEqual(floatLe(0.0f, Float.MAX_VALUE), 0.0f <= Float.MAX_VALUE, "0.0f <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(0.0f, Float.POSITIVE_INFINITY), 0.0f <= Float.POSITIVE_INFINITY, "0.0f <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(0.0f, Float.NaN), 0.0f <= Float.NaN, "0.0f <= Float.NaN"); Tester.checkEqual(floatLe(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE <= Float.NEGATIVE_INFINITY, "Float.MIN_VALUE <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE <= -1.0f, "Float.MIN_VALUE <= -1.0f"); Tester.checkEqual(floatLe(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE <= -0.0f, "Float.MIN_VALUE <= -0.0f"); Tester.checkEqual(floatLe(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE <= 0.0f, "Float.MIN_VALUE <= 0.0f"); Tester.checkEqual(floatLe(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE <= Float.MIN_VALUE, "Float.MIN_VALUE <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE <= 1.0f, "Float.MIN_VALUE <= 1.0f"); Tester.checkEqual(floatLe(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE <= Float.MAX_VALUE, "Float.MIN_VALUE <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE <= Float.POSITIVE_INFINITY, "Float.MIN_VALUE <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE <= Float.NaN, "Float.MIN_VALUE <= Float.NaN"); Tester.checkEqual(floatLe(1.0f, Float.NEGATIVE_INFINITY), 1.0f <= Float.NEGATIVE_INFINITY, "1.0f <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(1.0f, -1.0f), 1.0f <= -1.0f, "1.0f <= -1.0f"); Tester.checkEqual(floatLe(1.0f, -0.0f), 1.0f <= -0.0f, "1.0f <= -0.0f"); Tester.checkEqual(floatLe(1.0f, 0.0f), 1.0f <= 0.0f, "1.0f <= 0.0f"); Tester.checkEqual(floatLe(1.0f, Float.MIN_VALUE), 1.0f <= Float.MIN_VALUE, "1.0f <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(1.0f, 1.0f), 1.0f <= 1.0f, "1.0f <= 1.0f"); Tester.checkEqual(floatLe(1.0f, Float.MAX_VALUE), 1.0f <= Float.MAX_VALUE, "1.0f <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(1.0f, Float.POSITIVE_INFINITY), 1.0f <= Float.POSITIVE_INFINITY, "1.0f <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(1.0f, Float.NaN), 1.0f <= Float.NaN, "1.0f <= Float.NaN"); Tester.checkEqual(floatLe(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE <= Float.NEGATIVE_INFINITY, "Float.MAX_VALUE <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE <= -1.0f, "Float.MAX_VALUE <= -1.0f"); Tester.checkEqual(floatLe(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE <= -0.0f, "Float.MAX_VALUE <= -0.0f"); Tester.checkEqual(floatLe(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE <= 0.0f, "Float.MAX_VALUE <= 0.0f"); Tester.checkEqual(floatLe(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE <= Float.MIN_VALUE, "Float.MAX_VALUE <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE <= 1.0f, "Float.MAX_VALUE <= 1.0f"); Tester.checkEqual(floatLe(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE <= Float.MAX_VALUE, "Float.MAX_VALUE <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE <= Float.POSITIVE_INFINITY, "Float.MAX_VALUE <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE <= Float.NaN, "Float.MAX_VALUE <= Float.NaN"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY <= Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY <= -1.0f, "Float.POSITIVE_INFINITY <= -1.0f"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY <= -0.0f, "Float.POSITIVE_INFINITY <= -0.0f"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY <= 0.0f, "Float.POSITIVE_INFINITY <= 0.0f"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY <= Float.MIN_VALUE, "Float.POSITIVE_INFINITY <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY <= 1.0f, "Float.POSITIVE_INFINITY <= 1.0f"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY <= Float.MAX_VALUE, "Float.POSITIVE_INFINITY <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY <= Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY <= Float.NaN, "Float.POSITIVE_INFINITY <= Float.NaN"); Tester.checkEqual(floatLe(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN <= Float.NEGATIVE_INFINITY, "Float.NaN <= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatLe(Float.NaN, -1.0f), Float.NaN <= -1.0f, "Float.NaN <= -1.0f"); Tester.checkEqual(floatLe(Float.NaN, -0.0f), Float.NaN <= -0.0f, "Float.NaN <= -0.0f"); Tester.checkEqual(floatLe(Float.NaN, 0.0f), Float.NaN <= 0.0f, "Float.NaN <= 0.0f"); Tester.checkEqual(floatLe(Float.NaN, Float.MIN_VALUE), Float.NaN <= Float.MIN_VALUE, "Float.NaN <= Float.MIN_VALUE"); Tester.checkEqual(floatLe(Float.NaN, 1.0f), Float.NaN <= 1.0f, "Float.NaN <= 1.0f"); Tester.checkEqual(floatLe(Float.NaN, Float.MAX_VALUE), Float.NaN <= Float.MAX_VALUE, "Float.NaN <= Float.MAX_VALUE"); Tester.checkEqual(floatLe(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN <= Float.POSITIVE_INFINITY, "Float.NaN <= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatLe(Float.NaN, Float.NaN), Float.NaN <= Float.NaN, "Float.NaN <= Float.NaN"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY >= Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY >= -1.0f, "Float.NEGATIVE_INFINITY >= -1.0f"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY >= -0.0f, "Float.NEGATIVE_INFINITY >= -0.0f"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY >= 0.0f, "Float.NEGATIVE_INFINITY >= 0.0f"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY >= Float.MIN_VALUE, "Float.NEGATIVE_INFINITY >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY >= 1.0f, "Float.NEGATIVE_INFINITY >= 1.0f"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY >= Float.MAX_VALUE, "Float.NEGATIVE_INFINITY >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY >= Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY >= Float.NaN, "Float.NEGATIVE_INFINITY >= Float.NaN"); Tester.checkEqual(floatGe(-1.0f, Float.NEGATIVE_INFINITY), -1.0f >= Float.NEGATIVE_INFINITY, "-1.0f >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(-1.0f, -1.0f), -1.0f >= -1.0f, "-1.0f >= -1.0f"); Tester.checkEqual(floatGe(-1.0f, -0.0f), -1.0f >= -0.0f, "-1.0f >= -0.0f"); Tester.checkEqual(floatGe(-1.0f, 0.0f), -1.0f >= 0.0f, "-1.0f >= 0.0f"); Tester.checkEqual(floatGe(-1.0f, Float.MIN_VALUE), -1.0f >= Float.MIN_VALUE, "-1.0f >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(-1.0f, 1.0f), -1.0f >= 1.0f, "-1.0f >= 1.0f"); Tester.checkEqual(floatGe(-1.0f, Float.MAX_VALUE), -1.0f >= Float.MAX_VALUE, "-1.0f >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(-1.0f, Float.POSITIVE_INFINITY), -1.0f >= Float.POSITIVE_INFINITY, "-1.0f >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(-1.0f, Float.NaN), -1.0f >= Float.NaN, "-1.0f >= Float.NaN"); Tester.checkEqual(floatGe(-0.0f, Float.NEGATIVE_INFINITY), -0.0f >= Float.NEGATIVE_INFINITY, "-0.0f >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(-0.0f, -1.0f), -0.0f >= -1.0f, "-0.0f >= -1.0f"); Tester.checkEqual(floatGe(-0.0f, -0.0f), -0.0f >= -0.0f, "-0.0f >= -0.0f"); Tester.checkEqual(floatGe(-0.0f, 0.0f), -0.0f >= 0.0f, "-0.0f >= 0.0f"); Tester.checkEqual(floatGe(-0.0f, Float.MIN_VALUE), -0.0f >= Float.MIN_VALUE, "-0.0f >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(-0.0f, 1.0f), -0.0f >= 1.0f, "-0.0f >= 1.0f"); Tester.checkEqual(floatGe(-0.0f, Float.MAX_VALUE), -0.0f >= Float.MAX_VALUE, "-0.0f >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(-0.0f, Float.POSITIVE_INFINITY), -0.0f >= Float.POSITIVE_INFINITY, "-0.0f >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(-0.0f, Float.NaN), -0.0f >= Float.NaN, "-0.0f >= Float.NaN"); Tester.checkEqual(floatGe(0.0f, Float.NEGATIVE_INFINITY), 0.0f >= Float.NEGATIVE_INFINITY, "0.0f >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(0.0f, -1.0f), 0.0f >= -1.0f, "0.0f >= -1.0f"); Tester.checkEqual(floatGe(0.0f, -0.0f), 0.0f >= -0.0f, "0.0f >= -0.0f"); Tester.checkEqual(floatGe(0.0f, 0.0f), 0.0f >= 0.0f, "0.0f >= 0.0f"); Tester.checkEqual(floatGe(0.0f, Float.MIN_VALUE), 0.0f >= Float.MIN_VALUE, "0.0f >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(0.0f, 1.0f), 0.0f >= 1.0f, "0.0f >= 1.0f"); Tester.checkEqual(floatGe(0.0f, Float.MAX_VALUE), 0.0f >= Float.MAX_VALUE, "0.0f >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(0.0f, Float.POSITIVE_INFINITY), 0.0f >= Float.POSITIVE_INFINITY, "0.0f >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(0.0f, Float.NaN), 0.0f >= Float.NaN, "0.0f >= Float.NaN"); Tester.checkEqual(floatGe(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE >= Float.NEGATIVE_INFINITY, "Float.MIN_VALUE >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE >= -1.0f, "Float.MIN_VALUE >= -1.0f"); Tester.checkEqual(floatGe(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE >= -0.0f, "Float.MIN_VALUE >= -0.0f"); Tester.checkEqual(floatGe(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE >= 0.0f, "Float.MIN_VALUE >= 0.0f"); Tester.checkEqual(floatGe(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE >= Float.MIN_VALUE, "Float.MIN_VALUE >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE >= 1.0f, "Float.MIN_VALUE >= 1.0f"); Tester.checkEqual(floatGe(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE >= Float.MAX_VALUE, "Float.MIN_VALUE >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE >= Float.POSITIVE_INFINITY, "Float.MIN_VALUE >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE >= Float.NaN, "Float.MIN_VALUE >= Float.NaN"); Tester.checkEqual(floatGe(1.0f, Float.NEGATIVE_INFINITY), 1.0f >= Float.NEGATIVE_INFINITY, "1.0f >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(1.0f, -1.0f), 1.0f >= -1.0f, "1.0f >= -1.0f"); Tester.checkEqual(floatGe(1.0f, -0.0f), 1.0f >= -0.0f, "1.0f >= -0.0f"); Tester.checkEqual(floatGe(1.0f, 0.0f), 1.0f >= 0.0f, "1.0f >= 0.0f"); Tester.checkEqual(floatGe(1.0f, Float.MIN_VALUE), 1.0f >= Float.MIN_VALUE, "1.0f >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(1.0f, 1.0f), 1.0f >= 1.0f, "1.0f >= 1.0f"); Tester.checkEqual(floatGe(1.0f, Float.MAX_VALUE), 1.0f >= Float.MAX_VALUE, "1.0f >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(1.0f, Float.POSITIVE_INFINITY), 1.0f >= Float.POSITIVE_INFINITY, "1.0f >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(1.0f, Float.NaN), 1.0f >= Float.NaN, "1.0f >= Float.NaN"); Tester.checkEqual(floatGe(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE >= Float.NEGATIVE_INFINITY, "Float.MAX_VALUE >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE >= -1.0f, "Float.MAX_VALUE >= -1.0f"); Tester.checkEqual(floatGe(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE >= -0.0f, "Float.MAX_VALUE >= -0.0f"); Tester.checkEqual(floatGe(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE >= 0.0f, "Float.MAX_VALUE >= 0.0f"); Tester.checkEqual(floatGe(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE >= Float.MIN_VALUE, "Float.MAX_VALUE >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE >= 1.0f, "Float.MAX_VALUE >= 1.0f"); Tester.checkEqual(floatGe(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE >= Float.MAX_VALUE, "Float.MAX_VALUE >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE >= Float.POSITIVE_INFINITY, "Float.MAX_VALUE >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE >= Float.NaN, "Float.MAX_VALUE >= Float.NaN"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY >= Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY >= -1.0f, "Float.POSITIVE_INFINITY >= -1.0f"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY >= -0.0f, "Float.POSITIVE_INFINITY >= -0.0f"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY >= 0.0f, "Float.POSITIVE_INFINITY >= 0.0f"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY >= Float.MIN_VALUE, "Float.POSITIVE_INFINITY >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY >= 1.0f, "Float.POSITIVE_INFINITY >= 1.0f"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY >= Float.MAX_VALUE, "Float.POSITIVE_INFINITY >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY >= Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY >= Float.NaN, "Float.POSITIVE_INFINITY >= Float.NaN"); Tester.checkEqual(floatGe(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN >= Float.NEGATIVE_INFINITY, "Float.NaN >= Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatGe(Float.NaN, -1.0f), Float.NaN >= -1.0f, "Float.NaN >= -1.0f"); Tester.checkEqual(floatGe(Float.NaN, -0.0f), Float.NaN >= -0.0f, "Float.NaN >= -0.0f"); Tester.checkEqual(floatGe(Float.NaN, 0.0f), Float.NaN >= 0.0f, "Float.NaN >= 0.0f"); Tester.checkEqual(floatGe(Float.NaN, Float.MIN_VALUE), Float.NaN >= Float.MIN_VALUE, "Float.NaN >= Float.MIN_VALUE"); Tester.checkEqual(floatGe(Float.NaN, 1.0f), Float.NaN >= 1.0f, "Float.NaN >= 1.0f"); Tester.checkEqual(floatGe(Float.NaN, Float.MAX_VALUE), Float.NaN >= Float.MAX_VALUE, "Float.NaN >= Float.MAX_VALUE"); Tester.checkEqual(floatGe(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN >= Float.POSITIVE_INFINITY, "Float.NaN >= Float.POSITIVE_INFINITY"); Tester.checkEqual(floatGe(Float.NaN, Float.NaN), Float.NaN >= Float.NaN, "Float.NaN >= Float.NaN"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY == Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY == -1.0f, "Float.NEGATIVE_INFINITY == -1.0f"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY == -0.0f, "Float.NEGATIVE_INFINITY == -0.0f"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY == 0.0f, "Float.NEGATIVE_INFINITY == 0.0f"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY == Float.MIN_VALUE, "Float.NEGATIVE_INFINITY == Float.MIN_VALUE"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY == 1.0f, "Float.NEGATIVE_INFINITY == 1.0f"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY == Float.MAX_VALUE, "Float.NEGATIVE_INFINITY == Float.MAX_VALUE"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY == Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY == Float.NaN, "Float.NEGATIVE_INFINITY == Float.NaN"); Tester.checkEqual(floatEq(-1.0f, Float.NEGATIVE_INFINITY), -1.0f == Float.NEGATIVE_INFINITY, "-1.0f == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(-1.0f, -1.0f), -1.0f == -1.0f, "-1.0f == -1.0f"); Tester.checkEqual(floatEq(-1.0f, -0.0f), -1.0f == -0.0f, "-1.0f == -0.0f"); Tester.checkEqual(floatEq(-1.0f, 0.0f), -1.0f == 0.0f, "-1.0f == 0.0f"); Tester.checkEqual(floatEq(-1.0f, Float.MIN_VALUE), -1.0f == Float.MIN_VALUE, "-1.0f == Float.MIN_VALUE"); Tester.checkEqual(floatEq(-1.0f, 1.0f), -1.0f == 1.0f, "-1.0f == 1.0f"); Tester.checkEqual(floatEq(-1.0f, Float.MAX_VALUE), -1.0f == Float.MAX_VALUE, "-1.0f == Float.MAX_VALUE"); Tester.checkEqual(floatEq(-1.0f, Float.POSITIVE_INFINITY), -1.0f == Float.POSITIVE_INFINITY, "-1.0f == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(-1.0f, Float.NaN), -1.0f == Float.NaN, "-1.0f == Float.NaN"); Tester.checkEqual(floatEq(-0.0f, Float.NEGATIVE_INFINITY), -0.0f == Float.NEGATIVE_INFINITY, "-0.0f == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(-0.0f, -1.0f), -0.0f == -1.0f, "-0.0f == -1.0f"); Tester.checkEqual(floatEq(-0.0f, -0.0f), -0.0f == -0.0f, "-0.0f == -0.0f"); Tester.checkEqual(floatEq(-0.0f, 0.0f), -0.0f == 0.0f, "-0.0f == 0.0f"); Tester.checkEqual(floatEq(-0.0f, Float.MIN_VALUE), -0.0f == Float.MIN_VALUE, "-0.0f == Float.MIN_VALUE"); Tester.checkEqual(floatEq(-0.0f, 1.0f), -0.0f == 1.0f, "-0.0f == 1.0f"); Tester.checkEqual(floatEq(-0.0f, Float.MAX_VALUE), -0.0f == Float.MAX_VALUE, "-0.0f == Float.MAX_VALUE"); Tester.checkEqual(floatEq(-0.0f, Float.POSITIVE_INFINITY), -0.0f == Float.POSITIVE_INFINITY, "-0.0f == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(-0.0f, Float.NaN), -0.0f == Float.NaN, "-0.0f == Float.NaN"); Tester.checkEqual(floatEq(0.0f, Float.NEGATIVE_INFINITY), 0.0f == Float.NEGATIVE_INFINITY, "0.0f == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(0.0f, -1.0f), 0.0f == -1.0f, "0.0f == -1.0f"); Tester.checkEqual(floatEq(0.0f, -0.0f), 0.0f == -0.0f, "0.0f == -0.0f"); Tester.checkEqual(floatEq(0.0f, 0.0f), 0.0f == 0.0f, "0.0f == 0.0f"); Tester.checkEqual(floatEq(0.0f, Float.MIN_VALUE), 0.0f == Float.MIN_VALUE, "0.0f == Float.MIN_VALUE"); Tester.checkEqual(floatEq(0.0f, 1.0f), 0.0f == 1.0f, "0.0f == 1.0f"); Tester.checkEqual(floatEq(0.0f, Float.MAX_VALUE), 0.0f == Float.MAX_VALUE, "0.0f == Float.MAX_VALUE"); Tester.checkEqual(floatEq(0.0f, Float.POSITIVE_INFINITY), 0.0f == Float.POSITIVE_INFINITY, "0.0f == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(0.0f, Float.NaN), 0.0f == Float.NaN, "0.0f == Float.NaN"); Tester.checkEqual(floatEq(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE == Float.NEGATIVE_INFINITY, "Float.MIN_VALUE == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE == -1.0f, "Float.MIN_VALUE == -1.0f"); Tester.checkEqual(floatEq(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE == -0.0f, "Float.MIN_VALUE == -0.0f"); Tester.checkEqual(floatEq(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE == 0.0f, "Float.MIN_VALUE == 0.0f"); Tester.checkEqual(floatEq(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE == Float.MIN_VALUE, "Float.MIN_VALUE == Float.MIN_VALUE"); Tester.checkEqual(floatEq(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE == 1.0f, "Float.MIN_VALUE == 1.0f"); Tester.checkEqual(floatEq(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE == Float.MAX_VALUE, "Float.MIN_VALUE == Float.MAX_VALUE"); Tester.checkEqual(floatEq(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE == Float.POSITIVE_INFINITY, "Float.MIN_VALUE == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE == Float.NaN, "Float.MIN_VALUE == Float.NaN"); Tester.checkEqual(floatEq(1.0f, Float.NEGATIVE_INFINITY), 1.0f == Float.NEGATIVE_INFINITY, "1.0f == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(1.0f, -1.0f), 1.0f == -1.0f, "1.0f == -1.0f"); Tester.checkEqual(floatEq(1.0f, -0.0f), 1.0f == -0.0f, "1.0f == -0.0f"); Tester.checkEqual(floatEq(1.0f, 0.0f), 1.0f == 0.0f, "1.0f == 0.0f"); Tester.checkEqual(floatEq(1.0f, Float.MIN_VALUE), 1.0f == Float.MIN_VALUE, "1.0f == Float.MIN_VALUE"); Tester.checkEqual(floatEq(1.0f, 1.0f), 1.0f == 1.0f, "1.0f == 1.0f"); Tester.checkEqual(floatEq(1.0f, Float.MAX_VALUE), 1.0f == Float.MAX_VALUE, "1.0f == Float.MAX_VALUE"); Tester.checkEqual(floatEq(1.0f, Float.POSITIVE_INFINITY), 1.0f == Float.POSITIVE_INFINITY, "1.0f == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(1.0f, Float.NaN), 1.0f == Float.NaN, "1.0f == Float.NaN"); Tester.checkEqual(floatEq(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE == Float.NEGATIVE_INFINITY, "Float.MAX_VALUE == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE == -1.0f, "Float.MAX_VALUE == -1.0f"); Tester.checkEqual(floatEq(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE == -0.0f, "Float.MAX_VALUE == -0.0f"); Tester.checkEqual(floatEq(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE == 0.0f, "Float.MAX_VALUE == 0.0f"); Tester.checkEqual(floatEq(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE == Float.MIN_VALUE, "Float.MAX_VALUE == Float.MIN_VALUE"); Tester.checkEqual(floatEq(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE == 1.0f, "Float.MAX_VALUE == 1.0f"); Tester.checkEqual(floatEq(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE == Float.MAX_VALUE, "Float.MAX_VALUE == Float.MAX_VALUE"); Tester.checkEqual(floatEq(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE == Float.POSITIVE_INFINITY, "Float.MAX_VALUE == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE == Float.NaN, "Float.MAX_VALUE == Float.NaN"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY == Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY == -1.0f, "Float.POSITIVE_INFINITY == -1.0f"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY == -0.0f, "Float.POSITIVE_INFINITY == -0.0f"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY == 0.0f, "Float.POSITIVE_INFINITY == 0.0f"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY == Float.MIN_VALUE, "Float.POSITIVE_INFINITY == Float.MIN_VALUE"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY == 1.0f, "Float.POSITIVE_INFINITY == 1.0f"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY == Float.MAX_VALUE, "Float.POSITIVE_INFINITY == Float.MAX_VALUE"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY == Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY == Float.NaN, "Float.POSITIVE_INFINITY == Float.NaN"); Tester.checkEqual(floatEq(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN == Float.NEGATIVE_INFINITY, "Float.NaN == Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatEq(Float.NaN, -1.0f), Float.NaN == -1.0f, "Float.NaN == -1.0f"); Tester.checkEqual(floatEq(Float.NaN, -0.0f), Float.NaN == -0.0f, "Float.NaN == -0.0f"); Tester.checkEqual(floatEq(Float.NaN, 0.0f), Float.NaN == 0.0f, "Float.NaN == 0.0f"); Tester.checkEqual(floatEq(Float.NaN, Float.MIN_VALUE), Float.NaN == Float.MIN_VALUE, "Float.NaN == Float.MIN_VALUE"); Tester.checkEqual(floatEq(Float.NaN, 1.0f), Float.NaN == 1.0f, "Float.NaN == 1.0f"); Tester.checkEqual(floatEq(Float.NaN, Float.MAX_VALUE), Float.NaN == Float.MAX_VALUE, "Float.NaN == Float.MAX_VALUE"); Tester.checkEqual(floatEq(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN == Float.POSITIVE_INFINITY, "Float.NaN == Float.POSITIVE_INFINITY"); Tester.checkEqual(floatEq(Float.NaN, Float.NaN), Float.NaN == Float.NaN, "Float.NaN == Float.NaN"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.NEGATIVE_INFINITY != Float.NEGATIVE_INFINITY, "Float.NEGATIVE_INFINITY != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, -1.0f), Float.NEGATIVE_INFINITY != -1.0f, "Float.NEGATIVE_INFINITY != -1.0f"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, -0.0f), Float.NEGATIVE_INFINITY != -0.0f, "Float.NEGATIVE_INFINITY != -0.0f"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, 0.0f), Float.NEGATIVE_INFINITY != 0.0f, "Float.NEGATIVE_INFINITY != 0.0f"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, Float.MIN_VALUE), Float.NEGATIVE_INFINITY != Float.MIN_VALUE, "Float.NEGATIVE_INFINITY != Float.MIN_VALUE"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, 1.0f), Float.NEGATIVE_INFINITY != 1.0f, "Float.NEGATIVE_INFINITY != 1.0f"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, Float.MAX_VALUE), Float.NEGATIVE_INFINITY != Float.MAX_VALUE, "Float.NEGATIVE_INFINITY != Float.MAX_VALUE"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, Float.POSITIVE_INFINITY), Float.NEGATIVE_INFINITY != Float.POSITIVE_INFINITY, "Float.NEGATIVE_INFINITY != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(Float.NEGATIVE_INFINITY, Float.NaN), Float.NEGATIVE_INFINITY != Float.NaN, "Float.NEGATIVE_INFINITY != Float.NaN"); Tester.checkEqual(floatNe(-1.0f, Float.NEGATIVE_INFINITY), -1.0f != Float.NEGATIVE_INFINITY, "-1.0f != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(-1.0f, -1.0f), -1.0f != -1.0f, "-1.0f != -1.0f"); Tester.checkEqual(floatNe(-1.0f, -0.0f), -1.0f != -0.0f, "-1.0f != -0.0f"); Tester.checkEqual(floatNe(-1.0f, 0.0f), -1.0f != 0.0f, "-1.0f != 0.0f"); Tester.checkEqual(floatNe(-1.0f, Float.MIN_VALUE), -1.0f != Float.MIN_VALUE, "-1.0f != Float.MIN_VALUE"); Tester.checkEqual(floatNe(-1.0f, 1.0f), -1.0f != 1.0f, "-1.0f != 1.0f"); Tester.checkEqual(floatNe(-1.0f, Float.MAX_VALUE), -1.0f != Float.MAX_VALUE, "-1.0f != Float.MAX_VALUE"); Tester.checkEqual(floatNe(-1.0f, Float.POSITIVE_INFINITY), -1.0f != Float.POSITIVE_INFINITY, "-1.0f != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(-1.0f, Float.NaN), -1.0f != Float.NaN, "-1.0f != Float.NaN"); Tester.checkEqual(floatNe(-0.0f, Float.NEGATIVE_INFINITY), -0.0f != Float.NEGATIVE_INFINITY, "-0.0f != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(-0.0f, -1.0f), -0.0f != -1.0f, "-0.0f != -1.0f"); Tester.checkEqual(floatNe(-0.0f, -0.0f), -0.0f != -0.0f, "-0.0f != -0.0f"); Tester.checkEqual(floatNe(-0.0f, 0.0f), -0.0f != 0.0f, "-0.0f != 0.0f"); Tester.checkEqual(floatNe(-0.0f, Float.MIN_VALUE), -0.0f != Float.MIN_VALUE, "-0.0f != Float.MIN_VALUE"); Tester.checkEqual(floatNe(-0.0f, 1.0f), -0.0f != 1.0f, "-0.0f != 1.0f"); Tester.checkEqual(floatNe(-0.0f, Float.MAX_VALUE), -0.0f != Float.MAX_VALUE, "-0.0f != Float.MAX_VALUE"); Tester.checkEqual(floatNe(-0.0f, Float.POSITIVE_INFINITY), -0.0f != Float.POSITIVE_INFINITY, "-0.0f != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(-0.0f, Float.NaN), -0.0f != Float.NaN, "-0.0f != Float.NaN"); Tester.checkEqual(floatNe(0.0f, Float.NEGATIVE_INFINITY), 0.0f != Float.NEGATIVE_INFINITY, "0.0f != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(0.0f, -1.0f), 0.0f != -1.0f, "0.0f != -1.0f"); Tester.checkEqual(floatNe(0.0f, -0.0f), 0.0f != -0.0f, "0.0f != -0.0f"); Tester.checkEqual(floatNe(0.0f, 0.0f), 0.0f != 0.0f, "0.0f != 0.0f"); Tester.checkEqual(floatNe(0.0f, Float.MIN_VALUE), 0.0f != Float.MIN_VALUE, "0.0f != Float.MIN_VALUE"); Tester.checkEqual(floatNe(0.0f, 1.0f), 0.0f != 1.0f, "0.0f != 1.0f"); Tester.checkEqual(floatNe(0.0f, Float.MAX_VALUE), 0.0f != Float.MAX_VALUE, "0.0f != Float.MAX_VALUE"); Tester.checkEqual(floatNe(0.0f, Float.POSITIVE_INFINITY), 0.0f != Float.POSITIVE_INFINITY, "0.0f != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(0.0f, Float.NaN), 0.0f != Float.NaN, "0.0f != Float.NaN"); Tester.checkEqual(floatNe(Float.MIN_VALUE, Float.NEGATIVE_INFINITY), Float.MIN_VALUE != Float.NEGATIVE_INFINITY, "Float.MIN_VALUE != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(Float.MIN_VALUE, -1.0f), Float.MIN_VALUE != -1.0f, "Float.MIN_VALUE != -1.0f"); Tester.checkEqual(floatNe(Float.MIN_VALUE, -0.0f), Float.MIN_VALUE != -0.0f, "Float.MIN_VALUE != -0.0f"); Tester.checkEqual(floatNe(Float.MIN_VALUE, 0.0f), Float.MIN_VALUE != 0.0f, "Float.MIN_VALUE != 0.0f"); Tester.checkEqual(floatNe(Float.MIN_VALUE, Float.MIN_VALUE), Float.MIN_VALUE != Float.MIN_VALUE, "Float.MIN_VALUE != Float.MIN_VALUE"); Tester.checkEqual(floatNe(Float.MIN_VALUE, 1.0f), Float.MIN_VALUE != 1.0f, "Float.MIN_VALUE != 1.0f"); Tester.checkEqual(floatNe(Float.MIN_VALUE, Float.MAX_VALUE), Float.MIN_VALUE != Float.MAX_VALUE, "Float.MIN_VALUE != Float.MAX_VALUE"); Tester.checkEqual(floatNe(Float.MIN_VALUE, Float.POSITIVE_INFINITY), Float.MIN_VALUE != Float.POSITIVE_INFINITY, "Float.MIN_VALUE != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(Float.MIN_VALUE, Float.NaN), Float.MIN_VALUE != Float.NaN, "Float.MIN_VALUE != Float.NaN"); Tester.checkEqual(floatNe(1.0f, Float.NEGATIVE_INFINITY), 1.0f != Float.NEGATIVE_INFINITY, "1.0f != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(1.0f, -1.0f), 1.0f != -1.0f, "1.0f != -1.0f"); Tester.checkEqual(floatNe(1.0f, -0.0f), 1.0f != -0.0f, "1.0f != -0.0f"); Tester.checkEqual(floatNe(1.0f, 0.0f), 1.0f != 0.0f, "1.0f != 0.0f"); Tester.checkEqual(floatNe(1.0f, Float.MIN_VALUE), 1.0f != Float.MIN_VALUE, "1.0f != Float.MIN_VALUE"); Tester.checkEqual(floatNe(1.0f, 1.0f), 1.0f != 1.0f, "1.0f != 1.0f"); Tester.checkEqual(floatNe(1.0f, Float.MAX_VALUE), 1.0f != Float.MAX_VALUE, "1.0f != Float.MAX_VALUE"); Tester.checkEqual(floatNe(1.0f, Float.POSITIVE_INFINITY), 1.0f != Float.POSITIVE_INFINITY, "1.0f != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(1.0f, Float.NaN), 1.0f != Float.NaN, "1.0f != Float.NaN"); Tester.checkEqual(floatNe(Float.MAX_VALUE, Float.NEGATIVE_INFINITY), Float.MAX_VALUE != Float.NEGATIVE_INFINITY, "Float.MAX_VALUE != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(Float.MAX_VALUE, -1.0f), Float.MAX_VALUE != -1.0f, "Float.MAX_VALUE != -1.0f"); Tester.checkEqual(floatNe(Float.MAX_VALUE, -0.0f), Float.MAX_VALUE != -0.0f, "Float.MAX_VALUE != -0.0f"); Tester.checkEqual(floatNe(Float.MAX_VALUE, 0.0f), Float.MAX_VALUE != 0.0f, "Float.MAX_VALUE != 0.0f"); Tester.checkEqual(floatNe(Float.MAX_VALUE, Float.MIN_VALUE), Float.MAX_VALUE != Float.MIN_VALUE, "Float.MAX_VALUE != Float.MIN_VALUE"); Tester.checkEqual(floatNe(Float.MAX_VALUE, 1.0f), Float.MAX_VALUE != 1.0f, "Float.MAX_VALUE != 1.0f"); Tester.checkEqual(floatNe(Float.MAX_VALUE, Float.MAX_VALUE), Float.MAX_VALUE != Float.MAX_VALUE, "Float.MAX_VALUE != Float.MAX_VALUE"); Tester.checkEqual(floatNe(Float.MAX_VALUE, Float.POSITIVE_INFINITY), Float.MAX_VALUE != Float.POSITIVE_INFINITY, "Float.MAX_VALUE != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(Float.MAX_VALUE, Float.NaN), Float.MAX_VALUE != Float.NaN, "Float.MAX_VALUE != Float.NaN"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, Float.NEGATIVE_INFINITY), Float.POSITIVE_INFINITY != Float.NEGATIVE_INFINITY, "Float.POSITIVE_INFINITY != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, -1.0f), Float.POSITIVE_INFINITY != -1.0f, "Float.POSITIVE_INFINITY != -1.0f"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, -0.0f), Float.POSITIVE_INFINITY != -0.0f, "Float.POSITIVE_INFINITY != -0.0f"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, 0.0f), Float.POSITIVE_INFINITY != 0.0f, "Float.POSITIVE_INFINITY != 0.0f"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, Float.MIN_VALUE), Float.POSITIVE_INFINITY != Float.MIN_VALUE, "Float.POSITIVE_INFINITY != Float.MIN_VALUE"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, 1.0f), Float.POSITIVE_INFINITY != 1.0f, "Float.POSITIVE_INFINITY != 1.0f"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, Float.MAX_VALUE), Float.POSITIVE_INFINITY != Float.MAX_VALUE, "Float.POSITIVE_INFINITY != Float.MAX_VALUE"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, Float.POSITIVE_INFINITY), Float.POSITIVE_INFINITY != Float.POSITIVE_INFINITY, "Float.POSITIVE_INFINITY != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(Float.POSITIVE_INFINITY, Float.NaN), Float.POSITIVE_INFINITY != Float.NaN, "Float.POSITIVE_INFINITY != Float.NaN"); Tester.checkEqual(floatNe(Float.NaN, Float.NEGATIVE_INFINITY), Float.NaN != Float.NEGATIVE_INFINITY, "Float.NaN != Float.NEGATIVE_INFINITY"); Tester.checkEqual(floatNe(Float.NaN, -1.0f), Float.NaN != -1.0f, "Float.NaN != -1.0f"); Tester.checkEqual(floatNe(Float.NaN, -0.0f), Float.NaN != -0.0f, "Float.NaN != -0.0f"); Tester.checkEqual(floatNe(Float.NaN, 0.0f), Float.NaN != 0.0f, "Float.NaN != 0.0f"); Tester.checkEqual(floatNe(Float.NaN, Float.MIN_VALUE), Float.NaN != Float.MIN_VALUE, "Float.NaN != Float.MIN_VALUE"); Tester.checkEqual(floatNe(Float.NaN, 1.0f), Float.NaN != 1.0f, "Float.NaN != 1.0f"); Tester.checkEqual(floatNe(Float.NaN, Float.MAX_VALUE), Float.NaN != Float.MAX_VALUE, "Float.NaN != Float.MAX_VALUE"); Tester.checkEqual(floatNe(Float.NaN, Float.POSITIVE_INFINITY), Float.NaN != Float.POSITIVE_INFINITY, "Float.NaN != Float.POSITIVE_INFINITY"); Tester.checkEqual(floatNe(Float.NaN, Float.NaN), Float.NaN != Float.NaN, "Float.NaN != Float.NaN"); } static void floatSwitch() { switch(0) { case ((((float) + Float.NEGATIVE_INFINITY) == 0) ? 0 : 0): case ((((float) + -1.0f) == 0) ? 1 : 1): case ((((float) + -0.0f) == 0) ? 2 : 2): case ((((float) + 0.0f) == 0) ? 3 : 3): case ((((float) + Float.MIN_VALUE) == 0) ? 4 : 4): case ((((float) + 1.0f) == 0) ? 5 : 5): case ((((float) + Float.MAX_VALUE) == 0) ? 6 : 6): case ((((float) + Float.POSITIVE_INFINITY) == 0) ? 7 : 7): case ((((float) + Float.NaN) == 0) ? 8 : 8): case ((((float) - Float.NEGATIVE_INFINITY) == 0) ? 9 : 9): case ((((float) - -1.0f) == 0) ? 10 : 10): case ((((float) - -0.0f) == 0) ? 11 : 11): case ((((float) - 0.0f) == 0) ? 12 : 12): case ((((float) - Float.MIN_VALUE) == 0) ? 13 : 13): case ((((float) - 1.0f) == 0) ? 14 : 14): case ((((float) - Float.MAX_VALUE) == 0) ? 15 : 15): case ((((float) - Float.POSITIVE_INFINITY) == 0) ? 16 : 16): case ((((float) - Float.NaN) == 0) ? 17 : 17): case ((((float) (Float.NEGATIVE_INFINITY * Float.NEGATIVE_INFINITY)) == 0) ? 18 : 18): case ((((float) (Float.NEGATIVE_INFINITY * -1.0f)) == 0) ? 19 : 19): case ((((float) (Float.NEGATIVE_INFINITY * -0.0f)) == 0) ? 20 : 20): case ((((float) (Float.NEGATIVE_INFINITY * 0.0f)) == 0) ? 21 : 21): case ((((float) (Float.NEGATIVE_INFINITY * Float.MIN_VALUE)) == 0) ? 22 : 22): case ((((float) (Float.NEGATIVE_INFINITY * 1.0f)) == 0) ? 23 : 23): case ((((float) (Float.NEGATIVE_INFINITY * Float.MAX_VALUE)) == 0) ? 24 : 24): case ((((float) (Float.NEGATIVE_INFINITY * Float.POSITIVE_INFINITY)) == 0) ? 25 : 25): case ((((float) (Float.NEGATIVE_INFINITY * Float.NaN)) == 0) ? 26 : 26): case ((((float) (-1.0f * Float.NEGATIVE_INFINITY)) == 0) ? 27 : 27): case ((((float) (-1.0f * -1.0f)) == 0) ? 28 : 28): case ((((float) (-1.0f * -0.0f)) == 0) ? 29 : 29): case ((((float) (-1.0f * 0.0f)) == 0) ? 30 : 30): case ((((float) (-1.0f * Float.MIN_VALUE)) == 0) ? 31 : 31): case ((((float) (-1.0f * 1.0f)) == 0) ? 32 : 32): case ((((float) (-1.0f * Float.MAX_VALUE)) == 0) ? 33 : 33): case ((((float) (-1.0f * Float.POSITIVE_INFINITY)) == 0) ? 34 : 34): case ((((float) (-1.0f * Float.NaN)) == 0) ? 35 : 35): case ((((float) (-0.0f * Float.NEGATIVE_INFINITY)) == 0) ? 36 : 36): case ((((float) (-0.0f * -1.0f)) == 0) ? 37 : 37): case ((((float) (-0.0f * -0.0f)) == 0) ? 38 : 38): case ((((float) (-0.0f * 0.0f)) == 0) ? 39 : 39): case ((((float) (-0.0f * Float.MIN_VALUE)) == 0) ? 40 : 40): case ((((float) (-0.0f * 1.0f)) == 0) ? 41 : 41): case ((((float) (-0.0f * Float.MAX_VALUE)) == 0) ? 42 : 42): case ((((float) (-0.0f * Float.POSITIVE_INFINITY)) == 0) ? 43 : 43): case ((((float) (-0.0f * Float.NaN)) == 0) ? 44 : 44): case ((((float) (0.0f * Float.NEGATIVE_INFINITY)) == 0) ? 45 : 45): case ((((float) (0.0f * -1.0f)) == 0) ? 46 : 46): case ((((float) (0.0f * -0.0f)) == 0) ? 47 : 47): case ((((float) (0.0f * 0.0f)) == 0) ? 48 : 48): case ((((float) (0.0f * Float.MIN_VALUE)) == 0) ? 49 : 49): case ((((float) (0.0f * 1.0f)) == 0) ? 50 : 50): case ((((float) (0.0f * Float.MAX_VALUE)) == 0) ? 51 : 51): case ((((float) (0.0f * Float.POSITIVE_INFINITY)) == 0) ? 52 : 52): case ((((float) (0.0f * Float.NaN)) == 0) ? 53 : 53): case ((((float) (Float.MIN_VALUE * Float.NEGATIVE_INFINITY)) == 0) ? 54 : 54): case ((((float) (Float.MIN_VALUE * -1.0f)) == 0) ? 55 : 55): case ((((float) (Float.MIN_VALUE * -0.0f)) == 0) ? 56 : 56): case ((((float) (Float.MIN_VALUE * 0.0f)) == 0) ? 57 : 57): case ((((float) (Float.MIN_VALUE * Float.MIN_VALUE)) == 0) ? 58 : 58): case ((((float) (Float.MIN_VALUE * 1.0f)) == 0) ? 59 : 59): case ((((float) (Float.MIN_VALUE * Float.MAX_VALUE)) == 0) ? 60 : 60): case ((((float) (Float.MIN_VALUE * Float.POSITIVE_INFINITY)) == 0) ? 61 : 61): case ((((float) (Float.MIN_VALUE * Float.NaN)) == 0) ? 62 : 62): case ((((float) (1.0f * Float.NEGATIVE_INFINITY)) == 0) ? 63 : 63): case ((((float) (1.0f * -1.0f)) == 0) ? 64 : 64): case ((((float) (1.0f * -0.0f)) == 0) ? 65 : 65): case ((((float) (1.0f * 0.0f)) == 0) ? 66 : 66): case ((((float) (1.0f * Float.MIN_VALUE)) == 0) ? 67 : 67): case ((((float) (1.0f * 1.0f)) == 0) ? 68 : 68): case ((((float) (1.0f * Float.MAX_VALUE)) == 0) ? 69 : 69): case ((((float) (1.0f * Float.POSITIVE_INFINITY)) == 0) ? 70 : 70): case ((((float) (1.0f * Float.NaN)) == 0) ? 71 : 71): case ((((float) (Float.MAX_VALUE * Float.NEGATIVE_INFINITY)) == 0) ? 72 : 72): case ((((float) (Float.MAX_VALUE * -1.0f)) == 0) ? 73 : 73): case ((((float) (Float.MAX_VALUE * -0.0f)) == 0) ? 74 : 74): case ((((float) (Float.MAX_VALUE * 0.0f)) == 0) ? 75 : 75): case ((((float) (Float.MAX_VALUE * Float.MIN_VALUE)) == 0) ? 76 : 76): case ((((float) (Float.MAX_VALUE * 1.0f)) == 0) ? 77 : 77): case ((((float) (Float.MAX_VALUE * Float.MAX_VALUE)) == 0) ? 78 : 78): case ((((float) (Float.MAX_VALUE * Float.POSITIVE_INFINITY)) == 0) ? 79 : 79): case ((((float) (Float.MAX_VALUE * Float.NaN)) == 0) ? 80 : 80): case ((((float) (Float.POSITIVE_INFINITY * Float.NEGATIVE_INFINITY)) == 0) ? 81 : 81): case ((((float) (Float.POSITIVE_INFINITY * -1.0f)) == 0) ? 82 : 82): case ((((float) (Float.POSITIVE_INFINITY * -0.0f)) == 0) ? 83 : 83): case ((((float) (Float.POSITIVE_INFINITY * 0.0f)) == 0) ? 84 : 84): case ((((float) (Float.POSITIVE_INFINITY * Float.MIN_VALUE)) == 0) ? 85 : 85): case ((((float) (Float.POSITIVE_INFINITY * 1.0f)) == 0) ? 86 : 86): case ((((float) (Float.POSITIVE_INFINITY * Float.MAX_VALUE)) == 0) ? 87 : 87): case ((((float) (Float.POSITIVE_INFINITY * Float.POSITIVE_INFINITY)) == 0) ? 88 : 88): case ((((float) (Float.POSITIVE_INFINITY * Float.NaN)) == 0) ? 89 : 89): case ((((float) (Float.NaN * Float.NEGATIVE_INFINITY)) == 0) ? 90 : 90): case ((((float) (Float.NaN * -1.0f)) == 0) ? 91 : 91): case ((((float) (Float.NaN * -0.0f)) == 0) ? 92 : 92): case ((((float) (Float.NaN * 0.0f)) == 0) ? 93 : 93): case ((((float) (Float.NaN * Float.MIN_VALUE)) == 0) ? 94 : 94): case ((((float) (Float.NaN * 1.0f)) == 0) ? 95 : 95): case ((((float) (Float.NaN * Float.MAX_VALUE)) == 0) ? 96 : 96): case ((((float) (Float.NaN * Float.POSITIVE_INFINITY)) == 0) ? 97 : 97): case ((((float) (Float.NaN * Float.NaN)) == 0) ? 98 : 98): case ((((float) (Float.NEGATIVE_INFINITY / Float.NEGATIVE_INFINITY)) == 0) ? 99 : 99): case ((((float) (Float.NEGATIVE_INFINITY / -1.0f)) == 0) ? 100 : 100): case ((((float) (Float.NEGATIVE_INFINITY / -0.0f)) == 0) ? 101 : 101): case ((((float) (Float.NEGATIVE_INFINITY / 0.0f)) == 0) ? 102 : 102): case ((((float) (Float.NEGATIVE_INFINITY / Float.MIN_VALUE)) == 0) ? 103 : 103): case ((((float) (Float.NEGATIVE_INFINITY / 1.0f)) == 0) ? 104 : 104): case ((((float) (Float.NEGATIVE_INFINITY / Float.MAX_VALUE)) == 0) ? 105 : 105): case ((((float) (Float.NEGATIVE_INFINITY / Float.POSITIVE_INFINITY)) == 0) ? 106 : 106): case ((((float) (Float.NEGATIVE_INFINITY / Float.NaN)) == 0) ? 107 : 107): case ((((float) (-1.0f / Float.NEGATIVE_INFINITY)) == 0) ? 108 : 108): case ((((float) (-1.0f / -1.0f)) == 0) ? 109 : 109): case ((((float) (-1.0f / -0.0f)) == 0) ? 110 : 110): case ((((float) (-1.0f / 0.0f)) == 0) ? 111 : 111): case ((((float) (-1.0f / Float.MIN_VALUE)) == 0) ? 112 : 112): case ((((float) (-1.0f / 1.0f)) == 0) ? 113 : 113): case ((((float) (-1.0f / Float.MAX_VALUE)) == 0) ? 114 : 114): case ((((float) (-1.0f / Float.POSITIVE_INFINITY)) == 0) ? 115 : 115): case ((((float) (-1.0f / Float.NaN)) == 0) ? 116 : 116): case ((((float) (-0.0f / Float.NEGATIVE_INFINITY)) == 0) ? 117 : 117): case ((((float) (-0.0f / -1.0f)) == 0) ? 118 : 118): case ((((float) (-0.0f / -0.0f)) == 0) ? 119 : 119): case ((((float) (-0.0f / 0.0f)) == 0) ? 120 : 120): case ((((float) (-0.0f / Float.MIN_VALUE)) == 0) ? 121 : 121): case ((((float) (-0.0f / 1.0f)) == 0) ? 122 : 122): case ((((float) (-0.0f / Float.MAX_VALUE)) == 0) ? 123 : 123): case ((((float) (-0.0f / Float.POSITIVE_INFINITY)) == 0) ? 124 : 124): case ((((float) (-0.0f / Float.NaN)) == 0) ? 125 : 125): case ((((float) (0.0f / Float.NEGATIVE_INFINITY)) == 0) ? 126 : 126): case ((((float) (0.0f / -1.0f)) == 0) ? 127 : 127): case ((((float) (0.0f / -0.0f)) == 0) ? 128 : 128): case ((((float) (0.0f / 0.0f)) == 0) ? 129 : 129): case ((((float) (0.0f / Float.MIN_VALUE)) == 0) ? 130 : 130): case ((((float) (0.0f / 1.0f)) == 0) ? 131 : 131): case ((((float) (0.0f / Float.MAX_VALUE)) == 0) ? 132 : 132): case ((((float) (0.0f / Float.POSITIVE_INFINITY)) == 0) ? 133 : 133): case ((((float) (0.0f / Float.NaN)) == 0) ? 134 : 134): case ((((float) (Float.MIN_VALUE / Float.NEGATIVE_INFINITY)) == 0) ? 135 : 135): case ((((float) (Float.MIN_VALUE / -1.0f)) == 0) ? 136 : 136): case ((((float) (Float.MIN_VALUE / -0.0f)) == 0) ? 137 : 137): case ((((float) (Float.MIN_VALUE / 0.0f)) == 0) ? 138 : 138): case ((((float) (Float.MIN_VALUE / Float.MIN_VALUE)) == 0) ? 139 : 139): case ((((float) (Float.MIN_VALUE / 1.0f)) == 0) ? 140 : 140): case ((((float) (Float.MIN_VALUE / Float.MAX_VALUE)) == 0) ? 141 : 141): case ((((float) (Float.MIN_VALUE / Float.POSITIVE_INFINITY)) == 0) ? 142 : 142): case ((((float) (Float.MIN_VALUE / Float.NaN)) == 0) ? 143 : 143): case ((((float) (1.0f / Float.NEGATIVE_INFINITY)) == 0) ? 144 : 144): case ((((float) (1.0f / -1.0f)) == 0) ? 145 : 145): case ((((float) (1.0f / -0.0f)) == 0) ? 146 : 146): case ((((float) (1.0f / 0.0f)) == 0) ? 147 : 147): case ((((float) (1.0f / Float.MIN_VALUE)) == 0) ? 148 : 148): case ((((float) (1.0f / 1.0f)) == 0) ? 149 : 149): case ((((float) (1.0f / Float.MAX_VALUE)) == 0) ? 150 : 150): case ((((float) (1.0f / Float.POSITIVE_INFINITY)) == 0) ? 151 : 151): case ((((float) (1.0f / Float.NaN)) == 0) ? 152 : 152): case ((((float) (Float.MAX_VALUE / Float.NEGATIVE_INFINITY)) == 0) ? 153 : 153): case ((((float) (Float.MAX_VALUE / -1.0f)) == 0) ? 154 : 154): case ((((float) (Float.MAX_VALUE / -0.0f)) == 0) ? 155 : 155): case ((((float) (Float.MAX_VALUE / 0.0f)) == 0) ? 156 : 156): case ((((float) (Float.MAX_VALUE / Float.MIN_VALUE)) == 0) ? 157 : 157): case ((((float) (Float.MAX_VALUE / 1.0f)) == 0) ? 158 : 158): case ((((float) (Float.MAX_VALUE / Float.MAX_VALUE)) == 0) ? 159 : 159): case ((((float) (Float.MAX_VALUE / Float.POSITIVE_INFINITY)) == 0) ? 160 : 160): case ((((float) (Float.MAX_VALUE / Float.NaN)) == 0) ? 161 : 161): case ((((float) (Float.POSITIVE_INFINITY / Float.NEGATIVE_INFINITY)) == 0) ? 162 : 162): case ((((float) (Float.POSITIVE_INFINITY / -1.0f)) == 0) ? 163 : 163): case ((((float) (Float.POSITIVE_INFINITY / -0.0f)) == 0) ? 164 : 164): case ((((float) (Float.POSITIVE_INFINITY / 0.0f)) == 0) ? 165 : 165): case ((((float) (Float.POSITIVE_INFINITY / Float.MIN_VALUE)) == 0) ? 166 : 166): case ((((float) (Float.POSITIVE_INFINITY / 1.0f)) == 0) ? 167 : 167): case ((((float) (Float.POSITIVE_INFINITY / Float.MAX_VALUE)) == 0) ? 168 : 168): case ((((float) (Float.POSITIVE_INFINITY / Float.POSITIVE_INFINITY)) == 0) ? 169 : 169): case ((((float) (Float.POSITIVE_INFINITY / Float.NaN)) == 0) ? 170 : 170): case ((((float) (Float.NaN / Float.NEGATIVE_INFINITY)) == 0) ? 171 : 171): case ((((float) (Float.NaN / -1.0f)) == 0) ? 172 : 172): case ((((float) (Float.NaN / -0.0f)) == 0) ? 173 : 173): case ((((float) (Float.NaN / 0.0f)) == 0) ? 174 : 174): case ((((float) (Float.NaN / Float.MIN_VALUE)) == 0) ? 175 : 175): case ((((float) (Float.NaN / 1.0f)) == 0) ? 176 : 176): case ((((float) (Float.NaN / Float.MAX_VALUE)) == 0) ? 177 : 177): case ((((float) (Float.NaN / Float.POSITIVE_INFINITY)) == 0) ? 178 : 178): case ((((float) (Float.NaN / Float.NaN)) == 0) ? 179 : 179): case ((((float) (Float.NEGATIVE_INFINITY % Float.NEGATIVE_INFINITY)) == 0) ? 180 : 180): case ((((float) (Float.NEGATIVE_INFINITY % -1.0f)) == 0) ? 181 : 181): case ((((float) (Float.NEGATIVE_INFINITY % -0.0f)) == 0) ? 182 : 182): case ((((float) (Float.NEGATIVE_INFINITY % 0.0f)) == 0) ? 183 : 183): case ((((float) (Float.NEGATIVE_INFINITY % Float.MIN_VALUE)) == 0) ? 184 : 184): case ((((float) (Float.NEGATIVE_INFINITY % 1.0f)) == 0) ? 185 : 185): case ((((float) (Float.NEGATIVE_INFINITY % Float.MAX_VALUE)) == 0) ? 186 : 186): case ((((float) (Float.NEGATIVE_INFINITY % Float.POSITIVE_INFINITY)) == 0) ? 187 : 187): case ((((float) (Float.NEGATIVE_INFINITY % Float.NaN)) == 0) ? 188 : 188): case ((((float) (-1.0f % Float.NEGATIVE_INFINITY)) == 0) ? 189 : 189): case ((((float) (-1.0f % -1.0f)) == 0) ? 190 : 190): case ((((float) (-1.0f % -0.0f)) == 0) ? 191 : 191): case ((((float) (-1.0f % 0.0f)) == 0) ? 192 : 192): case ((((float) (-1.0f % Float.MIN_VALUE)) == 0) ? 193 : 193): case ((((float) (-1.0f % 1.0f)) == 0) ? 194 : 194): case ((((float) (-1.0f % Float.MAX_VALUE)) == 0) ? 195 : 195): case ((((float) (-1.0f % Float.POSITIVE_INFINITY)) == 0) ? 196 : 196): case ((((float) (-1.0f % Float.NaN)) == 0) ? 197 : 197): case ((((float) (-0.0f % Float.NEGATIVE_INFINITY)) == 0) ? 198 : 198): case ((((float) (-0.0f % -1.0f)) == 0) ? 199 : 199): case ((((float) (-0.0f % -0.0f)) == 0) ? 200 : 200): case ((((float) (-0.0f % 0.0f)) == 0) ? 201 : 201): case ((((float) (-0.0f % Float.MIN_VALUE)) == 0) ? 202 : 202): case ((((float) (-0.0f % 1.0f)) == 0) ? 203 : 203): case ((((float) (-0.0f % Float.MAX_VALUE)) == 0) ? 204 : 204): case ((((float) (-0.0f % Float.POSITIVE_INFINITY)) == 0) ? 205 : 205): case ((((float) (-0.0f % Float.NaN)) == 0) ? 206 : 206): case ((((float) (0.0f % Float.NEGATIVE_INFINITY)) == 0) ? 207 : 207): case ((((float) (0.0f % -1.0f)) == 0) ? 208 : 208): case ((((float) (0.0f % -0.0f)) == 0) ? 209 : 209): case ((((float) (0.0f % 0.0f)) == 0) ? 210 : 210): case ((((float) (0.0f % Float.MIN_VALUE)) == 0) ? 211 : 211): case ((((float) (0.0f % 1.0f)) == 0) ? 212 : 212): case ((((float) (0.0f % Float.MAX_VALUE)) == 0) ? 213 : 213): case ((((float) (0.0f % Float.POSITIVE_INFINITY)) == 0) ? 214 : 214): case ((((float) (0.0f % Float.NaN)) == 0) ? 215 : 215): case ((((float) (Float.MIN_VALUE % Float.NEGATIVE_INFINITY)) == 0) ? 216 : 216): case ((((float) (Float.MIN_VALUE % -1.0f)) == 0) ? 217 : 217): case ((((float) (Float.MIN_VALUE % -0.0f)) == 0) ? 218 : 218): case ((((float) (Float.MIN_VALUE % 0.0f)) == 0) ? 219 : 219): case ((((float) (Float.MIN_VALUE % Float.MIN_VALUE)) == 0) ? 220 : 220): case ((((float) (Float.MIN_VALUE % 1.0f)) == 0) ? 221 : 221): case ((((float) (Float.MIN_VALUE % Float.MAX_VALUE)) == 0) ? 222 : 222): case ((((float) (Float.MIN_VALUE % Float.POSITIVE_INFINITY)) == 0) ? 223 : 223): case ((((float) (Float.MIN_VALUE % Float.NaN)) == 0) ? 224 : 224): case ((((float) (1.0f % Float.NEGATIVE_INFINITY)) == 0) ? 225 : 225): case ((((float) (1.0f % -1.0f)) == 0) ? 226 : 226): case ((((float) (1.0f % -0.0f)) == 0) ? 227 : 227): case ((((float) (1.0f % 0.0f)) == 0) ? 228 : 228): case ((((float) (1.0f % Float.MIN_VALUE)) == 0) ? 229 : 229): case ((((float) (1.0f % 1.0f)) == 0) ? 230 : 230): case ((((float) (1.0f % Float.MAX_VALUE)) == 0) ? 231 : 231): case ((((float) (1.0f % Float.POSITIVE_INFINITY)) == 0) ? 232 : 232): case ((((float) (1.0f % Float.NaN)) == 0) ? 233 : 233): case ((((float) (Float.MAX_VALUE % Float.NEGATIVE_INFINITY)) == 0) ? 234 : 234): case ((((float) (Float.MAX_VALUE % -1.0f)) == 0) ? 235 : 235): case ((((float) (Float.MAX_VALUE % -0.0f)) == 0) ? 236 : 236): case ((((float) (Float.MAX_VALUE % 0.0f)) == 0) ? 237 : 237): case ((((float) (Float.MAX_VALUE % Float.MIN_VALUE)) == 0) ? 238 : 238): case ((((float) (Float.MAX_VALUE % 1.0f)) == 0) ? 239 : 239): case ((((float) (Float.MAX_VALUE % Float.MAX_VALUE)) == 0) ? 240 : 240): case ((((float) (Float.MAX_VALUE % Float.POSITIVE_INFINITY)) == 0) ? 241 : 241): case ((((float) (Float.MAX_VALUE % Float.NaN)) == 0) ? 242 : 242): case ((((float) (Float.POSITIVE_INFINITY % Float.NEGATIVE_INFINITY)) == 0) ? 243 : 243): case ((((float) (Float.POSITIVE_INFINITY % -1.0f)) == 0) ? 244 : 244): case ((((float) (Float.POSITIVE_INFINITY % -0.0f)) == 0) ? 245 : 245): case ((((float) (Float.POSITIVE_INFINITY % 0.0f)) == 0) ? 246 : 246): case ((((float) (Float.POSITIVE_INFINITY % Float.MIN_VALUE)) == 0) ? 247 : 247): case ((((float) (Float.POSITIVE_INFINITY % 1.0f)) == 0) ? 248 : 248): case ((((float) (Float.POSITIVE_INFINITY % Float.MAX_VALUE)) == 0) ? 249 : 249): case ((((float) (Float.POSITIVE_INFINITY % Float.POSITIVE_INFINITY)) == 0) ? 250 : 250): case ((((float) (Float.POSITIVE_INFINITY % Float.NaN)) == 0) ? 251 : 251): case ((((float) (Float.NaN % Float.NEGATIVE_INFINITY)) == 0) ? 252 : 252): case ((((float) (Float.NaN % -1.0f)) == 0) ? 253 : 253): case ((((float) (Float.NaN % -0.0f)) == 0) ? 254 : 254): case ((((float) (Float.NaN % 0.0f)) == 0) ? 255 : 255): case ((((float) (Float.NaN % Float.MIN_VALUE)) == 0) ? 256 : 256): case ((((float) (Float.NaN % 1.0f)) == 0) ? 257 : 257): case ((((float) (Float.NaN % Float.MAX_VALUE)) == 0) ? 258 : 258): case ((((float) (Float.NaN % Float.POSITIVE_INFINITY)) == 0) ? 259 : 259): case ((((float) (Float.NaN % Float.NaN)) == 0) ? 260 : 260): case ((((float) (Float.NEGATIVE_INFINITY + Float.NEGATIVE_INFINITY)) == 0) ? 261 : 261): case ((((float) (Float.NEGATIVE_INFINITY + -1.0f)) == 0) ? 262 : 262): case ((((float) (Float.NEGATIVE_INFINITY + -0.0f)) == 0) ? 263 : 263): case ((((float) (Float.NEGATIVE_INFINITY + 0.0f)) == 0) ? 264 : 264): case ((((float) (Float.NEGATIVE_INFINITY + Float.MIN_VALUE)) == 0) ? 265 : 265): case ((((float) (Float.NEGATIVE_INFINITY + 1.0f)) == 0) ? 266 : 266): case ((((float) (Float.NEGATIVE_INFINITY + Float.MAX_VALUE)) == 0) ? 267 : 267): case ((((float) (Float.NEGATIVE_INFINITY + Float.POSITIVE_INFINITY)) == 0) ? 268 : 268): case ((((float) (Float.NEGATIVE_INFINITY + Float.NaN)) == 0) ? 269 : 269): case ((((float) (-1.0f + Float.NEGATIVE_INFINITY)) == 0) ? 270 : 270): case ((((float) (-1.0f + -1.0f)) == 0) ? 271 : 271): case ((((float) (-1.0f + -0.0f)) == 0) ? 272 : 272): case ((((float) (-1.0f + 0.0f)) == 0) ? 273 : 273): case ((((float) (-1.0f + Float.MIN_VALUE)) == 0) ? 274 : 274): case ((((float) (-1.0f + 1.0f)) == 0) ? 275 : 275): case ((((float) (-1.0f + Float.MAX_VALUE)) == 0) ? 276 : 276): case ((((float) (-1.0f + Float.POSITIVE_INFINITY)) == 0) ? 277 : 277): case ((((float) (-1.0f + Float.NaN)) == 0) ? 278 : 278): case ((((float) (-0.0f + Float.NEGATIVE_INFINITY)) == 0) ? 279 : 279): case ((((float) (-0.0f + -1.0f)) == 0) ? 280 : 280): case ((((float) (-0.0f + -0.0f)) == 0) ? 281 : 281): case ((((float) (-0.0f + 0.0f)) == 0) ? 282 : 282): case ((((float) (-0.0f + Float.MIN_VALUE)) == 0) ? 283 : 283): case ((((float) (-0.0f + 1.0f)) == 0) ? 284 : 284): case ((((float) (-0.0f + Float.MAX_VALUE)) == 0) ? 285 : 285): case ((((float) (-0.0f + Float.POSITIVE_INFINITY)) == 0) ? 286 : 286): case ((((float) (-0.0f + Float.NaN)) == 0) ? 287 : 287): case ((((float) (0.0f + Float.NEGATIVE_INFINITY)) == 0) ? 288 : 288): case ((((float) (0.0f + -1.0f)) == 0) ? 289 : 289): case ((((float) (0.0f + -0.0f)) == 0) ? 290 : 290): case ((((float) (0.0f + 0.0f)) == 0) ? 291 : 291): case ((((float) (0.0f + Float.MIN_VALUE)) == 0) ? 292 : 292): case ((((float) (0.0f + 1.0f)) == 0) ? 293 : 293): case ((((float) (0.0f + Float.MAX_VALUE)) == 0) ? 294 : 294): case ((((float) (0.0f + Float.POSITIVE_INFINITY)) == 0) ? 295 : 295): case ((((float) (0.0f + Float.NaN)) == 0) ? 296 : 296): case ((((float) (Float.MIN_VALUE + Float.NEGATIVE_INFINITY)) == 0) ? 297 : 297): case ((((float) (Float.MIN_VALUE + -1.0f)) == 0) ? 298 : 298): case ((((float) (Float.MIN_VALUE + -0.0f)) == 0) ? 299 : 299): case ((((float) (Float.MIN_VALUE + 0.0f)) == 0) ? 300 : 300): case ((((float) (Float.MIN_VALUE + Float.MIN_VALUE)) == 0) ? 301 : 301): case ((((float) (Float.MIN_VALUE + 1.0f)) == 0) ? 302 : 302): case ((((float) (Float.MIN_VALUE + Float.MAX_VALUE)) == 0) ? 303 : 303): case ((((float) (Float.MIN_VALUE + Float.POSITIVE_INFINITY)) == 0) ? 304 : 304): case ((((float) (Float.MIN_VALUE + Float.NaN)) == 0) ? 305 : 305): case ((((float) (1.0f + Float.NEGATIVE_INFINITY)) == 0) ? 306 : 306): case ((((float) (1.0f + -1.0f)) == 0) ? 307 : 307): case ((((float) (1.0f + -0.0f)) == 0) ? 308 : 308): case ((((float) (1.0f + 0.0f)) == 0) ? 309 : 309): case ((((float) (1.0f + Float.MIN_VALUE)) == 0) ? 310 : 310): case ((((float) (1.0f + 1.0f)) == 0) ? 311 : 311): case ((((float) (1.0f + Float.MAX_VALUE)) == 0) ? 312 : 312): case ((((float) (1.0f + Float.POSITIVE_INFINITY)) == 0) ? 313 : 313): case ((((float) (1.0f + Float.NaN)) == 0) ? 314 : 314): case ((((float) (Float.MAX_VALUE + Float.NEGATIVE_INFINITY)) == 0) ? 315 : 315): case ((((float) (Float.MAX_VALUE + -1.0f)) == 0) ? 316 : 316): case ((((float) (Float.MAX_VALUE + -0.0f)) == 0) ? 317 : 317): case ((((float) (Float.MAX_VALUE + 0.0f)) == 0) ? 318 : 318): case ((((float) (Float.MAX_VALUE + Float.MIN_VALUE)) == 0) ? 319 : 319): case ((((float) (Float.MAX_VALUE + 1.0f)) == 0) ? 320 : 320): case ((((float) (Float.MAX_VALUE + Float.MAX_VALUE)) == 0) ? 321 : 321): case ((((float) (Float.MAX_VALUE + Float.POSITIVE_INFINITY)) == 0) ? 322 : 322): case ((((float) (Float.MAX_VALUE + Float.NaN)) == 0) ? 323 : 323): case ((((float) (Float.POSITIVE_INFINITY + Float.NEGATIVE_INFINITY)) == 0) ? 324 : 324): case ((((float) (Float.POSITIVE_INFINITY + -1.0f)) == 0) ? 325 : 325): case ((((float) (Float.POSITIVE_INFINITY + -0.0f)) == 0) ? 326 : 326): case ((((float) (Float.POSITIVE_INFINITY + 0.0f)) == 0) ? 327 : 327): case ((((float) (Float.POSITIVE_INFINITY + Float.MIN_VALUE)) == 0) ? 328 : 328): case ((((float) (Float.POSITIVE_INFINITY + 1.0f)) == 0) ? 329 : 329): case ((((float) (Float.POSITIVE_INFINITY + Float.MAX_VALUE)) == 0) ? 330 : 330): case ((((float) (Float.POSITIVE_INFINITY + Float.POSITIVE_INFINITY)) == 0) ? 331 : 331): case ((((float) (Float.POSITIVE_INFINITY + Float.NaN)) == 0) ? 332 : 332): case ((((float) (Float.NaN + Float.NEGATIVE_INFINITY)) == 0) ? 333 : 333): case ((((float) (Float.NaN + -1.0f)) == 0) ? 334 : 334): case ((((float) (Float.NaN + -0.0f)) == 0) ? 335 : 335): case ((((float) (Float.NaN + 0.0f)) == 0) ? 336 : 336): case ((((float) (Float.NaN + Float.MIN_VALUE)) == 0) ? 337 : 337): case ((((float) (Float.NaN + 1.0f)) == 0) ? 338 : 338): case ((((float) (Float.NaN + Float.MAX_VALUE)) == 0) ? 339 : 339): case ((((float) (Float.NaN + Float.POSITIVE_INFINITY)) == 0) ? 340 : 340): case ((((float) (Float.NaN + Float.NaN)) == 0) ? 341 : 341): case ((((float) (Float.NEGATIVE_INFINITY - Float.NEGATIVE_INFINITY)) == 0) ? 342 : 342): case ((((float) (Float.NEGATIVE_INFINITY - -1.0f)) == 0) ? 343 : 343): case ((((float) (Float.NEGATIVE_INFINITY - -0.0f)) == 0) ? 344 : 344): case ((((float) (Float.NEGATIVE_INFINITY - 0.0f)) == 0) ? 345 : 345): case ((((float) (Float.NEGATIVE_INFINITY - Float.MIN_VALUE)) == 0) ? 346 : 346): case ((((float) (Float.NEGATIVE_INFINITY - 1.0f)) == 0) ? 347 : 347): case ((((float) (Float.NEGATIVE_INFINITY - Float.MAX_VALUE)) == 0) ? 348 : 348): case ((((float) (Float.NEGATIVE_INFINITY - Float.POSITIVE_INFINITY)) == 0) ? 349 : 349): case ((((float) (Float.NEGATIVE_INFINITY - Float.NaN)) == 0) ? 350 : 350): case ((((float) (-1.0f - Float.NEGATIVE_INFINITY)) == 0) ? 351 : 351): case ((((float) (-1.0f - -1.0f)) == 0) ? 352 : 352): case ((((float) (-1.0f - -0.0f)) == 0) ? 353 : 353): case ((((float) (-1.0f - 0.0f)) == 0) ? 354 : 354): case ((((float) (-1.0f - Float.MIN_VALUE)) == 0) ? 355 : 355): case ((((float) (-1.0f - 1.0f)) == 0) ? 356 : 356): case ((((float) (-1.0f - Float.MAX_VALUE)) == 0) ? 357 : 357): case ((((float) (-1.0f - Float.POSITIVE_INFINITY)) == 0) ? 358 : 358): case ((((float) (-1.0f - Float.NaN)) == 0) ? 359 : 359): case ((((float) (-0.0f - Float.NEGATIVE_INFINITY)) == 0) ? 360 : 360): case ((((float) (-0.0f - -1.0f)) == 0) ? 361 : 361): case ((((float) (-0.0f - -0.0f)) == 0) ? 362 : 362): case ((((float) (-0.0f - 0.0f)) == 0) ? 363 : 363): case ((((float) (-0.0f - Float.MIN_VALUE)) == 0) ? 364 : 364): case ((((float) (-0.0f - 1.0f)) == 0) ? 365 : 365): case ((((float) (-0.0f - Float.MAX_VALUE)) == 0) ? 366 : 366): case ((((float) (-0.0f - Float.POSITIVE_INFINITY)) == 0) ? 367 : 367): case ((((float) (-0.0f - Float.NaN)) == 0) ? 368 : 368): case ((((float) (0.0f - Float.NEGATIVE_INFINITY)) == 0) ? 369 : 369): case ((((float) (0.0f - -1.0f)) == 0) ? 370 : 370): case ((((float) (0.0f - -0.0f)) == 0) ? 371 : 371): case ((((float) (0.0f - 0.0f)) == 0) ? 372 : 372): case ((((float) (0.0f - Float.MIN_VALUE)) == 0) ? 373 : 373): case ((((float) (0.0f - 1.0f)) == 0) ? 374 : 374): case ((((float) (0.0f - Float.MAX_VALUE)) == 0) ? 375 : 375): case ((((float) (0.0f - Float.POSITIVE_INFINITY)) == 0) ? 376 : 376): case ((((float) (0.0f - Float.NaN)) == 0) ? 377 : 377): case ((((float) (Float.MIN_VALUE - Float.NEGATIVE_INFINITY)) == 0) ? 378 : 378): case ((((float) (Float.MIN_VALUE - -1.0f)) == 0) ? 379 : 379): case ((((float) (Float.MIN_VALUE - -0.0f)) == 0) ? 380 : 380): case ((((float) (Float.MIN_VALUE - 0.0f)) == 0) ? 381 : 381): case ((((float) (Float.MIN_VALUE - Float.MIN_VALUE)) == 0) ? 382 : 382): case ((((float) (Float.MIN_VALUE - 1.0f)) == 0) ? 383 : 383): case ((((float) (Float.MIN_VALUE - Float.MAX_VALUE)) == 0) ? 384 : 384): case ((((float) (Float.MIN_VALUE - Float.POSITIVE_INFINITY)) == 0) ? 385 : 385): case ((((float) (Float.MIN_VALUE - Float.NaN)) == 0) ? 386 : 386): case ((((float) (1.0f - Float.NEGATIVE_INFINITY)) == 0) ? 387 : 387): case ((((float) (1.0f - -1.0f)) == 0) ? 388 : 388): case ((((float) (1.0f - -0.0f)) == 0) ? 389 : 389): case ((((float) (1.0f - 0.0f)) == 0) ? 390 : 390): case ((((float) (1.0f - Float.MIN_VALUE)) == 0) ? 391 : 391): case ((((float) (1.0f - 1.0f)) == 0) ? 392 : 392): case ((((float) (1.0f - Float.MAX_VALUE)) == 0) ? 393 : 393): case ((((float) (1.0f - Float.POSITIVE_INFINITY)) == 0) ? 394 : 394): case ((((float) (1.0f - Float.NaN)) == 0) ? 395 : 395): case ((((float) (Float.MAX_VALUE - Float.NEGATIVE_INFINITY)) == 0) ? 396 : 396): case ((((float) (Float.MAX_VALUE - -1.0f)) == 0) ? 397 : 397): case ((((float) (Float.MAX_VALUE - -0.0f)) == 0) ? 398 : 398): case ((((float) (Float.MAX_VALUE - 0.0f)) == 0) ? 399 : 399): case ((((float) (Float.MAX_VALUE - Float.MIN_VALUE)) == 0) ? 400 : 400): case ((((float) (Float.MAX_VALUE - 1.0f)) == 0) ? 401 : 401): case ((((float) (Float.MAX_VALUE - Float.MAX_VALUE)) == 0) ? 402 : 402): case ((((float) (Float.MAX_VALUE - Float.POSITIVE_INFINITY)) == 0) ? 403 : 403): case ((((float) (Float.MAX_VALUE - Float.NaN)) == 0) ? 404 : 404): case ((((float) (Float.POSITIVE_INFINITY - Float.NEGATIVE_INFINITY)) == 0) ? 405 : 405): case ((((float) (Float.POSITIVE_INFINITY - -1.0f)) == 0) ? 406 : 406): case ((((float) (Float.POSITIVE_INFINITY - -0.0f)) == 0) ? 407 : 407): case ((((float) (Float.POSITIVE_INFINITY - 0.0f)) == 0) ? 408 : 408): case ((((float) (Float.POSITIVE_INFINITY - Float.MIN_VALUE)) == 0) ? 409 : 409): case ((((float) (Float.POSITIVE_INFINITY - 1.0f)) == 0) ? 410 : 410): case ((((float) (Float.POSITIVE_INFINITY - Float.MAX_VALUE)) == 0) ? 411 : 411): case ((((float) (Float.POSITIVE_INFINITY - Float.POSITIVE_INFINITY)) == 0) ? 412 : 412): case ((((float) (Float.POSITIVE_INFINITY - Float.NaN)) == 0) ? 413 : 413): case ((((float) (Float.NaN - Float.NEGATIVE_INFINITY)) == 0) ? 414 : 414): case ((((float) (Float.NaN - -1.0f)) == 0) ? 415 : 415): case ((((float) (Float.NaN - -0.0f)) == 0) ? 416 : 416): case ((((float) (Float.NaN - 0.0f)) == 0) ? 417 : 417): case ((((float) (Float.NaN - Float.MIN_VALUE)) == 0) ? 418 : 418): case ((((float) (Float.NaN - 1.0f)) == 0) ? 419 : 419): case ((((float) (Float.NaN - Float.MAX_VALUE)) == 0) ? 420 : 420): case ((((float) (Float.NaN - Float.POSITIVE_INFINITY)) == 0) ? 421 : 421): case ((((float) (Float.NaN - Float.NaN)) == 0) ? 422 : 422): case ((Float.NEGATIVE_INFINITY < Float.NEGATIVE_INFINITY) ? 423 : 423): case ((Float.NEGATIVE_INFINITY < -1.0f) ? 424 : 424): case ((Float.NEGATIVE_INFINITY < -0.0f) ? 425 : 425): case ((Float.NEGATIVE_INFINITY < 0.0f) ? 426 : 426): case ((Float.NEGATIVE_INFINITY < Float.MIN_VALUE) ? 427 : 427): case ((Float.NEGATIVE_INFINITY < 1.0f) ? 428 : 428): case ((Float.NEGATIVE_INFINITY < Float.MAX_VALUE) ? 429 : 429): case ((Float.NEGATIVE_INFINITY < Float.POSITIVE_INFINITY) ? 430 : 430): case ((Float.NEGATIVE_INFINITY < Float.NaN) ? 431 : 431): case ((-1.0f < Float.NEGATIVE_INFINITY) ? 432 : 432): case ((-1.0f < -1.0f) ? 433 : 433): case ((-1.0f < -0.0f) ? 434 : 434): case ((-1.0f < 0.0f) ? 435 : 435): case ((-1.0f < Float.MIN_VALUE) ? 436 : 436): case ((-1.0f < 1.0f) ? 437 : 437): case ((-1.0f < Float.MAX_VALUE) ? 438 : 438): case ((-1.0f < Float.POSITIVE_INFINITY) ? 439 : 439): case ((-1.0f < Float.NaN) ? 440 : 440): case ((-0.0f < Float.NEGATIVE_INFINITY) ? 441 : 441): case ((-0.0f < -1.0f) ? 442 : 442): case ((-0.0f < -0.0f) ? 443 : 443): case ((-0.0f < 0.0f) ? 444 : 444): case ((-0.0f < Float.MIN_VALUE) ? 445 : 445): case ((-0.0f < 1.0f) ? 446 : 446): case ((-0.0f < Float.MAX_VALUE) ? 447 : 447): case ((-0.0f < Float.POSITIVE_INFINITY) ? 448 : 448): case ((-0.0f < Float.NaN) ? 449 : 449): case ((0.0f < Float.NEGATIVE_INFINITY) ? 450 : 450): case ((0.0f < -1.0f) ? 451 : 451): case ((0.0f < -0.0f) ? 452 : 452): case ((0.0f < 0.0f) ? 453 : 453): case ((0.0f < Float.MIN_VALUE) ? 454 : 454): case ((0.0f < 1.0f) ? 455 : 455): case ((0.0f < Float.MAX_VALUE) ? 456 : 456): case ((0.0f < Float.POSITIVE_INFINITY) ? 457 : 457): case ((0.0f < Float.NaN) ? 458 : 458): case ((Float.MIN_VALUE < Float.NEGATIVE_INFINITY) ? 459 : 459): case ((Float.MIN_VALUE < -1.0f) ? 460 : 460): case ((Float.MIN_VALUE < -0.0f) ? 461 : 461): case ((Float.MIN_VALUE < 0.0f) ? 462 : 462): case ((Float.MIN_VALUE < Float.MIN_VALUE) ? 463 : 463): case ((Float.MIN_VALUE < 1.0f) ? 464 : 464): case ((Float.MIN_VALUE < Float.MAX_VALUE) ? 465 : 465): case ((Float.MIN_VALUE < Float.POSITIVE_INFINITY) ? 466 : 466): case ((Float.MIN_VALUE < Float.NaN) ? 467 : 467): case ((1.0f < Float.NEGATIVE_INFINITY) ? 468 : 468): case ((1.0f < -1.0f) ? 469 : 469): case ((1.0f < -0.0f) ? 470 : 470): case ((1.0f < 0.0f) ? 471 : 471): case ((1.0f < Float.MIN_VALUE) ? 472 : 472): case ((1.0f < 1.0f) ? 473 : 473): case ((1.0f < Float.MAX_VALUE) ? 474 : 474): case ((1.0f < Float.POSITIVE_INFINITY) ? 475 : 475): case ((1.0f < Float.NaN) ? 476 : 476): case ((Float.MAX_VALUE < Float.NEGATIVE_INFINITY) ? 477 : 477): case ((Float.MAX_VALUE < -1.0f) ? 478 : 478): case ((Float.MAX_VALUE < -0.0f) ? 479 : 479): case ((Float.MAX_VALUE < 0.0f) ? 480 : 480): case ((Float.MAX_VALUE < Float.MIN_VALUE) ? 481 : 481): case ((Float.MAX_VALUE < 1.0f) ? 482 : 482): case ((Float.MAX_VALUE < Float.MAX_VALUE) ? 483 : 483): case ((Float.MAX_VALUE < Float.POSITIVE_INFINITY) ? 484 : 484): case ((Float.MAX_VALUE < Float.NaN) ? 485 : 485): case ((Float.POSITIVE_INFINITY < Float.NEGATIVE_INFINITY) ? 486 : 486): case ((Float.POSITIVE_INFINITY < -1.0f) ? 487 : 487): case ((Float.POSITIVE_INFINITY < -0.0f) ? 488 : 488): case ((Float.POSITIVE_INFINITY < 0.0f) ? 489 : 489): case ((Float.POSITIVE_INFINITY < Float.MIN_VALUE) ? 490 : 490): case ((Float.POSITIVE_INFINITY < 1.0f) ? 491 : 491): case ((Float.POSITIVE_INFINITY < Float.MAX_VALUE) ? 492 : 492): case ((Float.POSITIVE_INFINITY < Float.POSITIVE_INFINITY) ? 493 : 493): case ((Float.POSITIVE_INFINITY < Float.NaN) ? 494 : 494): case ((Float.NaN < Float.NEGATIVE_INFINITY) ? 495 : 495): case ((Float.NaN < -1.0f) ? 496 : 496): case ((Float.NaN < -0.0f) ? 497 : 497): case ((Float.NaN < 0.0f) ? 498 : 498): case ((Float.NaN < Float.MIN_VALUE) ? 499 : 499): case ((Float.NaN < 1.0f) ? 500 : 500): case ((Float.NaN < Float.MAX_VALUE) ? 501 : 501): case ((Float.NaN < Float.POSITIVE_INFINITY) ? 502 : 502): case ((Float.NaN < Float.NaN) ? 503 : 503): case ((Float.NEGATIVE_INFINITY > Float.NEGATIVE_INFINITY) ? 504 : 504): case ((Float.NEGATIVE_INFINITY > -1.0f) ? 505 : 505): case ((Float.NEGATIVE_INFINITY > -0.0f) ? 506 : 506): case ((Float.NEGATIVE_INFINITY > 0.0f) ? 507 : 507): case ((Float.NEGATIVE_INFINITY > Float.MIN_VALUE) ? 508 : 508): case ((Float.NEGATIVE_INFINITY > 1.0f) ? 509 : 509): case ((Float.NEGATIVE_INFINITY > Float.MAX_VALUE) ? 510 : 510): case ((Float.NEGATIVE_INFINITY > Float.POSITIVE_INFINITY) ? 511 : 511): case ((Float.NEGATIVE_INFINITY > Float.NaN) ? 512 : 512): case ((-1.0f > Float.NEGATIVE_INFINITY) ? 513 : 513): case ((-1.0f > -1.0f) ? 514 : 514): case ((-1.0f > -0.0f) ? 515 : 515): case ((-1.0f > 0.0f) ? 516 : 516): case ((-1.0f > Float.MIN_VALUE) ? 517 : 517): case ((-1.0f > 1.0f) ? 518 : 518): case ((-1.0f > Float.MAX_VALUE) ? 519 : 519): case ((-1.0f > Float.POSITIVE_INFINITY) ? 520 : 520): case ((-1.0f > Float.NaN) ? 521 : 521): case ((-0.0f > Float.NEGATIVE_INFINITY) ? 522 : 522): case ((-0.0f > -1.0f) ? 523 : 523): case ((-0.0f > -0.0f) ? 524 : 524): case ((-0.0f > 0.0f) ? 525 : 525): case ((-0.0f > Float.MIN_VALUE) ? 526 : 526): case ((-0.0f > 1.0f) ? 527 : 527): case ((-0.0f > Float.MAX_VALUE) ? 528 : 528): case ((-0.0f > Float.POSITIVE_INFINITY) ? 529 : 529): case ((-0.0f > Float.NaN) ? 530 : 530): case ((0.0f > Float.NEGATIVE_INFINITY) ? 531 : 531): case ((0.0f > -1.0f) ? 532 : 532): case ((0.0f > -0.0f) ? 533 : 533): case ((0.0f > 0.0f) ? 534 : 534): case ((0.0f > Float.MIN_VALUE) ? 535 : 535): case ((0.0f > 1.0f) ? 536 : 536): case ((0.0f > Float.MAX_VALUE) ? 537 : 537): case ((0.0f > Float.POSITIVE_INFINITY) ? 538 : 538): case ((0.0f > Float.NaN) ? 539 : 539): case ((Float.MIN_VALUE > Float.NEGATIVE_INFINITY) ? 540 : 540): case ((Float.MIN_VALUE > -1.0f) ? 541 : 541): case ((Float.MIN_VALUE > -0.0f) ? 542 : 542): case ((Float.MIN_VALUE > 0.0f) ? 543 : 543): case ((Float.MIN_VALUE > Float.MIN_VALUE) ? 544 : 544): case ((Float.MIN_VALUE > 1.0f) ? 545 : 545): case ((Float.MIN_VALUE > Float.MAX_VALUE) ? 546 : 546): case ((Float.MIN_VALUE > Float.POSITIVE_INFINITY) ? 547 : 547): case ((Float.MIN_VALUE > Float.NaN) ? 548 : 548): case ((1.0f > Float.NEGATIVE_INFINITY) ? 549 : 549): case ((1.0f > -1.0f) ? 550 : 550): case ((1.0f > -0.0f) ? 551 : 551): case ((1.0f > 0.0f) ? 552 : 552): case ((1.0f > Float.MIN_VALUE) ? 553 : 553): case ((1.0f > 1.0f) ? 554 : 554): case ((1.0f > Float.MAX_VALUE) ? 555 : 555): case ((1.0f > Float.POSITIVE_INFINITY) ? 556 : 556): case ((1.0f > Float.NaN) ? 557 : 557): case ((Float.MAX_VALUE > Float.NEGATIVE_INFINITY) ? 558 : 558): case ((Float.MAX_VALUE > -1.0f) ? 559 : 559): case ((Float.MAX_VALUE > -0.0f) ? 560 : 560): case ((Float.MAX_VALUE > 0.0f) ? 561 : 561): case ((Float.MAX_VALUE > Float.MIN_VALUE) ? 562 : 562): case ((Float.MAX_VALUE > 1.0f) ? 563 : 563): case ((Float.MAX_VALUE > Float.MAX_VALUE) ? 564 : 564): case ((Float.MAX_VALUE > Float.POSITIVE_INFINITY) ? 565 : 565): case ((Float.MAX_VALUE > Float.NaN) ? 566 : 566): case ((Float.POSITIVE_INFINITY > Float.NEGATIVE_INFINITY) ? 567 : 567): case ((Float.POSITIVE_INFINITY > -1.0f) ? 568 : 568): case ((Float.POSITIVE_INFINITY > -0.0f) ? 569 : 569): case ((Float.POSITIVE_INFINITY > 0.0f) ? 570 : 570): case ((Float.POSITIVE_INFINITY > Float.MIN_VALUE) ? 571 : 571): case ((Float.POSITIVE_INFINITY > 1.0f) ? 572 : 572): case ((Float.POSITIVE_INFINITY > Float.MAX_VALUE) ? 573 : 573): case ((Float.POSITIVE_INFINITY > Float.POSITIVE_INFINITY) ? 574 : 574): case ((Float.POSITIVE_INFINITY > Float.NaN) ? 575 : 575): case ((Float.NaN > Float.NEGATIVE_INFINITY) ? 576 : 576): case ((Float.NaN > -1.0f) ? 577 : 577): case ((Float.NaN > -0.0f) ? 578 : 578): case ((Float.NaN > 0.0f) ? 579 : 579): case ((Float.NaN > Float.MIN_VALUE) ? 580 : 580): case ((Float.NaN > 1.0f) ? 581 : 581): case ((Float.NaN > Float.MAX_VALUE) ? 582 : 582): case ((Float.NaN > Float.POSITIVE_INFINITY) ? 583 : 583): case ((Float.NaN > Float.NaN) ? 584 : 584): case ((Float.NEGATIVE_INFINITY <= Float.NEGATIVE_INFINITY) ? 585 : 585): case ((Float.NEGATIVE_INFINITY <= -1.0f) ? 586 : 586): case ((Float.NEGATIVE_INFINITY <= -0.0f) ? 587 : 587): case ((Float.NEGATIVE_INFINITY <= 0.0f) ? 588 : 588): case ((Float.NEGATIVE_INFINITY <= Float.MIN_VALUE) ? 589 : 589): case ((Float.NEGATIVE_INFINITY <= 1.0f) ? 590 : 590): case ((Float.NEGATIVE_INFINITY <= Float.MAX_VALUE) ? 591 : 591): case ((Float.NEGATIVE_INFINITY <= Float.POSITIVE_INFINITY) ? 592 : 592): case ((Float.NEGATIVE_INFINITY <= Float.NaN) ? 593 : 593): case ((-1.0f <= Float.NEGATIVE_INFINITY) ? 594 : 594): case ((-1.0f <= -1.0f) ? 595 : 595): case ((-1.0f <= -0.0f) ? 596 : 596): case ((-1.0f <= 0.0f) ? 597 : 597): case ((-1.0f <= Float.MIN_VALUE) ? 598 : 598): case ((-1.0f <= 1.0f) ? 599 : 599): case ((-1.0f <= Float.MAX_VALUE) ? 600 : 600): case ((-1.0f <= Float.POSITIVE_INFINITY) ? 601 : 601): case ((-1.0f <= Float.NaN) ? 602 : 602): case ((-0.0f <= Float.NEGATIVE_INFINITY) ? 603 : 603): case ((-0.0f <= -1.0f) ? 604 : 604): case ((-0.0f <= -0.0f) ? 605 : 605): case ((-0.0f <= 0.0f) ? 606 : 606): case ((-0.0f <= Float.MIN_VALUE) ? 607 : 607): case ((-0.0f <= 1.0f) ? 608 : 608): case ((-0.0f <= Float.MAX_VALUE) ? 609 : 609): case ((-0.0f <= Float.POSITIVE_INFINITY) ? 610 : 610): case ((-0.0f <= Float.NaN) ? 611 : 611): case ((0.0f <= Float.NEGATIVE_INFINITY) ? 612 : 612): case ((0.0f <= -1.0f) ? 613 : 613): case ((0.0f <= -0.0f) ? 614 : 614): case ((0.0f <= 0.0f) ? 615 : 615): case ((0.0f <= Float.MIN_VALUE) ? 616 : 616): case ((0.0f <= 1.0f) ? 617 : 617): case ((0.0f <= Float.MAX_VALUE) ? 618 : 618): case ((0.0f <= Float.POSITIVE_INFINITY) ? 619 : 619): case ((0.0f <= Float.NaN) ? 620 : 620): case ((Float.MIN_VALUE <= Float.NEGATIVE_INFINITY) ? 621 : 621): case ((Float.MIN_VALUE <= -1.0f) ? 622 : 622): case ((Float.MIN_VALUE <= -0.0f) ? 623 : 623): case ((Float.MIN_VALUE <= 0.0f) ? 624 : 624): case ((Float.MIN_VALUE <= Float.MIN_VALUE) ? 625 : 625): case ((Float.MIN_VALUE <= 1.0f) ? 626 : 626): case ((Float.MIN_VALUE <= Float.MAX_VALUE) ? 627 : 627): case ((Float.MIN_VALUE <= Float.POSITIVE_INFINITY) ? 628 : 628): case ((Float.MIN_VALUE <= Float.NaN) ? 629 : 629): case ((1.0f <= Float.NEGATIVE_INFINITY) ? 630 : 630): case ((1.0f <= -1.0f) ? 631 : 631): case ((1.0f <= -0.0f) ? 632 : 632): case ((1.0f <= 0.0f) ? 633 : 633): case ((1.0f <= Float.MIN_VALUE) ? 634 : 634): case ((1.0f <= 1.0f) ? 635 : 635): case ((1.0f <= Float.MAX_VALUE) ? 636 : 636): case ((1.0f <= Float.POSITIVE_INFINITY) ? 637 : 637): case ((1.0f <= Float.NaN) ? 638 : 638): case ((Float.MAX_VALUE <= Float.NEGATIVE_INFINITY) ? 639 : 639): case ((Float.MAX_VALUE <= -1.0f) ? 640 : 640): case ((Float.MAX_VALUE <= -0.0f) ? 641 : 641): case ((Float.MAX_VALUE <= 0.0f) ? 642 : 642): case ((Float.MAX_VALUE <= Float.MIN_VALUE) ? 643 : 643): case ((Float.MAX_VALUE <= 1.0f) ? 644 : 644): case ((Float.MAX_VALUE <= Float.MAX_VALUE) ? 645 : 645): case ((Float.MAX_VALUE <= Float.POSITIVE_INFINITY) ? 646 : 646): case ((Float.MAX_VALUE <= Float.NaN) ? 647 : 647): case ((Float.POSITIVE_INFINITY <= Float.NEGATIVE_INFINITY) ? 648 : 648): case ((Float.POSITIVE_INFINITY <= -1.0f) ? 649 : 649): case ((Float.POSITIVE_INFINITY <= -0.0f) ? 650 : 650): case ((Float.POSITIVE_INFINITY <= 0.0f) ? 651 : 651): case ((Float.POSITIVE_INFINITY <= Float.MIN_VALUE) ? 652 : 652): case ((Float.POSITIVE_INFINITY <= 1.0f) ? 653 : 653): case ((Float.POSITIVE_INFINITY <= Float.MAX_VALUE) ? 654 : 654): case ((Float.POSITIVE_INFINITY <= Float.POSITIVE_INFINITY) ? 655 : 655): case ((Float.POSITIVE_INFINITY <= Float.NaN) ? 656 : 656): case ((Float.NaN <= Float.NEGATIVE_INFINITY) ? 657 : 657): case ((Float.NaN <= -1.0f) ? 658 : 658): case ((Float.NaN <= -0.0f) ? 659 : 659): case ((Float.NaN <= 0.0f) ? 660 : 660): case ((Float.NaN <= Float.MIN_VALUE) ? 661 : 661): case ((Float.NaN <= 1.0f) ? 662 : 662): case ((Float.NaN <= Float.MAX_VALUE) ? 663 : 663): case ((Float.NaN <= Float.POSITIVE_INFINITY) ? 664 : 664): case ((Float.NaN <= Float.NaN) ? 665 : 665): case ((Float.NEGATIVE_INFINITY >= Float.NEGATIVE_INFINITY) ? 666 : 666): case ((Float.NEGATIVE_INFINITY >= -1.0f) ? 667 : 667): case ((Float.NEGATIVE_INFINITY >= -0.0f) ? 668 : 668): case ((Float.NEGATIVE_INFINITY >= 0.0f) ? 669 : 669): case ((Float.NEGATIVE_INFINITY >= Float.MIN_VALUE) ? 670 : 670): case ((Float.NEGATIVE_INFINITY >= 1.0f) ? 671 : 671): case ((Float.NEGATIVE_INFINITY >= Float.MAX_VALUE) ? 672 : 672): case ((Float.NEGATIVE_INFINITY >= Float.POSITIVE_INFINITY) ? 673 : 673): case ((Float.NEGATIVE_INFINITY >= Float.NaN) ? 674 : 674): case ((-1.0f >= Float.NEGATIVE_INFINITY) ? 675 : 675): case ((-1.0f >= -1.0f) ? 676 : 676): case ((-1.0f >= -0.0f) ? 677 : 677): case ((-1.0f >= 0.0f) ? 678 : 678): case ((-1.0f >= Float.MIN_VALUE) ? 679 : 679): case ((-1.0f >= 1.0f) ? 680 : 680): case ((-1.0f >= Float.MAX_VALUE) ? 681 : 681): case ((-1.0f >= Float.POSITIVE_INFINITY) ? 682 : 682): case ((-1.0f >= Float.NaN) ? 683 : 683): case ((-0.0f >= Float.NEGATIVE_INFINITY) ? 684 : 684): case ((-0.0f >= -1.0f) ? 685 : 685): case ((-0.0f >= -0.0f) ? 686 : 686): case ((-0.0f >= 0.0f) ? 687 : 687): case ((-0.0f >= Float.MIN_VALUE) ? 688 : 688): case ((-0.0f >= 1.0f) ? 689 : 689): case ((-0.0f >= Float.MAX_VALUE) ? 690 : 690): case ((-0.0f >= Float.POSITIVE_INFINITY) ? 691 : 691): case ((-0.0f >= Float.NaN) ? 692 : 692): case ((0.0f >= Float.NEGATIVE_INFINITY) ? 693 : 693): case ((0.0f >= -1.0f) ? 694 : 694): case ((0.0f >= -0.0f) ? 695 : 695): case ((0.0f >= 0.0f) ? 696 : 696): case ((0.0f >= Float.MIN_VALUE) ? 697 : 697): case ((0.0f >= 1.0f) ? 698 : 698): case ((0.0f >= Float.MAX_VALUE) ? 699 : 699): case ((0.0f >= Float.POSITIVE_INFINITY) ? 700 : 700): case ((0.0f >= Float.NaN) ? 701 : 701): case ((Float.MIN_VALUE >= Float.NEGATIVE_INFINITY) ? 702 : 702): case ((Float.MIN_VALUE >= -1.0f) ? 703 : 703): case ((Float.MIN_VALUE >= -0.0f) ? 704 : 704): case ((Float.MIN_VALUE >= 0.0f) ? 705 : 705): case ((Float.MIN_VALUE >= Float.MIN_VALUE) ? 706 : 706): case ((Float.MIN_VALUE >= 1.0f) ? 707 : 707): case ((Float.MIN_VALUE >= Float.MAX_VALUE) ? 708 : 708): case ((Float.MIN_VALUE >= Float.POSITIVE_INFINITY) ? 709 : 709): case ((Float.MIN_VALUE >= Float.NaN) ? 710 : 710): case ((1.0f >= Float.NEGATIVE_INFINITY) ? 711 : 711): case ((1.0f >= -1.0f) ? 712 : 712): case ((1.0f >= -0.0f) ? 713 : 713): case ((1.0f >= 0.0f) ? 714 : 714): case ((1.0f >= Float.MIN_VALUE) ? 715 : 715): case ((1.0f >= 1.0f) ? 716 : 716): case ((1.0f >= Float.MAX_VALUE) ? 717 : 717): case ((1.0f >= Float.POSITIVE_INFINITY) ? 718 : 718): case ((1.0f >= Float.NaN) ? 719 : 719): case ((Float.MAX_VALUE >= Float.NEGATIVE_INFINITY) ? 720 : 720): case ((Float.MAX_VALUE >= -1.0f) ? 721 : 721): case ((Float.MAX_VALUE >= -0.0f) ? 722 : 722): case ((Float.MAX_VALUE >= 0.0f) ? 723 : 723): case ((Float.MAX_VALUE >= Float.MIN_VALUE) ? 724 : 724): case ((Float.MAX_VALUE >= 1.0f) ? 725 : 725): case ((Float.MAX_VALUE >= Float.MAX_VALUE) ? 726 : 726): case ((Float.MAX_VALUE >= Float.POSITIVE_INFINITY) ? 727 : 727): case ((Float.MAX_VALUE >= Float.NaN) ? 728 : 728): case ((Float.POSITIVE_INFINITY >= Float.NEGATIVE_INFINITY) ? 729 : 729): case ((Float.POSITIVE_INFINITY >= -1.0f) ? 730 : 730): case ((Float.POSITIVE_INFINITY >= -0.0f) ? 731 : 731): case ((Float.POSITIVE_INFINITY >= 0.0f) ? 732 : 732): case ((Float.POSITIVE_INFINITY >= Float.MIN_VALUE) ? 733 : 733): case ((Float.POSITIVE_INFINITY >= 1.0f) ? 734 : 734): case ((Float.POSITIVE_INFINITY >= Float.MAX_VALUE) ? 735 : 735): case ((Float.POSITIVE_INFINITY >= Float.POSITIVE_INFINITY) ? 736 : 736): case ((Float.POSITIVE_INFINITY >= Float.NaN) ? 737 : 737): case ((Float.NaN >= Float.NEGATIVE_INFINITY) ? 738 : 738): case ((Float.NaN >= -1.0f) ? 739 : 739): case ((Float.NaN >= -0.0f) ? 740 : 740): case ((Float.NaN >= 0.0f) ? 741 : 741): case ((Float.NaN >= Float.MIN_VALUE) ? 742 : 742): case ((Float.NaN >= 1.0f) ? 743 : 743): case ((Float.NaN >= Float.MAX_VALUE) ? 744 : 744): case ((Float.NaN >= Float.POSITIVE_INFINITY) ? 745 : 745): case ((Float.NaN >= Float.NaN) ? 746 : 746): case ((Float.NEGATIVE_INFINITY == Float.NEGATIVE_INFINITY) ? 747 : 747): case ((Float.NEGATIVE_INFINITY == -1.0f) ? 748 : 748): case ((Float.NEGATIVE_INFINITY == -0.0f) ? 749 : 749): case ((Float.NEGATIVE_INFINITY == 0.0f) ? 750 : 750): case ((Float.NEGATIVE_INFINITY == Float.MIN_VALUE) ? 751 : 751): case ((Float.NEGATIVE_INFINITY == 1.0f) ? 752 : 752): case ((Float.NEGATIVE_INFINITY == Float.MAX_VALUE) ? 753 : 753): case ((Float.NEGATIVE_INFINITY == Float.POSITIVE_INFINITY) ? 754 : 754): case ((Float.NEGATIVE_INFINITY == Float.NaN) ? 755 : 755): case ((-1.0f == Float.NEGATIVE_INFINITY) ? 756 : 756): case ((-1.0f == -1.0f) ? 757 : 757): case ((-1.0f == -0.0f) ? 758 : 758): case ((-1.0f == 0.0f) ? 759 : 759): case ((-1.0f == Float.MIN_VALUE) ? 760 : 760): case ((-1.0f == 1.0f) ? 761 : 761): case ((-1.0f == Float.MAX_VALUE) ? 762 : 762): case ((-1.0f == Float.POSITIVE_INFINITY) ? 763 : 763): case ((-1.0f == Float.NaN) ? 764 : 764): case ((-0.0f == Float.NEGATIVE_INFINITY) ? 765 : 765): case ((-0.0f == -1.0f) ? 766 : 766): case ((-0.0f == -0.0f) ? 767 : 767): case ((-0.0f == 0.0f) ? 768 : 768): case ((-0.0f == Float.MIN_VALUE) ? 769 : 769): case ((-0.0f == 1.0f) ? 770 : 770): case ((-0.0f == Float.MAX_VALUE) ? 771 : 771): case ((-0.0f == Float.POSITIVE_INFINITY) ? 772 : 772): case ((-0.0f == Float.NaN) ? 773 : 773): case ((0.0f == Float.NEGATIVE_INFINITY) ? 774 : 774): case ((0.0f == -1.0f) ? 775 : 775): case ((0.0f == -0.0f) ? 776 : 776): case ((0.0f == 0.0f) ? 777 : 777): case ((0.0f == Float.MIN_VALUE) ? 778 : 778): case ((0.0f == 1.0f) ? 779 : 779): case ((0.0f == Float.MAX_VALUE) ? 780 : 780): case ((0.0f == Float.POSITIVE_INFINITY) ? 781 : 781): case ((0.0f == Float.NaN) ? 782 : 782): case ((Float.MIN_VALUE == Float.NEGATIVE_INFINITY) ? 783 : 783): case ((Float.MIN_VALUE == -1.0f) ? 784 : 784): case ((Float.MIN_VALUE == -0.0f) ? 785 : 785): case ((Float.MIN_VALUE == 0.0f) ? 786 : 786): case ((Float.MIN_VALUE == Float.MIN_VALUE) ? 787 : 787): case ((Float.MIN_VALUE == 1.0f) ? 788 : 788): case ((Float.MIN_VALUE == Float.MAX_VALUE) ? 789 : 789): case ((Float.MIN_VALUE == Float.POSITIVE_INFINITY) ? 790 : 790): case ((Float.MIN_VALUE == Float.NaN) ? 791 : 791): case ((1.0f == Float.NEGATIVE_INFINITY) ? 792 : 792): case ((1.0f == -1.0f) ? 793 : 793): case ((1.0f == -0.0f) ? 794 : 794): case ((1.0f == 0.0f) ? 795 : 795): case ((1.0f == Float.MIN_VALUE) ? 796 : 796): case ((1.0f == 1.0f) ? 797 : 797): case ((1.0f == Float.MAX_VALUE) ? 798 : 798): case ((1.0f == Float.POSITIVE_INFINITY) ? 799 : 799): case ((1.0f == Float.NaN) ? 800 : 800): case ((Float.MAX_VALUE == Float.NEGATIVE_INFINITY) ? 801 : 801): case ((Float.MAX_VALUE == -1.0f) ? 802 : 802): case ((Float.MAX_VALUE == -0.0f) ? 803 : 803): case ((Float.MAX_VALUE == 0.0f) ? 804 : 804): case ((Float.MAX_VALUE == Float.MIN_VALUE) ? 805 : 805): case ((Float.MAX_VALUE == 1.0f) ? 806 : 806): case ((Float.MAX_VALUE == Float.MAX_VALUE) ? 807 : 807): case ((Float.MAX_VALUE == Float.POSITIVE_INFINITY) ? 808 : 808): case ((Float.MAX_VALUE == Float.NaN) ? 809 : 809): case ((Float.POSITIVE_INFINITY == Float.NEGATIVE_INFINITY) ? 810 : 810): case ((Float.POSITIVE_INFINITY == -1.0f) ? 811 : 811): case ((Float.POSITIVE_INFINITY == -0.0f) ? 812 : 812): case ((Float.POSITIVE_INFINITY == 0.0f) ? 813 : 813): case ((Float.POSITIVE_INFINITY == Float.MIN_VALUE) ? 814 : 814): case ((Float.POSITIVE_INFINITY == 1.0f) ? 815 : 815): case ((Float.POSITIVE_INFINITY == Float.MAX_VALUE) ? 816 : 816): case ((Float.POSITIVE_INFINITY == Float.POSITIVE_INFINITY) ? 817 : 817): case ((Float.POSITIVE_INFINITY == Float.NaN) ? 818 : 818): case ((Float.NaN == Float.NEGATIVE_INFINITY) ? 819 : 819): case ((Float.NaN == -1.0f) ? 820 : 820): case ((Float.NaN == -0.0f) ? 821 : 821): case ((Float.NaN == 0.0f) ? 822 : 822): case ((Float.NaN == Float.MIN_VALUE) ? 823 : 823): case ((Float.NaN == 1.0f) ? 824 : 824): case ((Float.NaN == Float.MAX_VALUE) ? 825 : 825): case ((Float.NaN == Float.POSITIVE_INFINITY) ? 826 : 826): case ((Float.NaN == Float.NaN) ? 827 : 827): case ((Float.NEGATIVE_INFINITY != Float.NEGATIVE_INFINITY) ? 828 : 828): case ((Float.NEGATIVE_INFINITY != -1.0f) ? 829 : 829): case ((Float.NEGATIVE_INFINITY != -0.0f) ? 830 : 830): case ((Float.NEGATIVE_INFINITY != 0.0f) ? 831 : 831): case ((Float.NEGATIVE_INFINITY != Float.MIN_VALUE) ? 832 : 832): case ((Float.NEGATIVE_INFINITY != 1.0f) ? 833 : 833): case ((Float.NEGATIVE_INFINITY != Float.MAX_VALUE) ? 834 : 834): case ((Float.NEGATIVE_INFINITY != Float.POSITIVE_INFINITY) ? 835 : 835): case ((Float.NEGATIVE_INFINITY != Float.NaN) ? 836 : 836): case ((-1.0f != Float.NEGATIVE_INFINITY) ? 837 : 837): case ((-1.0f != -1.0f) ? 838 : 838): case ((-1.0f != -0.0f) ? 839 : 839): case ((-1.0f != 0.0f) ? 840 : 840): case ((-1.0f != Float.MIN_VALUE) ? 841 : 841): case ((-1.0f != 1.0f) ? 842 : 842): case ((-1.0f != Float.MAX_VALUE) ? 843 : 843): case ((-1.0f != Float.POSITIVE_INFINITY) ? 844 : 844): case ((-1.0f != Float.NaN) ? 845 : 845): case ((-0.0f != Float.NEGATIVE_INFINITY) ? 846 : 846): case ((-0.0f != -1.0f) ? 847 : 847): case ((-0.0f != -0.0f) ? 848 : 848): case ((-0.0f != 0.0f) ? 849 : 849): case ((-0.0f != Float.MIN_VALUE) ? 850 : 850): case ((-0.0f != 1.0f) ? 851 : 851): case ((-0.0f != Float.MAX_VALUE) ? 852 : 852): case ((-0.0f != Float.POSITIVE_INFINITY) ? 853 : 853): case ((-0.0f != Float.NaN) ? 854 : 854): case ((0.0f != Float.NEGATIVE_INFINITY) ? 855 : 855): case ((0.0f != -1.0f) ? 856 : 856): case ((0.0f != -0.0f) ? 857 : 857): case ((0.0f != 0.0f) ? 858 : 858): case ((0.0f != Float.MIN_VALUE) ? 859 : 859): case ((0.0f != 1.0f) ? 860 : 860): case ((0.0f != Float.MAX_VALUE) ? 861 : 861): case ((0.0f != Float.POSITIVE_INFINITY) ? 862 : 862): case ((0.0f != Float.NaN) ? 863 : 863): case ((Float.MIN_VALUE != Float.NEGATIVE_INFINITY) ? 864 : 864): case ((Float.MIN_VALUE != -1.0f) ? 865 : 865): case ((Float.MIN_VALUE != -0.0f) ? 866 : 866): case ((Float.MIN_VALUE != 0.0f) ? 867 : 867): case ((Float.MIN_VALUE != Float.MIN_VALUE) ? 868 : 868): case ((Float.MIN_VALUE != 1.0f) ? 869 : 869): case ((Float.MIN_VALUE != Float.MAX_VALUE) ? 870 : 870): case ((Float.MIN_VALUE != Float.POSITIVE_INFINITY) ? 871 : 871): case ((Float.MIN_VALUE != Float.NaN) ? 872 : 872): case ((1.0f != Float.NEGATIVE_INFINITY) ? 873 : 873): case ((1.0f != -1.0f) ? 874 : 874): case ((1.0f != -0.0f) ? 875 : 875): case ((1.0f != 0.0f) ? 876 : 876): case ((1.0f != Float.MIN_VALUE) ? 877 : 877): case ((1.0f != 1.0f) ? 878 : 878): case ((1.0f != Float.MAX_VALUE) ? 879 : 879): case ((1.0f != Float.POSITIVE_INFINITY) ? 880 : 880): case ((1.0f != Float.NaN) ? 881 : 881): case ((Float.MAX_VALUE != Float.NEGATIVE_INFINITY) ? 882 : 882): case ((Float.MAX_VALUE != -1.0f) ? 883 : 883): case ((Float.MAX_VALUE != -0.0f) ? 884 : 884): case ((Float.MAX_VALUE != 0.0f) ? 885 : 885): case ((Float.MAX_VALUE != Float.MIN_VALUE) ? 886 : 886): case ((Float.MAX_VALUE != 1.0f) ? 887 : 887): case ((Float.MAX_VALUE != Float.MAX_VALUE) ? 888 : 888): case ((Float.MAX_VALUE != Float.POSITIVE_INFINITY) ? 889 : 889): case ((Float.MAX_VALUE != Float.NaN) ? 890 : 890): case ((Float.POSITIVE_INFINITY != Float.NEGATIVE_INFINITY) ? 891 : 891): case ((Float.POSITIVE_INFINITY != -1.0f) ? 892 : 892): case ((Float.POSITIVE_INFINITY != -0.0f) ? 893 : 893): case ((Float.POSITIVE_INFINITY != 0.0f) ? 894 : 894): case ((Float.POSITIVE_INFINITY != Float.MIN_VALUE) ? 895 : 895): case ((Float.POSITIVE_INFINITY != 1.0f) ? 896 : 896): case ((Float.POSITIVE_INFINITY != Float.MAX_VALUE) ? 897 : 897): case ((Float.POSITIVE_INFINITY != Float.POSITIVE_INFINITY) ? 898 : 898): case ((Float.POSITIVE_INFINITY != Float.NaN) ? 899 : 899): case ((Float.NaN != Float.NEGATIVE_INFINITY) ? 900 : 900): case ((Float.NaN != -1.0f) ? 901 : 901): case ((Float.NaN != -0.0f) ? 902 : 902): case ((Float.NaN != 0.0f) ? 903 : 903): case ((Float.NaN != Float.MIN_VALUE) ? 904 : 904): case ((Float.NaN != 1.0f) ? 905 : 905): case ((Float.NaN != Float.MAX_VALUE) ? 906 : 906): case ((Float.NaN != Float.POSITIVE_INFINITY) ? 907 : 907): case ((Float.NaN != Float.NaN) ? 908 : 908): default: } } // -------- // double tests static double doublePlus(double x) { return (double) + x; } static double doubleMinus(double x) { return (double) - x; } static double doubleTimes(double x, double y) { return (double) (x * y); } static double doubleDiv(double x, double y) { return (double) (x / y); } static double doubleRem(double x, double y) { return (double) (x % y); } static double doubleAdd(double x, double y) { return (double) (x + y); } static double doubleSub(double x, double y) { return (double) (x - y); } static boolean doubleLt(double x, double y) { return x < y; } static boolean doubleGt(double x, double y) { return x > y; } static boolean doubleLe(double x, double y) { return x <= y; } static boolean doubleGe(double x, double y) { return x >= y; } static boolean doubleEq(double x, double y) { return x == y; } static boolean doubleNe(double x, double y) { return x != y; } static void doubleTest() { Tester.checkEqual(doublePlus(Double.NEGATIVE_INFINITY), (double) + Double.NEGATIVE_INFINITY, "(double) + Double.NEGATIVE_INFINITY"); Tester.checkEqual(doublePlus(-1.0), (double) + -1.0, "(double) + -1.0"); Tester.checkEqual(doublePlus(-0.0), (double) + -0.0, "(double) + -0.0"); Tester.checkEqual(doublePlus(0.0), (double) + 0.0, "(double) + 0.0"); Tester.checkEqual(doublePlus(1.0), (double) + 1.0, "(double) + 1.0"); Tester.checkEqual(doublePlus(Double.MAX_VALUE), (double) + Double.MAX_VALUE, "(double) + Double.MAX_VALUE"); Tester.checkEqual(doublePlus(Double.POSITIVE_INFINITY), (double) + Double.POSITIVE_INFINITY, "(double) + Double.POSITIVE_INFINITY"); Tester.checkEqual(doublePlus(Double.NaN), (double) + Double.NaN, "(double) + Double.NaN"); Tester.checkEqual(doubleMinus(Double.NEGATIVE_INFINITY), (double) - Double.NEGATIVE_INFINITY, "(double) - Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleMinus(-1.0), (double) - -1.0, "(double) - -1.0"); Tester.checkEqual(doubleMinus(-0.0), (double) - -0.0, "(double) - -0.0"); Tester.checkEqual(doubleMinus(0.0), (double) - 0.0, "(double) - 0.0"); Tester.checkEqual(doubleMinus(1.0), (double) - 1.0, "(double) - 1.0"); Tester.checkEqual(doubleMinus(Double.MAX_VALUE), (double) - Double.MAX_VALUE, "(double) - Double.MAX_VALUE"); Tester.checkEqual(doubleMinus(Double.POSITIVE_INFINITY), (double) - Double.POSITIVE_INFINITY, "(double) - Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleMinus(Double.NaN), (double) - Double.NaN, "(double) - Double.NaN"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY * Double.NEGATIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, -1.0), (double) (Double.NEGATIVE_INFINITY * -1.0), "(double) (Double.NEGATIVE_INFINITY * -1.0)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, -0.0), (double) (Double.NEGATIVE_INFINITY * -0.0), "(double) (Double.NEGATIVE_INFINITY * -0.0)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, 0.0), (double) (Double.NEGATIVE_INFINITY * 0.0), "(double) (Double.NEGATIVE_INFINITY * 0.0)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, 1.0), (double) (Double.NEGATIVE_INFINITY * 1.0), "(double) (Double.NEGATIVE_INFINITY * 1.0)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), (double) (Double.NEGATIVE_INFINITY * Double.MAX_VALUE), "(double) (Double.NEGATIVE_INFINITY * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY * Double.POSITIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.NEGATIVE_INFINITY, Double.NaN), (double) (Double.NEGATIVE_INFINITY * Double.NaN), "(double) (Double.NEGATIVE_INFINITY * Double.NaN)"); Tester.checkEqual(doubleTimes(-1.0, Double.NEGATIVE_INFINITY), (double) (-1.0 * Double.NEGATIVE_INFINITY), "(double) (-1.0 * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(-1.0, -1.0), (double) (-1.0 * -1.0), "(double) (-1.0 * -1.0)"); Tester.checkEqual(doubleTimes(-1.0, -0.0), (double) (-1.0 * -0.0), "(double) (-1.0 * -0.0)"); Tester.checkEqual(doubleTimes(-1.0, 0.0), (double) (-1.0 * 0.0), "(double) (-1.0 * 0.0)"); Tester.checkEqual(doubleTimes(-1.0, 1.0), (double) (-1.0 * 1.0), "(double) (-1.0 * 1.0)"); Tester.checkEqual(doubleTimes(-1.0, Double.MAX_VALUE), (double) (-1.0 * Double.MAX_VALUE), "(double) (-1.0 * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(-1.0, Double.POSITIVE_INFINITY), (double) (-1.0 * Double.POSITIVE_INFINITY), "(double) (-1.0 * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(-1.0, Double.NaN), (double) (-1.0 * Double.NaN), "(double) (-1.0 * Double.NaN)"); Tester.checkEqual(doubleTimes(-0.0, Double.NEGATIVE_INFINITY), (double) (-0.0 * Double.NEGATIVE_INFINITY), "(double) (-0.0 * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(-0.0, -1.0), (double) (-0.0 * -1.0), "(double) (-0.0 * -1.0)"); Tester.checkEqual(doubleTimes(-0.0, -0.0), (double) (-0.0 * -0.0), "(double) (-0.0 * -0.0)"); Tester.checkEqual(doubleTimes(-0.0, 0.0), (double) (-0.0 * 0.0), "(double) (-0.0 * 0.0)"); Tester.checkEqual(doubleTimes(-0.0, 1.0), (double) (-0.0 * 1.0), "(double) (-0.0 * 1.0)"); Tester.checkEqual(doubleTimes(-0.0, Double.MAX_VALUE), (double) (-0.0 * Double.MAX_VALUE), "(double) (-0.0 * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(-0.0, Double.POSITIVE_INFINITY), (double) (-0.0 * Double.POSITIVE_INFINITY), "(double) (-0.0 * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(-0.0, Double.NaN), (double) (-0.0 * Double.NaN), "(double) (-0.0 * Double.NaN)"); Tester.checkEqual(doubleTimes(0.0, Double.NEGATIVE_INFINITY), (double) (0.0 * Double.NEGATIVE_INFINITY), "(double) (0.0 * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(0.0, -1.0), (double) (0.0 * -1.0), "(double) (0.0 * -1.0)"); Tester.checkEqual(doubleTimes(0.0, -0.0), (double) (0.0 * -0.0), "(double) (0.0 * -0.0)"); Tester.checkEqual(doubleTimes(0.0, 0.0), (double) (0.0 * 0.0), "(double) (0.0 * 0.0)"); Tester.checkEqual(doubleTimes(0.0, 1.0), (double) (0.0 * 1.0), "(double) (0.0 * 1.0)"); Tester.checkEqual(doubleTimes(0.0, Double.MAX_VALUE), (double) (0.0 * Double.MAX_VALUE), "(double) (0.0 * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(0.0, Double.POSITIVE_INFINITY), (double) (0.0 * Double.POSITIVE_INFINITY), "(double) (0.0 * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(0.0, Double.NaN), (double) (0.0 * Double.NaN), "(double) (0.0 * Double.NaN)"); Tester.checkEqual(doubleTimes(1.0, Double.NEGATIVE_INFINITY), (double) (1.0 * Double.NEGATIVE_INFINITY), "(double) (1.0 * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(1.0, -1.0), (double) (1.0 * -1.0), "(double) (1.0 * -1.0)"); Tester.checkEqual(doubleTimes(1.0, -0.0), (double) (1.0 * -0.0), "(double) (1.0 * -0.0)"); Tester.checkEqual(doubleTimes(1.0, 0.0), (double) (1.0 * 0.0), "(double) (1.0 * 0.0)"); Tester.checkEqual(doubleTimes(1.0, 1.0), (double) (1.0 * 1.0), "(double) (1.0 * 1.0)"); Tester.checkEqual(doubleTimes(1.0, Double.MAX_VALUE), (double) (1.0 * Double.MAX_VALUE), "(double) (1.0 * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(1.0, Double.POSITIVE_INFINITY), (double) (1.0 * Double.POSITIVE_INFINITY), "(double) (1.0 * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(1.0, Double.NaN), (double) (1.0 * Double.NaN), "(double) (1.0 * Double.NaN)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), (double) (Double.MAX_VALUE * Double.NEGATIVE_INFINITY), "(double) (Double.MAX_VALUE * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, -1.0), (double) (Double.MAX_VALUE * -1.0), "(double) (Double.MAX_VALUE * -1.0)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, -0.0), (double) (Double.MAX_VALUE * -0.0), "(double) (Double.MAX_VALUE * -0.0)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, 0.0), (double) (Double.MAX_VALUE * 0.0), "(double) (Double.MAX_VALUE * 0.0)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, 1.0), (double) (Double.MAX_VALUE * 1.0), "(double) (Double.MAX_VALUE * 1.0)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, Double.MAX_VALUE), (double) (Double.MAX_VALUE * Double.MAX_VALUE), "(double) (Double.MAX_VALUE * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, Double.POSITIVE_INFINITY), (double) (Double.MAX_VALUE * Double.POSITIVE_INFINITY), "(double) (Double.MAX_VALUE * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.MAX_VALUE, Double.NaN), (double) (Double.MAX_VALUE * Double.NaN), "(double) (Double.MAX_VALUE * Double.NaN)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.POSITIVE_INFINITY * Double.NEGATIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, -1.0), (double) (Double.POSITIVE_INFINITY * -1.0), "(double) (Double.POSITIVE_INFINITY * -1.0)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, -0.0), (double) (Double.POSITIVE_INFINITY * -0.0), "(double) (Double.POSITIVE_INFINITY * -0.0)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, 0.0), (double) (Double.POSITIVE_INFINITY * 0.0), "(double) (Double.POSITIVE_INFINITY * 0.0)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, 1.0), (double) (Double.POSITIVE_INFINITY * 1.0), "(double) (Double.POSITIVE_INFINITY * 1.0)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, Double.MAX_VALUE), (double) (Double.POSITIVE_INFINITY * Double.MAX_VALUE), "(double) (Double.POSITIVE_INFINITY * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.POSITIVE_INFINITY * Double.POSITIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.POSITIVE_INFINITY, Double.NaN), (double) (Double.POSITIVE_INFINITY * Double.NaN), "(double) (Double.POSITIVE_INFINITY * Double.NaN)"); Tester.checkEqual(doubleTimes(Double.NaN, Double.NEGATIVE_INFINITY), (double) (Double.NaN * Double.NEGATIVE_INFINITY), "(double) (Double.NaN * Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.NaN, -1.0), (double) (Double.NaN * -1.0), "(double) (Double.NaN * -1.0)"); Tester.checkEqual(doubleTimes(Double.NaN, -0.0), (double) (Double.NaN * -0.0), "(double) (Double.NaN * -0.0)"); Tester.checkEqual(doubleTimes(Double.NaN, 0.0), (double) (Double.NaN * 0.0), "(double) (Double.NaN * 0.0)"); Tester.checkEqual(doubleTimes(Double.NaN, 1.0), (double) (Double.NaN * 1.0), "(double) (Double.NaN * 1.0)"); Tester.checkEqual(doubleTimes(Double.NaN, Double.MAX_VALUE), (double) (Double.NaN * Double.MAX_VALUE), "(double) (Double.NaN * Double.MAX_VALUE)"); Tester.checkEqual(doubleTimes(Double.NaN, Double.POSITIVE_INFINITY), (double) (Double.NaN * Double.POSITIVE_INFINITY), "(double) (Double.NaN * Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleTimes(Double.NaN, Double.NaN), (double) (Double.NaN * Double.NaN), "(double) (Double.NaN * Double.NaN)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY / Double.NEGATIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, -1.0), (double) (Double.NEGATIVE_INFINITY / -1.0), "(double) (Double.NEGATIVE_INFINITY / -1.0)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, -0.0), (double) (Double.NEGATIVE_INFINITY / -0.0), "(double) (Double.NEGATIVE_INFINITY / -0.0)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, 0.0), (double) (Double.NEGATIVE_INFINITY / 0.0), "(double) (Double.NEGATIVE_INFINITY / 0.0)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, 1.0), (double) (Double.NEGATIVE_INFINITY / 1.0), "(double) (Double.NEGATIVE_INFINITY / 1.0)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), (double) (Double.NEGATIVE_INFINITY / Double.MAX_VALUE), "(double) (Double.NEGATIVE_INFINITY / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY / Double.POSITIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.NEGATIVE_INFINITY, Double.NaN), (double) (Double.NEGATIVE_INFINITY / Double.NaN), "(double) (Double.NEGATIVE_INFINITY / Double.NaN)"); Tester.checkEqual(doubleDiv(-1.0, Double.NEGATIVE_INFINITY), (double) (-1.0 / Double.NEGATIVE_INFINITY), "(double) (-1.0 / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(-1.0, -1.0), (double) (-1.0 / -1.0), "(double) (-1.0 / -1.0)"); Tester.checkEqual(doubleDiv(-1.0, -0.0), (double) (-1.0 / -0.0), "(double) (-1.0 / -0.0)"); Tester.checkEqual(doubleDiv(-1.0, 0.0), (double) (-1.0 / 0.0), "(double) (-1.0 / 0.0)"); Tester.checkEqual(doubleDiv(-1.0, 1.0), (double) (-1.0 / 1.0), "(double) (-1.0 / 1.0)"); Tester.checkEqual(doubleDiv(-1.0, Double.MAX_VALUE), (double) (-1.0 / Double.MAX_VALUE), "(double) (-1.0 / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(-1.0, Double.POSITIVE_INFINITY), (double) (-1.0 / Double.POSITIVE_INFINITY), "(double) (-1.0 / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(-1.0, Double.NaN), (double) (-1.0 / Double.NaN), "(double) (-1.0 / Double.NaN)"); Tester.checkEqual(doubleDiv(-0.0, Double.NEGATIVE_INFINITY), (double) (-0.0 / Double.NEGATIVE_INFINITY), "(double) (-0.0 / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(-0.0, -1.0), (double) (-0.0 / -1.0), "(double) (-0.0 / -1.0)"); Tester.checkEqual(doubleDiv(-0.0, -0.0), (double) (-0.0 / -0.0), "(double) (-0.0 / -0.0)"); Tester.checkEqual(doubleDiv(-0.0, 0.0), (double) (-0.0 / 0.0), "(double) (-0.0 / 0.0)"); Tester.checkEqual(doubleDiv(-0.0, 1.0), (double) (-0.0 / 1.0), "(double) (-0.0 / 1.0)"); Tester.checkEqual(doubleDiv(-0.0, Double.MAX_VALUE), (double) (-0.0 / Double.MAX_VALUE), "(double) (-0.0 / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(-0.0, Double.POSITIVE_INFINITY), (double) (-0.0 / Double.POSITIVE_INFINITY), "(double) (-0.0 / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(-0.0, Double.NaN), (double) (-0.0 / Double.NaN), "(double) (-0.0 / Double.NaN)"); Tester.checkEqual(doubleDiv(0.0, Double.NEGATIVE_INFINITY), (double) (0.0 / Double.NEGATIVE_INFINITY), "(double) (0.0 / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(0.0, -1.0), (double) (0.0 / -1.0), "(double) (0.0 / -1.0)"); Tester.checkEqual(doubleDiv(0.0, -0.0), (double) (0.0 / -0.0), "(double) (0.0 / -0.0)"); Tester.checkEqual(doubleDiv(0.0, 0.0), (double) (0.0 / 0.0), "(double) (0.0 / 0.0)"); Tester.checkEqual(doubleDiv(0.0, 1.0), (double) (0.0 / 1.0), "(double) (0.0 / 1.0)"); Tester.checkEqual(doubleDiv(0.0, Double.MAX_VALUE), (double) (0.0 / Double.MAX_VALUE), "(double) (0.0 / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(0.0, Double.POSITIVE_INFINITY), (double) (0.0 / Double.POSITIVE_INFINITY), "(double) (0.0 / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(0.0, Double.NaN), (double) (0.0 / Double.NaN), "(double) (0.0 / Double.NaN)"); Tester.checkEqual(doubleDiv(1.0, Double.NEGATIVE_INFINITY), (double) (1.0 / Double.NEGATIVE_INFINITY), "(double) (1.0 / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(1.0, -1.0), (double) (1.0 / -1.0), "(double) (1.0 / -1.0)"); Tester.checkEqual(doubleDiv(1.0, -0.0), (double) (1.0 / -0.0), "(double) (1.0 / -0.0)"); Tester.checkEqual(doubleDiv(1.0, 0.0), (double) (1.0 / 0.0), "(double) (1.0 / 0.0)"); Tester.checkEqual(doubleDiv(1.0, 1.0), (double) (1.0 / 1.0), "(double) (1.0 / 1.0)"); Tester.checkEqual(doubleDiv(1.0, Double.MAX_VALUE), (double) (1.0 / Double.MAX_VALUE), "(double) (1.0 / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(1.0, Double.POSITIVE_INFINITY), (double) (1.0 / Double.POSITIVE_INFINITY), "(double) (1.0 / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(1.0, Double.NaN), (double) (1.0 / Double.NaN), "(double) (1.0 / Double.NaN)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), (double) (Double.MAX_VALUE / Double.NEGATIVE_INFINITY), "(double) (Double.MAX_VALUE / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, -1.0), (double) (Double.MAX_VALUE / -1.0), "(double) (Double.MAX_VALUE / -1.0)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, -0.0), (double) (Double.MAX_VALUE / -0.0), "(double) (Double.MAX_VALUE / -0.0)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, 0.0), (double) (Double.MAX_VALUE / 0.0), "(double) (Double.MAX_VALUE / 0.0)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, 1.0), (double) (Double.MAX_VALUE / 1.0), "(double) (Double.MAX_VALUE / 1.0)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, Double.MAX_VALUE), (double) (Double.MAX_VALUE / Double.MAX_VALUE), "(double) (Double.MAX_VALUE / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, Double.POSITIVE_INFINITY), (double) (Double.MAX_VALUE / Double.POSITIVE_INFINITY), "(double) (Double.MAX_VALUE / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.MAX_VALUE, Double.NaN), (double) (Double.MAX_VALUE / Double.NaN), "(double) (Double.MAX_VALUE / Double.NaN)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.POSITIVE_INFINITY / Double.NEGATIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, -1.0), (double) (Double.POSITIVE_INFINITY / -1.0), "(double) (Double.POSITIVE_INFINITY / -1.0)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, -0.0), (double) (Double.POSITIVE_INFINITY / -0.0), "(double) (Double.POSITIVE_INFINITY / -0.0)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, 0.0), (double) (Double.POSITIVE_INFINITY / 0.0), "(double) (Double.POSITIVE_INFINITY / 0.0)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, 1.0), (double) (Double.POSITIVE_INFINITY / 1.0), "(double) (Double.POSITIVE_INFINITY / 1.0)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, Double.MAX_VALUE), (double) (Double.POSITIVE_INFINITY / Double.MAX_VALUE), "(double) (Double.POSITIVE_INFINITY / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.POSITIVE_INFINITY / Double.POSITIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.POSITIVE_INFINITY, Double.NaN), (double) (Double.POSITIVE_INFINITY / Double.NaN), "(double) (Double.POSITIVE_INFINITY / Double.NaN)"); Tester.checkEqual(doubleDiv(Double.NaN, Double.NEGATIVE_INFINITY), (double) (Double.NaN / Double.NEGATIVE_INFINITY), "(double) (Double.NaN / Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.NaN, -1.0), (double) (Double.NaN / -1.0), "(double) (Double.NaN / -1.0)"); Tester.checkEqual(doubleDiv(Double.NaN, -0.0), (double) (Double.NaN / -0.0), "(double) (Double.NaN / -0.0)"); Tester.checkEqual(doubleDiv(Double.NaN, 0.0), (double) (Double.NaN / 0.0), "(double) (Double.NaN / 0.0)"); Tester.checkEqual(doubleDiv(Double.NaN, 1.0), (double) (Double.NaN / 1.0), "(double) (Double.NaN / 1.0)"); Tester.checkEqual(doubleDiv(Double.NaN, Double.MAX_VALUE), (double) (Double.NaN / Double.MAX_VALUE), "(double) (Double.NaN / Double.MAX_VALUE)"); Tester.checkEqual(doubleDiv(Double.NaN, Double.POSITIVE_INFINITY), (double) (Double.NaN / Double.POSITIVE_INFINITY), "(double) (Double.NaN / Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleDiv(Double.NaN, Double.NaN), (double) (Double.NaN / Double.NaN), "(double) (Double.NaN / Double.NaN)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY % Double.NEGATIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, -1.0), (double) (Double.NEGATIVE_INFINITY % -1.0), "(double) (Double.NEGATIVE_INFINITY % -1.0)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, -0.0), (double) (Double.NEGATIVE_INFINITY % -0.0), "(double) (Double.NEGATIVE_INFINITY % -0.0)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, 0.0), (double) (Double.NEGATIVE_INFINITY % 0.0), "(double) (Double.NEGATIVE_INFINITY % 0.0)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, 1.0), (double) (Double.NEGATIVE_INFINITY % 1.0), "(double) (Double.NEGATIVE_INFINITY % 1.0)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), (double) (Double.NEGATIVE_INFINITY % Double.MAX_VALUE), "(double) (Double.NEGATIVE_INFINITY % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY % Double.POSITIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.NEGATIVE_INFINITY, Double.NaN), (double) (Double.NEGATIVE_INFINITY % Double.NaN), "(double) (Double.NEGATIVE_INFINITY % Double.NaN)"); Tester.checkEqual(doubleRem(-1.0, Double.NEGATIVE_INFINITY), (double) (-1.0 % Double.NEGATIVE_INFINITY), "(double) (-1.0 % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(-1.0, -1.0), (double) (-1.0 % -1.0), "(double) (-1.0 % -1.0)"); Tester.checkEqual(doubleRem(-1.0, -0.0), (double) (-1.0 % -0.0), "(double) (-1.0 % -0.0)"); Tester.checkEqual(doubleRem(-1.0, 0.0), (double) (-1.0 % 0.0), "(double) (-1.0 % 0.0)"); Tester.checkEqual(doubleRem(-1.0, 1.0), (double) (-1.0 % 1.0), "(double) (-1.0 % 1.0)"); Tester.checkEqual(doubleRem(-1.0, Double.MAX_VALUE), (double) (-1.0 % Double.MAX_VALUE), "(double) (-1.0 % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(-1.0, Double.POSITIVE_INFINITY), (double) (-1.0 % Double.POSITIVE_INFINITY), "(double) (-1.0 % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(-1.0, Double.NaN), (double) (-1.0 % Double.NaN), "(double) (-1.0 % Double.NaN)"); Tester.checkEqual(doubleRem(-0.0, Double.NEGATIVE_INFINITY), (double) (-0.0 % Double.NEGATIVE_INFINITY), "(double) (-0.0 % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(-0.0, -1.0), (double) (-0.0 % -1.0), "(double) (-0.0 % -1.0)"); Tester.checkEqual(doubleRem(-0.0, -0.0), (double) (-0.0 % -0.0), "(double) (-0.0 % -0.0)"); Tester.checkEqual(doubleRem(-0.0, 0.0), (double) (-0.0 % 0.0), "(double) (-0.0 % 0.0)"); Tester.checkEqual(doubleRem(-0.0, 1.0), (double) (-0.0 % 1.0), "(double) (-0.0 % 1.0)"); Tester.checkEqual(doubleRem(-0.0, Double.MAX_VALUE), (double) (-0.0 % Double.MAX_VALUE), "(double) (-0.0 % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(-0.0, Double.POSITIVE_INFINITY), (double) (-0.0 % Double.POSITIVE_INFINITY), "(double) (-0.0 % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(-0.0, Double.NaN), (double) (-0.0 % Double.NaN), "(double) (-0.0 % Double.NaN)"); Tester.checkEqual(doubleRem(0.0, Double.NEGATIVE_INFINITY), (double) (0.0 % Double.NEGATIVE_INFINITY), "(double) (0.0 % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(0.0, -1.0), (double) (0.0 % -1.0), "(double) (0.0 % -1.0)"); Tester.checkEqual(doubleRem(0.0, -0.0), (double) (0.0 % -0.0), "(double) (0.0 % -0.0)"); Tester.checkEqual(doubleRem(0.0, 0.0), (double) (0.0 % 0.0), "(double) (0.0 % 0.0)"); Tester.checkEqual(doubleRem(0.0, 1.0), (double) (0.0 % 1.0), "(double) (0.0 % 1.0)"); Tester.checkEqual(doubleRem(0.0, Double.MAX_VALUE), (double) (0.0 % Double.MAX_VALUE), "(double) (0.0 % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(0.0, Double.POSITIVE_INFINITY), (double) (0.0 % Double.POSITIVE_INFINITY), "(double) (0.0 % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(0.0, Double.NaN), (double) (0.0 % Double.NaN), "(double) (0.0 % Double.NaN)"); Tester.checkEqual(doubleRem(1.0, Double.NEGATIVE_INFINITY), (double) (1.0 % Double.NEGATIVE_INFINITY), "(double) (1.0 % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(1.0, -1.0), (double) (1.0 % -1.0), "(double) (1.0 % -1.0)"); Tester.checkEqual(doubleRem(1.0, -0.0), (double) (1.0 % -0.0), "(double) (1.0 % -0.0)"); Tester.checkEqual(doubleRem(1.0, 0.0), (double) (1.0 % 0.0), "(double) (1.0 % 0.0)"); Tester.checkEqual(doubleRem(1.0, 1.0), (double) (1.0 % 1.0), "(double) (1.0 % 1.0)"); Tester.checkEqual(doubleRem(1.0, Double.MAX_VALUE), (double) (1.0 % Double.MAX_VALUE), "(double) (1.0 % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(1.0, Double.POSITIVE_INFINITY), (double) (1.0 % Double.POSITIVE_INFINITY), "(double) (1.0 % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(1.0, Double.NaN), (double) (1.0 % Double.NaN), "(double) (1.0 % Double.NaN)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), (double) (Double.MAX_VALUE % Double.NEGATIVE_INFINITY), "(double) (Double.MAX_VALUE % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, -1.0), (double) (Double.MAX_VALUE % -1.0), "(double) (Double.MAX_VALUE % -1.0)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, -0.0), (double) (Double.MAX_VALUE % -0.0), "(double) (Double.MAX_VALUE % -0.0)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, 0.0), (double) (Double.MAX_VALUE % 0.0), "(double) (Double.MAX_VALUE % 0.0)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, 1.0), (double) (Double.MAX_VALUE % 1.0), "(double) (Double.MAX_VALUE % 1.0)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, Double.MAX_VALUE), (double) (Double.MAX_VALUE % Double.MAX_VALUE), "(double) (Double.MAX_VALUE % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, Double.POSITIVE_INFINITY), (double) (Double.MAX_VALUE % Double.POSITIVE_INFINITY), "(double) (Double.MAX_VALUE % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.MAX_VALUE, Double.NaN), (double) (Double.MAX_VALUE % Double.NaN), "(double) (Double.MAX_VALUE % Double.NaN)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.POSITIVE_INFINITY % Double.NEGATIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, -1.0), (double) (Double.POSITIVE_INFINITY % -1.0), "(double) (Double.POSITIVE_INFINITY % -1.0)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, -0.0), (double) (Double.POSITIVE_INFINITY % -0.0), "(double) (Double.POSITIVE_INFINITY % -0.0)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, 0.0), (double) (Double.POSITIVE_INFINITY % 0.0), "(double) (Double.POSITIVE_INFINITY % 0.0)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, 1.0), (double) (Double.POSITIVE_INFINITY % 1.0), "(double) (Double.POSITIVE_INFINITY % 1.0)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, Double.MAX_VALUE), (double) (Double.POSITIVE_INFINITY % Double.MAX_VALUE), "(double) (Double.POSITIVE_INFINITY % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.POSITIVE_INFINITY % Double.POSITIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.POSITIVE_INFINITY, Double.NaN), (double) (Double.POSITIVE_INFINITY % Double.NaN), "(double) (Double.POSITIVE_INFINITY % Double.NaN)"); Tester.checkEqual(doubleRem(Double.NaN, Double.NEGATIVE_INFINITY), (double) (Double.NaN % Double.NEGATIVE_INFINITY), "(double) (Double.NaN % Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.NaN, -1.0), (double) (Double.NaN % -1.0), "(double) (Double.NaN % -1.0)"); Tester.checkEqual(doubleRem(Double.NaN, -0.0), (double) (Double.NaN % -0.0), "(double) (Double.NaN % -0.0)"); Tester.checkEqual(doubleRem(Double.NaN, 0.0), (double) (Double.NaN % 0.0), "(double) (Double.NaN % 0.0)"); Tester.checkEqual(doubleRem(Double.NaN, 1.0), (double) (Double.NaN % 1.0), "(double) (Double.NaN % 1.0)"); Tester.checkEqual(doubleRem(Double.NaN, Double.MAX_VALUE), (double) (Double.NaN % Double.MAX_VALUE), "(double) (Double.NaN % Double.MAX_VALUE)"); Tester.checkEqual(doubleRem(Double.NaN, Double.POSITIVE_INFINITY), (double) (Double.NaN % Double.POSITIVE_INFINITY), "(double) (Double.NaN % Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleRem(Double.NaN, Double.NaN), (double) (Double.NaN % Double.NaN), "(double) (Double.NaN % Double.NaN)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY + Double.NEGATIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, -1.0), (double) (Double.NEGATIVE_INFINITY + -1.0), "(double) (Double.NEGATIVE_INFINITY + -1.0)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, -0.0), (double) (Double.NEGATIVE_INFINITY + -0.0), "(double) (Double.NEGATIVE_INFINITY + -0.0)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, 0.0), (double) (Double.NEGATIVE_INFINITY + 0.0), "(double) (Double.NEGATIVE_INFINITY + 0.0)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, 1.0), (double) (Double.NEGATIVE_INFINITY + 1.0), "(double) (Double.NEGATIVE_INFINITY + 1.0)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), (double) (Double.NEGATIVE_INFINITY + Double.MAX_VALUE), "(double) (Double.NEGATIVE_INFINITY + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY + Double.POSITIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.NEGATIVE_INFINITY, Double.NaN), (double) (Double.NEGATIVE_INFINITY + Double.NaN), "(double) (Double.NEGATIVE_INFINITY + Double.NaN)"); Tester.checkEqual(doubleAdd(-1.0, Double.NEGATIVE_INFINITY), (double) (-1.0 + Double.NEGATIVE_INFINITY), "(double) (-1.0 + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(-1.0, -1.0), (double) (-1.0 + -1.0), "(double) (-1.0 + -1.0)"); Tester.checkEqual(doubleAdd(-1.0, -0.0), (double) (-1.0 + -0.0), "(double) (-1.0 + -0.0)"); Tester.checkEqual(doubleAdd(-1.0, 0.0), (double) (-1.0 + 0.0), "(double) (-1.0 + 0.0)"); Tester.checkEqual(doubleAdd(-1.0, 1.0), (double) (-1.0 + 1.0), "(double) (-1.0 + 1.0)"); Tester.checkEqual(doubleAdd(-1.0, Double.MAX_VALUE), (double) (-1.0 + Double.MAX_VALUE), "(double) (-1.0 + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(-1.0, Double.POSITIVE_INFINITY), (double) (-1.0 + Double.POSITIVE_INFINITY), "(double) (-1.0 + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(-1.0, Double.NaN), (double) (-1.0 + Double.NaN), "(double) (-1.0 + Double.NaN)"); Tester.checkEqual(doubleAdd(-0.0, Double.NEGATIVE_INFINITY), (double) (-0.0 + Double.NEGATIVE_INFINITY), "(double) (-0.0 + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(-0.0, -1.0), (double) (-0.0 + -1.0), "(double) (-0.0 + -1.0)"); Tester.checkEqual(doubleAdd(-0.0, -0.0), (double) (-0.0 + -0.0), "(double) (-0.0 + -0.0)"); Tester.checkEqual(doubleAdd(-0.0, 0.0), (double) (-0.0 + 0.0), "(double) (-0.0 + 0.0)"); Tester.checkEqual(doubleAdd(-0.0, 1.0), (double) (-0.0 + 1.0), "(double) (-0.0 + 1.0)"); Tester.checkEqual(doubleAdd(-0.0, Double.MAX_VALUE), (double) (-0.0 + Double.MAX_VALUE), "(double) (-0.0 + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(-0.0, Double.POSITIVE_INFINITY), (double) (-0.0 + Double.POSITIVE_INFINITY), "(double) (-0.0 + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(-0.0, Double.NaN), (double) (-0.0 + Double.NaN), "(double) (-0.0 + Double.NaN)"); Tester.checkEqual(doubleAdd(0.0, Double.NEGATIVE_INFINITY), (double) (0.0 + Double.NEGATIVE_INFINITY), "(double) (0.0 + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(0.0, -1.0), (double) (0.0 + -1.0), "(double) (0.0 + -1.0)"); Tester.checkEqual(doubleAdd(0.0, -0.0), (double) (0.0 + -0.0), "(double) (0.0 + -0.0)"); Tester.checkEqual(doubleAdd(0.0, 0.0), (double) (0.0 + 0.0), "(double) (0.0 + 0.0)"); Tester.checkEqual(doubleAdd(0.0, 1.0), (double) (0.0 + 1.0), "(double) (0.0 + 1.0)"); Tester.checkEqual(doubleAdd(0.0, Double.MAX_VALUE), (double) (0.0 + Double.MAX_VALUE), "(double) (0.0 + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(0.0, Double.POSITIVE_INFINITY), (double) (0.0 + Double.POSITIVE_INFINITY), "(double) (0.0 + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(0.0, Double.NaN), (double) (0.0 + Double.NaN), "(double) (0.0 + Double.NaN)"); Tester.checkEqual(doubleAdd(1.0, Double.NEGATIVE_INFINITY), (double) (1.0 + Double.NEGATIVE_INFINITY), "(double) (1.0 + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(1.0, -1.0), (double) (1.0 + -1.0), "(double) (1.0 + -1.0)"); Tester.checkEqual(doubleAdd(1.0, -0.0), (double) (1.0 + -0.0), "(double) (1.0 + -0.0)"); Tester.checkEqual(doubleAdd(1.0, 0.0), (double) (1.0 + 0.0), "(double) (1.0 + 0.0)"); Tester.checkEqual(doubleAdd(1.0, 1.0), (double) (1.0 + 1.0), "(double) (1.0 + 1.0)"); Tester.checkEqual(doubleAdd(1.0, Double.MAX_VALUE), (double) (1.0 + Double.MAX_VALUE), "(double) (1.0 + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(1.0, Double.POSITIVE_INFINITY), (double) (1.0 + Double.POSITIVE_INFINITY), "(double) (1.0 + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(1.0, Double.NaN), (double) (1.0 + Double.NaN), "(double) (1.0 + Double.NaN)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), (double) (Double.MAX_VALUE + Double.NEGATIVE_INFINITY), "(double) (Double.MAX_VALUE + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, -1.0), (double) (Double.MAX_VALUE + -1.0), "(double) (Double.MAX_VALUE + -1.0)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, -0.0), (double) (Double.MAX_VALUE + -0.0), "(double) (Double.MAX_VALUE + -0.0)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, 0.0), (double) (Double.MAX_VALUE + 0.0), "(double) (Double.MAX_VALUE + 0.0)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, 1.0), (double) (Double.MAX_VALUE + 1.0), "(double) (Double.MAX_VALUE + 1.0)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, Double.MAX_VALUE), (double) (Double.MAX_VALUE + Double.MAX_VALUE), "(double) (Double.MAX_VALUE + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, Double.POSITIVE_INFINITY), (double) (Double.MAX_VALUE + Double.POSITIVE_INFINITY), "(double) (Double.MAX_VALUE + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.MAX_VALUE, Double.NaN), (double) (Double.MAX_VALUE + Double.NaN), "(double) (Double.MAX_VALUE + Double.NaN)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.POSITIVE_INFINITY + Double.NEGATIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, -1.0), (double) (Double.POSITIVE_INFINITY + -1.0), "(double) (Double.POSITIVE_INFINITY + -1.0)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, -0.0), (double) (Double.POSITIVE_INFINITY + -0.0), "(double) (Double.POSITIVE_INFINITY + -0.0)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, 0.0), (double) (Double.POSITIVE_INFINITY + 0.0), "(double) (Double.POSITIVE_INFINITY + 0.0)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, 1.0), (double) (Double.POSITIVE_INFINITY + 1.0), "(double) (Double.POSITIVE_INFINITY + 1.0)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, Double.MAX_VALUE), (double) (Double.POSITIVE_INFINITY + Double.MAX_VALUE), "(double) (Double.POSITIVE_INFINITY + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.POSITIVE_INFINITY + Double.POSITIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.POSITIVE_INFINITY, Double.NaN), (double) (Double.POSITIVE_INFINITY + Double.NaN), "(double) (Double.POSITIVE_INFINITY + Double.NaN)"); Tester.checkEqual(doubleAdd(Double.NaN, Double.NEGATIVE_INFINITY), (double) (Double.NaN + Double.NEGATIVE_INFINITY), "(double) (Double.NaN + Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.NaN, -1.0), (double) (Double.NaN + -1.0), "(double) (Double.NaN + -1.0)"); Tester.checkEqual(doubleAdd(Double.NaN, -0.0), (double) (Double.NaN + -0.0), "(double) (Double.NaN + -0.0)"); Tester.checkEqual(doubleAdd(Double.NaN, 0.0), (double) (Double.NaN + 0.0), "(double) (Double.NaN + 0.0)"); Tester.checkEqual(doubleAdd(Double.NaN, 1.0), (double) (Double.NaN + 1.0), "(double) (Double.NaN + 1.0)"); Tester.checkEqual(doubleAdd(Double.NaN, Double.MAX_VALUE), (double) (Double.NaN + Double.MAX_VALUE), "(double) (Double.NaN + Double.MAX_VALUE)"); Tester.checkEqual(doubleAdd(Double.NaN, Double.POSITIVE_INFINITY), (double) (Double.NaN + Double.POSITIVE_INFINITY), "(double) (Double.NaN + Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleAdd(Double.NaN, Double.NaN), (double) (Double.NaN + Double.NaN), "(double) (Double.NaN + Double.NaN)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY - Double.NEGATIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, -1.0), (double) (Double.NEGATIVE_INFINITY - -1.0), "(double) (Double.NEGATIVE_INFINITY - -1.0)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, -0.0), (double) (Double.NEGATIVE_INFINITY - -0.0), "(double) (Double.NEGATIVE_INFINITY - -0.0)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, 0.0), (double) (Double.NEGATIVE_INFINITY - 0.0), "(double) (Double.NEGATIVE_INFINITY - 0.0)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, 1.0), (double) (Double.NEGATIVE_INFINITY - 1.0), "(double) (Double.NEGATIVE_INFINITY - 1.0)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), (double) (Double.NEGATIVE_INFINITY - Double.MAX_VALUE), "(double) (Double.NEGATIVE_INFINITY - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.NEGATIVE_INFINITY - Double.POSITIVE_INFINITY), "(double) (Double.NEGATIVE_INFINITY - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.NEGATIVE_INFINITY, Double.NaN), (double) (Double.NEGATIVE_INFINITY - Double.NaN), "(double) (Double.NEGATIVE_INFINITY - Double.NaN)"); Tester.checkEqual(doubleSub(-1.0, Double.NEGATIVE_INFINITY), (double) (-1.0 - Double.NEGATIVE_INFINITY), "(double) (-1.0 - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(-1.0, -1.0), (double) (-1.0 - -1.0), "(double) (-1.0 - -1.0)"); Tester.checkEqual(doubleSub(-1.0, -0.0), (double) (-1.0 - -0.0), "(double) (-1.0 - -0.0)"); Tester.checkEqual(doubleSub(-1.0, 0.0), (double) (-1.0 - 0.0), "(double) (-1.0 - 0.0)"); Tester.checkEqual(doubleSub(-1.0, 1.0), (double) (-1.0 - 1.0), "(double) (-1.0 - 1.0)"); Tester.checkEqual(doubleSub(-1.0, Double.MAX_VALUE), (double) (-1.0 - Double.MAX_VALUE), "(double) (-1.0 - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(-1.0, Double.POSITIVE_INFINITY), (double) (-1.0 - Double.POSITIVE_INFINITY), "(double) (-1.0 - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(-1.0, Double.NaN), (double) (-1.0 - Double.NaN), "(double) (-1.0 - Double.NaN)"); Tester.checkEqual(doubleSub(-0.0, Double.NEGATIVE_INFINITY), (double) (-0.0 - Double.NEGATIVE_INFINITY), "(double) (-0.0 - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(-0.0, -1.0), (double) (-0.0 - -1.0), "(double) (-0.0 - -1.0)"); Tester.checkEqual(doubleSub(-0.0, -0.0), (double) (-0.0 - -0.0), "(double) (-0.0 - -0.0)"); Tester.checkEqual(doubleSub(-0.0, 0.0), (double) (-0.0 - 0.0), "(double) (-0.0 - 0.0)"); Tester.checkEqual(doubleSub(-0.0, 1.0), (double) (-0.0 - 1.0), "(double) (-0.0 - 1.0)"); Tester.checkEqual(doubleSub(-0.0, Double.MAX_VALUE), (double) (-0.0 - Double.MAX_VALUE), "(double) (-0.0 - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(-0.0, Double.POSITIVE_INFINITY), (double) (-0.0 - Double.POSITIVE_INFINITY), "(double) (-0.0 - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(-0.0, Double.NaN), (double) (-0.0 - Double.NaN), "(double) (-0.0 - Double.NaN)"); Tester.checkEqual(doubleSub(0.0, Double.NEGATIVE_INFINITY), (double) (0.0 - Double.NEGATIVE_INFINITY), "(double) (0.0 - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(0.0, -1.0), (double) (0.0 - -1.0), "(double) (0.0 - -1.0)"); Tester.checkEqual(doubleSub(0.0, -0.0), (double) (0.0 - -0.0), "(double) (0.0 - -0.0)"); Tester.checkEqual(doubleSub(0.0, 0.0), (double) (0.0 - 0.0), "(double) (0.0 - 0.0)"); Tester.checkEqual(doubleSub(0.0, 1.0), (double) (0.0 - 1.0), "(double) (0.0 - 1.0)"); Tester.checkEqual(doubleSub(0.0, Double.MAX_VALUE), (double) (0.0 - Double.MAX_VALUE), "(double) (0.0 - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(0.0, Double.POSITIVE_INFINITY), (double) (0.0 - Double.POSITIVE_INFINITY), "(double) (0.0 - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(0.0, Double.NaN), (double) (0.0 - Double.NaN), "(double) (0.0 - Double.NaN)"); Tester.checkEqual(doubleSub(1.0, Double.NEGATIVE_INFINITY), (double) (1.0 - Double.NEGATIVE_INFINITY), "(double) (1.0 - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(1.0, -1.0), (double) (1.0 - -1.0), "(double) (1.0 - -1.0)"); Tester.checkEqual(doubleSub(1.0, -0.0), (double) (1.0 - -0.0), "(double) (1.0 - -0.0)"); Tester.checkEqual(doubleSub(1.0, 0.0), (double) (1.0 - 0.0), "(double) (1.0 - 0.0)"); Tester.checkEqual(doubleSub(1.0, 1.0), (double) (1.0 - 1.0), "(double) (1.0 - 1.0)"); Tester.checkEqual(doubleSub(1.0, Double.MAX_VALUE), (double) (1.0 - Double.MAX_VALUE), "(double) (1.0 - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(1.0, Double.POSITIVE_INFINITY), (double) (1.0 - Double.POSITIVE_INFINITY), "(double) (1.0 - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(1.0, Double.NaN), (double) (1.0 - Double.NaN), "(double) (1.0 - Double.NaN)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), (double) (Double.MAX_VALUE - Double.NEGATIVE_INFINITY), "(double) (Double.MAX_VALUE - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, -1.0), (double) (Double.MAX_VALUE - -1.0), "(double) (Double.MAX_VALUE - -1.0)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, -0.0), (double) (Double.MAX_VALUE - -0.0), "(double) (Double.MAX_VALUE - -0.0)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, 0.0), (double) (Double.MAX_VALUE - 0.0), "(double) (Double.MAX_VALUE - 0.0)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, 1.0), (double) (Double.MAX_VALUE - 1.0), "(double) (Double.MAX_VALUE - 1.0)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, Double.MAX_VALUE), (double) (Double.MAX_VALUE - Double.MAX_VALUE), "(double) (Double.MAX_VALUE - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, Double.POSITIVE_INFINITY), (double) (Double.MAX_VALUE - Double.POSITIVE_INFINITY), "(double) (Double.MAX_VALUE - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.MAX_VALUE, Double.NaN), (double) (Double.MAX_VALUE - Double.NaN), "(double) (Double.MAX_VALUE - Double.NaN)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), (double) (Double.POSITIVE_INFINITY - Double.NEGATIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, -1.0), (double) (Double.POSITIVE_INFINITY - -1.0), "(double) (Double.POSITIVE_INFINITY - -1.0)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, -0.0), (double) (Double.POSITIVE_INFINITY - -0.0), "(double) (Double.POSITIVE_INFINITY - -0.0)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, 0.0), (double) (Double.POSITIVE_INFINITY - 0.0), "(double) (Double.POSITIVE_INFINITY - 0.0)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, 1.0), (double) (Double.POSITIVE_INFINITY - 1.0), "(double) (Double.POSITIVE_INFINITY - 1.0)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, Double.MAX_VALUE), (double) (Double.POSITIVE_INFINITY - Double.MAX_VALUE), "(double) (Double.POSITIVE_INFINITY - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), (double) (Double.POSITIVE_INFINITY - Double.POSITIVE_INFINITY), "(double) (Double.POSITIVE_INFINITY - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.POSITIVE_INFINITY, Double.NaN), (double) (Double.POSITIVE_INFINITY - Double.NaN), "(double) (Double.POSITIVE_INFINITY - Double.NaN)"); Tester.checkEqual(doubleSub(Double.NaN, Double.NEGATIVE_INFINITY), (double) (Double.NaN - Double.NEGATIVE_INFINITY), "(double) (Double.NaN - Double.NEGATIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.NaN, -1.0), (double) (Double.NaN - -1.0), "(double) (Double.NaN - -1.0)"); Tester.checkEqual(doubleSub(Double.NaN, -0.0), (double) (Double.NaN - -0.0), "(double) (Double.NaN - -0.0)"); Tester.checkEqual(doubleSub(Double.NaN, 0.0), (double) (Double.NaN - 0.0), "(double) (Double.NaN - 0.0)"); Tester.checkEqual(doubleSub(Double.NaN, 1.0), (double) (Double.NaN - 1.0), "(double) (Double.NaN - 1.0)"); Tester.checkEqual(doubleSub(Double.NaN, Double.MAX_VALUE), (double) (Double.NaN - Double.MAX_VALUE), "(double) (Double.NaN - Double.MAX_VALUE)"); Tester.checkEqual(doubleSub(Double.NaN, Double.POSITIVE_INFINITY), (double) (Double.NaN - Double.POSITIVE_INFINITY), "(double) (Double.NaN - Double.POSITIVE_INFINITY)"); Tester.checkEqual(doubleSub(Double.NaN, Double.NaN), (double) (Double.NaN - Double.NaN), "(double) (Double.NaN - Double.NaN)"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY < Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY < -1.0, "Double.NEGATIVE_INFINITY < -1.0"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY < -0.0, "Double.NEGATIVE_INFINITY < -0.0"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY < 0.0, "Double.NEGATIVE_INFINITY < 0.0"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY < 1.0, "Double.NEGATIVE_INFINITY < 1.0"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY < Double.MAX_VALUE, "Double.NEGATIVE_INFINITY < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY < Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY < Double.NaN, "Double.NEGATIVE_INFINITY < Double.NaN"); Tester.checkEqual(doubleLt(-1.0, Double.NEGATIVE_INFINITY), -1.0 < Double.NEGATIVE_INFINITY, "-1.0 < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(-1.0, -1.0), -1.0 < -1.0, "-1.0 < -1.0"); Tester.checkEqual(doubleLt(-1.0, -0.0), -1.0 < -0.0, "-1.0 < -0.0"); Tester.checkEqual(doubleLt(-1.0, 0.0), -1.0 < 0.0, "-1.0 < 0.0"); Tester.checkEqual(doubleLt(-1.0, 1.0), -1.0 < 1.0, "-1.0 < 1.0"); Tester.checkEqual(doubleLt(-1.0, Double.MAX_VALUE), -1.0 < Double.MAX_VALUE, "-1.0 < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(-1.0, Double.POSITIVE_INFINITY), -1.0 < Double.POSITIVE_INFINITY, "-1.0 < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(-1.0, Double.NaN), -1.0 < Double.NaN, "-1.0 < Double.NaN"); Tester.checkEqual(doubleLt(-0.0, Double.NEGATIVE_INFINITY), -0.0 < Double.NEGATIVE_INFINITY, "-0.0 < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(-0.0, -1.0), -0.0 < -1.0, "-0.0 < -1.0"); Tester.checkEqual(doubleLt(-0.0, -0.0), -0.0 < -0.0, "-0.0 < -0.0"); Tester.checkEqual(doubleLt(-0.0, 0.0), -0.0 < 0.0, "-0.0 < 0.0"); Tester.checkEqual(doubleLt(-0.0, 1.0), -0.0 < 1.0, "-0.0 < 1.0"); Tester.checkEqual(doubleLt(-0.0, Double.MAX_VALUE), -0.0 < Double.MAX_VALUE, "-0.0 < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(-0.0, Double.POSITIVE_INFINITY), -0.0 < Double.POSITIVE_INFINITY, "-0.0 < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(-0.0, Double.NaN), -0.0 < Double.NaN, "-0.0 < Double.NaN"); Tester.checkEqual(doubleLt(0.0, Double.NEGATIVE_INFINITY), 0.0 < Double.NEGATIVE_INFINITY, "0.0 < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(0.0, -1.0), 0.0 < -1.0, "0.0 < -1.0"); Tester.checkEqual(doubleLt(0.0, -0.0), 0.0 < -0.0, "0.0 < -0.0"); Tester.checkEqual(doubleLt(0.0, 0.0), 0.0 < 0.0, "0.0 < 0.0"); Tester.checkEqual(doubleLt(0.0, 1.0), 0.0 < 1.0, "0.0 < 1.0"); Tester.checkEqual(doubleLt(0.0, Double.MAX_VALUE), 0.0 < Double.MAX_VALUE, "0.0 < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(0.0, Double.POSITIVE_INFINITY), 0.0 < Double.POSITIVE_INFINITY, "0.0 < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(0.0, Double.NaN), 0.0 < Double.NaN, "0.0 < Double.NaN"); Tester.checkEqual(doubleLt(1.0, Double.NEGATIVE_INFINITY), 1.0 < Double.NEGATIVE_INFINITY, "1.0 < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(1.0, -1.0), 1.0 < -1.0, "1.0 < -1.0"); Tester.checkEqual(doubleLt(1.0, -0.0), 1.0 < -0.0, "1.0 < -0.0"); Tester.checkEqual(doubleLt(1.0, 0.0), 1.0 < 0.0, "1.0 < 0.0"); Tester.checkEqual(doubleLt(1.0, 1.0), 1.0 < 1.0, "1.0 < 1.0"); Tester.checkEqual(doubleLt(1.0, Double.MAX_VALUE), 1.0 < Double.MAX_VALUE, "1.0 < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(1.0, Double.POSITIVE_INFINITY), 1.0 < Double.POSITIVE_INFINITY, "1.0 < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(1.0, Double.NaN), 1.0 < Double.NaN, "1.0 < Double.NaN"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE < Double.NEGATIVE_INFINITY, "Double.MAX_VALUE < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, -1.0), Double.MAX_VALUE < -1.0, "Double.MAX_VALUE < -1.0"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, -0.0), Double.MAX_VALUE < -0.0, "Double.MAX_VALUE < -0.0"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, 0.0), Double.MAX_VALUE < 0.0, "Double.MAX_VALUE < 0.0"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, 1.0), Double.MAX_VALUE < 1.0, "Double.MAX_VALUE < 1.0"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE < Double.MAX_VALUE, "Double.MAX_VALUE < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE < Double.POSITIVE_INFINITY, "Double.MAX_VALUE < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE < Double.NaN, "Double.MAX_VALUE < Double.NaN"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY < Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY < -1.0, "Double.POSITIVE_INFINITY < -1.0"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY < -0.0, "Double.POSITIVE_INFINITY < -0.0"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY < 0.0, "Double.POSITIVE_INFINITY < 0.0"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY < 1.0, "Double.POSITIVE_INFINITY < 1.0"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY < Double.MAX_VALUE, "Double.POSITIVE_INFINITY < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY < Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY < Double.NaN, "Double.POSITIVE_INFINITY < Double.NaN"); Tester.checkEqual(doubleLt(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN < Double.NEGATIVE_INFINITY, "Double.NaN < Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.NaN, -1.0), Double.NaN < -1.0, "Double.NaN < -1.0"); Tester.checkEqual(doubleLt(Double.NaN, -0.0), Double.NaN < -0.0, "Double.NaN < -0.0"); Tester.checkEqual(doubleLt(Double.NaN, 0.0), Double.NaN < 0.0, "Double.NaN < 0.0"); Tester.checkEqual(doubleLt(Double.NaN, 1.0), Double.NaN < 1.0, "Double.NaN < 1.0"); Tester.checkEqual(doubleLt(Double.NaN, Double.MAX_VALUE), Double.NaN < Double.MAX_VALUE, "Double.NaN < Double.MAX_VALUE"); Tester.checkEqual(doubleLt(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN < Double.POSITIVE_INFINITY, "Double.NaN < Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLt(Double.NaN, Double.NaN), Double.NaN < Double.NaN, "Double.NaN < Double.NaN"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY > Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY > -1.0, "Double.NEGATIVE_INFINITY > -1.0"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY > -0.0, "Double.NEGATIVE_INFINITY > -0.0"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY > 0.0, "Double.NEGATIVE_INFINITY > 0.0"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY > 1.0, "Double.NEGATIVE_INFINITY > 1.0"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY > Double.MAX_VALUE, "Double.NEGATIVE_INFINITY > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY > Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY > Double.NaN, "Double.NEGATIVE_INFINITY > Double.NaN"); Tester.checkEqual(doubleGt(-1.0, Double.NEGATIVE_INFINITY), -1.0 > Double.NEGATIVE_INFINITY, "-1.0 > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(-1.0, -1.0), -1.0 > -1.0, "-1.0 > -1.0"); Tester.checkEqual(doubleGt(-1.0, -0.0), -1.0 > -0.0, "-1.0 > -0.0"); Tester.checkEqual(doubleGt(-1.0, 0.0), -1.0 > 0.0, "-1.0 > 0.0"); Tester.checkEqual(doubleGt(-1.0, 1.0), -1.0 > 1.0, "-1.0 > 1.0"); Tester.checkEqual(doubleGt(-1.0, Double.MAX_VALUE), -1.0 > Double.MAX_VALUE, "-1.0 > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(-1.0, Double.POSITIVE_INFINITY), -1.0 > Double.POSITIVE_INFINITY, "-1.0 > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(-1.0, Double.NaN), -1.0 > Double.NaN, "-1.0 > Double.NaN"); Tester.checkEqual(doubleGt(-0.0, Double.NEGATIVE_INFINITY), -0.0 > Double.NEGATIVE_INFINITY, "-0.0 > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(-0.0, -1.0), -0.0 > -1.0, "-0.0 > -1.0"); Tester.checkEqual(doubleGt(-0.0, -0.0), -0.0 > -0.0, "-0.0 > -0.0"); Tester.checkEqual(doubleGt(-0.0, 0.0), -0.0 > 0.0, "-0.0 > 0.0"); Tester.checkEqual(doubleGt(-0.0, 1.0), -0.0 > 1.0, "-0.0 > 1.0"); Tester.checkEqual(doubleGt(-0.0, Double.MAX_VALUE), -0.0 > Double.MAX_VALUE, "-0.0 > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(-0.0, Double.POSITIVE_INFINITY), -0.0 > Double.POSITIVE_INFINITY, "-0.0 > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(-0.0, Double.NaN), -0.0 > Double.NaN, "-0.0 > Double.NaN"); Tester.checkEqual(doubleGt(0.0, Double.NEGATIVE_INFINITY), 0.0 > Double.NEGATIVE_INFINITY, "0.0 > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(0.0, -1.0), 0.0 > -1.0, "0.0 > -1.0"); Tester.checkEqual(doubleGt(0.0, -0.0), 0.0 > -0.0, "0.0 > -0.0"); Tester.checkEqual(doubleGt(0.0, 0.0), 0.0 > 0.0, "0.0 > 0.0"); Tester.checkEqual(doubleGt(0.0, 1.0), 0.0 > 1.0, "0.0 > 1.0"); Tester.checkEqual(doubleGt(0.0, Double.MAX_VALUE), 0.0 > Double.MAX_VALUE, "0.0 > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(0.0, Double.POSITIVE_INFINITY), 0.0 > Double.POSITIVE_INFINITY, "0.0 > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(0.0, Double.NaN), 0.0 > Double.NaN, "0.0 > Double.NaN"); Tester.checkEqual(doubleGt(1.0, Double.NEGATIVE_INFINITY), 1.0 > Double.NEGATIVE_INFINITY, "1.0 > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(1.0, -1.0), 1.0 > -1.0, "1.0 > -1.0"); Tester.checkEqual(doubleGt(1.0, -0.0), 1.0 > -0.0, "1.0 > -0.0"); Tester.checkEqual(doubleGt(1.0, 0.0), 1.0 > 0.0, "1.0 > 0.0"); Tester.checkEqual(doubleGt(1.0, 1.0), 1.0 > 1.0, "1.0 > 1.0"); Tester.checkEqual(doubleGt(1.0, Double.MAX_VALUE), 1.0 > Double.MAX_VALUE, "1.0 > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(1.0, Double.POSITIVE_INFINITY), 1.0 > Double.POSITIVE_INFINITY, "1.0 > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(1.0, Double.NaN), 1.0 > Double.NaN, "1.0 > Double.NaN"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE > Double.NEGATIVE_INFINITY, "Double.MAX_VALUE > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, -1.0), Double.MAX_VALUE > -1.0, "Double.MAX_VALUE > -1.0"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, -0.0), Double.MAX_VALUE > -0.0, "Double.MAX_VALUE > -0.0"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, 0.0), Double.MAX_VALUE > 0.0, "Double.MAX_VALUE > 0.0"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, 1.0), Double.MAX_VALUE > 1.0, "Double.MAX_VALUE > 1.0"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE > Double.MAX_VALUE, "Double.MAX_VALUE > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE > Double.POSITIVE_INFINITY, "Double.MAX_VALUE > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE > Double.NaN, "Double.MAX_VALUE > Double.NaN"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY > Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY > -1.0, "Double.POSITIVE_INFINITY > -1.0"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY > -0.0, "Double.POSITIVE_INFINITY > -0.0"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY > 0.0, "Double.POSITIVE_INFINITY > 0.0"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY > 1.0, "Double.POSITIVE_INFINITY > 1.0"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY > Double.MAX_VALUE, "Double.POSITIVE_INFINITY > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY > Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY > Double.NaN, "Double.POSITIVE_INFINITY > Double.NaN"); Tester.checkEqual(doubleGt(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN > Double.NEGATIVE_INFINITY, "Double.NaN > Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.NaN, -1.0), Double.NaN > -1.0, "Double.NaN > -1.0"); Tester.checkEqual(doubleGt(Double.NaN, -0.0), Double.NaN > -0.0, "Double.NaN > -0.0"); Tester.checkEqual(doubleGt(Double.NaN, 0.0), Double.NaN > 0.0, "Double.NaN > 0.0"); Tester.checkEqual(doubleGt(Double.NaN, 1.0), Double.NaN > 1.0, "Double.NaN > 1.0"); Tester.checkEqual(doubleGt(Double.NaN, Double.MAX_VALUE), Double.NaN > Double.MAX_VALUE, "Double.NaN > Double.MAX_VALUE"); Tester.checkEqual(doubleGt(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN > Double.POSITIVE_INFINITY, "Double.NaN > Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGt(Double.NaN, Double.NaN), Double.NaN > Double.NaN, "Double.NaN > Double.NaN"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY <= Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY <= -1.0, "Double.NEGATIVE_INFINITY <= -1.0"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY <= -0.0, "Double.NEGATIVE_INFINITY <= -0.0"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY <= 0.0, "Double.NEGATIVE_INFINITY <= 0.0"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY <= 1.0, "Double.NEGATIVE_INFINITY <= 1.0"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY <= Double.MAX_VALUE, "Double.NEGATIVE_INFINITY <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY <= Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY <= Double.NaN, "Double.NEGATIVE_INFINITY <= Double.NaN"); Tester.checkEqual(doubleLe(-1.0, Double.NEGATIVE_INFINITY), -1.0 <= Double.NEGATIVE_INFINITY, "-1.0 <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(-1.0, -1.0), -1.0 <= -1.0, "-1.0 <= -1.0"); Tester.checkEqual(doubleLe(-1.0, -0.0), -1.0 <= -0.0, "-1.0 <= -0.0"); Tester.checkEqual(doubleLe(-1.0, 0.0), -1.0 <= 0.0, "-1.0 <= 0.0"); Tester.checkEqual(doubleLe(-1.0, 1.0), -1.0 <= 1.0, "-1.0 <= 1.0"); Tester.checkEqual(doubleLe(-1.0, Double.MAX_VALUE), -1.0 <= Double.MAX_VALUE, "-1.0 <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(-1.0, Double.POSITIVE_INFINITY), -1.0 <= Double.POSITIVE_INFINITY, "-1.0 <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(-1.0, Double.NaN), -1.0 <= Double.NaN, "-1.0 <= Double.NaN"); Tester.checkEqual(doubleLe(-0.0, Double.NEGATIVE_INFINITY), -0.0 <= Double.NEGATIVE_INFINITY, "-0.0 <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(-0.0, -1.0), -0.0 <= -1.0, "-0.0 <= -1.0"); Tester.checkEqual(doubleLe(-0.0, -0.0), -0.0 <= -0.0, "-0.0 <= -0.0"); Tester.checkEqual(doubleLe(-0.0, 0.0), -0.0 <= 0.0, "-0.0 <= 0.0"); Tester.checkEqual(doubleLe(-0.0, 1.0), -0.0 <= 1.0, "-0.0 <= 1.0"); Tester.checkEqual(doubleLe(-0.0, Double.MAX_VALUE), -0.0 <= Double.MAX_VALUE, "-0.0 <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(-0.0, Double.POSITIVE_INFINITY), -0.0 <= Double.POSITIVE_INFINITY, "-0.0 <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(-0.0, Double.NaN), -0.0 <= Double.NaN, "-0.0 <= Double.NaN"); Tester.checkEqual(doubleLe(0.0, Double.NEGATIVE_INFINITY), 0.0 <= Double.NEGATIVE_INFINITY, "0.0 <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(0.0, -1.0), 0.0 <= -1.0, "0.0 <= -1.0"); Tester.checkEqual(doubleLe(0.0, -0.0), 0.0 <= -0.0, "0.0 <= -0.0"); Tester.checkEqual(doubleLe(0.0, 0.0), 0.0 <= 0.0, "0.0 <= 0.0"); Tester.checkEqual(doubleLe(0.0, 1.0), 0.0 <= 1.0, "0.0 <= 1.0"); Tester.checkEqual(doubleLe(0.0, Double.MAX_VALUE), 0.0 <= Double.MAX_VALUE, "0.0 <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(0.0, Double.POSITIVE_INFINITY), 0.0 <= Double.POSITIVE_INFINITY, "0.0 <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(0.0, Double.NaN), 0.0 <= Double.NaN, "0.0 <= Double.NaN"); Tester.checkEqual(doubleLe(1.0, Double.NEGATIVE_INFINITY), 1.0 <= Double.NEGATIVE_INFINITY, "1.0 <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(1.0, -1.0), 1.0 <= -1.0, "1.0 <= -1.0"); Tester.checkEqual(doubleLe(1.0, -0.0), 1.0 <= -0.0, "1.0 <= -0.0"); Tester.checkEqual(doubleLe(1.0, 0.0), 1.0 <= 0.0, "1.0 <= 0.0"); Tester.checkEqual(doubleLe(1.0, 1.0), 1.0 <= 1.0, "1.0 <= 1.0"); Tester.checkEqual(doubleLe(1.0, Double.MAX_VALUE), 1.0 <= Double.MAX_VALUE, "1.0 <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(1.0, Double.POSITIVE_INFINITY), 1.0 <= Double.POSITIVE_INFINITY, "1.0 <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(1.0, Double.NaN), 1.0 <= Double.NaN, "1.0 <= Double.NaN"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE <= Double.NEGATIVE_INFINITY, "Double.MAX_VALUE <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, -1.0), Double.MAX_VALUE <= -1.0, "Double.MAX_VALUE <= -1.0"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, -0.0), Double.MAX_VALUE <= -0.0, "Double.MAX_VALUE <= -0.0"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, 0.0), Double.MAX_VALUE <= 0.0, "Double.MAX_VALUE <= 0.0"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, 1.0), Double.MAX_VALUE <= 1.0, "Double.MAX_VALUE <= 1.0"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE <= Double.MAX_VALUE, "Double.MAX_VALUE <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE <= Double.POSITIVE_INFINITY, "Double.MAX_VALUE <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE <= Double.NaN, "Double.MAX_VALUE <= Double.NaN"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY <= Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY <= -1.0, "Double.POSITIVE_INFINITY <= -1.0"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY <= -0.0, "Double.POSITIVE_INFINITY <= -0.0"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY <= 0.0, "Double.POSITIVE_INFINITY <= 0.0"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY <= 1.0, "Double.POSITIVE_INFINITY <= 1.0"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY <= Double.MAX_VALUE, "Double.POSITIVE_INFINITY <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY <= Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY <= Double.NaN, "Double.POSITIVE_INFINITY <= Double.NaN"); Tester.checkEqual(doubleLe(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN <= Double.NEGATIVE_INFINITY, "Double.NaN <= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.NaN, -1.0), Double.NaN <= -1.0, "Double.NaN <= -1.0"); Tester.checkEqual(doubleLe(Double.NaN, -0.0), Double.NaN <= -0.0, "Double.NaN <= -0.0"); Tester.checkEqual(doubleLe(Double.NaN, 0.0), Double.NaN <= 0.0, "Double.NaN <= 0.0"); Tester.checkEqual(doubleLe(Double.NaN, 1.0), Double.NaN <= 1.0, "Double.NaN <= 1.0"); Tester.checkEqual(doubleLe(Double.NaN, Double.MAX_VALUE), Double.NaN <= Double.MAX_VALUE, "Double.NaN <= Double.MAX_VALUE"); Tester.checkEqual(doubleLe(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN <= Double.POSITIVE_INFINITY, "Double.NaN <= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleLe(Double.NaN, Double.NaN), Double.NaN <= Double.NaN, "Double.NaN <= Double.NaN"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY >= Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY >= -1.0, "Double.NEGATIVE_INFINITY >= -1.0"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY >= -0.0, "Double.NEGATIVE_INFINITY >= -0.0"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY >= 0.0, "Double.NEGATIVE_INFINITY >= 0.0"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY >= 1.0, "Double.NEGATIVE_INFINITY >= 1.0"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY >= Double.MAX_VALUE, "Double.NEGATIVE_INFINITY >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY >= Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY >= Double.NaN, "Double.NEGATIVE_INFINITY >= Double.NaN"); Tester.checkEqual(doubleGe(-1.0, Double.NEGATIVE_INFINITY), -1.0 >= Double.NEGATIVE_INFINITY, "-1.0 >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(-1.0, -1.0), -1.0 >= -1.0, "-1.0 >= -1.0"); Tester.checkEqual(doubleGe(-1.0, -0.0), -1.0 >= -0.0, "-1.0 >= -0.0"); Tester.checkEqual(doubleGe(-1.0, 0.0), -1.0 >= 0.0, "-1.0 >= 0.0"); Tester.checkEqual(doubleGe(-1.0, 1.0), -1.0 >= 1.0, "-1.0 >= 1.0"); Tester.checkEqual(doubleGe(-1.0, Double.MAX_VALUE), -1.0 >= Double.MAX_VALUE, "-1.0 >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(-1.0, Double.POSITIVE_INFINITY), -1.0 >= Double.POSITIVE_INFINITY, "-1.0 >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(-1.0, Double.NaN), -1.0 >= Double.NaN, "-1.0 >= Double.NaN"); Tester.checkEqual(doubleGe(-0.0, Double.NEGATIVE_INFINITY), -0.0 >= Double.NEGATIVE_INFINITY, "-0.0 >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(-0.0, -1.0), -0.0 >= -1.0, "-0.0 >= -1.0"); Tester.checkEqual(doubleGe(-0.0, -0.0), -0.0 >= -0.0, "-0.0 >= -0.0"); Tester.checkEqual(doubleGe(-0.0, 0.0), -0.0 >= 0.0, "-0.0 >= 0.0"); Tester.checkEqual(doubleGe(-0.0, 1.0), -0.0 >= 1.0, "-0.0 >= 1.0"); Tester.checkEqual(doubleGe(-0.0, Double.MAX_VALUE), -0.0 >= Double.MAX_VALUE, "-0.0 >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(-0.0, Double.POSITIVE_INFINITY), -0.0 >= Double.POSITIVE_INFINITY, "-0.0 >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(-0.0, Double.NaN), -0.0 >= Double.NaN, "-0.0 >= Double.NaN"); Tester.checkEqual(doubleGe(0.0, Double.NEGATIVE_INFINITY), 0.0 >= Double.NEGATIVE_INFINITY, "0.0 >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(0.0, -1.0), 0.0 >= -1.0, "0.0 >= -1.0"); Tester.checkEqual(doubleGe(0.0, -0.0), 0.0 >= -0.0, "0.0 >= -0.0"); Tester.checkEqual(doubleGe(0.0, 0.0), 0.0 >= 0.0, "0.0 >= 0.0"); Tester.checkEqual(doubleGe(0.0, 1.0), 0.0 >= 1.0, "0.0 >= 1.0"); Tester.checkEqual(doubleGe(0.0, Double.MAX_VALUE), 0.0 >= Double.MAX_VALUE, "0.0 >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(0.0, Double.POSITIVE_INFINITY), 0.0 >= Double.POSITIVE_INFINITY, "0.0 >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(0.0, Double.NaN), 0.0 >= Double.NaN, "0.0 >= Double.NaN"); Tester.checkEqual(doubleGe(1.0, Double.NEGATIVE_INFINITY), 1.0 >= Double.NEGATIVE_INFINITY, "1.0 >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(1.0, -1.0), 1.0 >= -1.0, "1.0 >= -1.0"); Tester.checkEqual(doubleGe(1.0, -0.0), 1.0 >= -0.0, "1.0 >= -0.0"); Tester.checkEqual(doubleGe(1.0, 0.0), 1.0 >= 0.0, "1.0 >= 0.0"); Tester.checkEqual(doubleGe(1.0, 1.0), 1.0 >= 1.0, "1.0 >= 1.0"); Tester.checkEqual(doubleGe(1.0, Double.MAX_VALUE), 1.0 >= Double.MAX_VALUE, "1.0 >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(1.0, Double.POSITIVE_INFINITY), 1.0 >= Double.POSITIVE_INFINITY, "1.0 >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(1.0, Double.NaN), 1.0 >= Double.NaN, "1.0 >= Double.NaN"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE >= Double.NEGATIVE_INFINITY, "Double.MAX_VALUE >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, -1.0), Double.MAX_VALUE >= -1.0, "Double.MAX_VALUE >= -1.0"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, -0.0), Double.MAX_VALUE >= -0.0, "Double.MAX_VALUE >= -0.0"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, 0.0), Double.MAX_VALUE >= 0.0, "Double.MAX_VALUE >= 0.0"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, 1.0), Double.MAX_VALUE >= 1.0, "Double.MAX_VALUE >= 1.0"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE >= Double.MAX_VALUE, "Double.MAX_VALUE >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE >= Double.POSITIVE_INFINITY, "Double.MAX_VALUE >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE >= Double.NaN, "Double.MAX_VALUE >= Double.NaN"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY >= Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY >= -1.0, "Double.POSITIVE_INFINITY >= -1.0"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY >= -0.0, "Double.POSITIVE_INFINITY >= -0.0"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY >= 0.0, "Double.POSITIVE_INFINITY >= 0.0"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY >= 1.0, "Double.POSITIVE_INFINITY >= 1.0"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY >= Double.MAX_VALUE, "Double.POSITIVE_INFINITY >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY >= Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY >= Double.NaN, "Double.POSITIVE_INFINITY >= Double.NaN"); Tester.checkEqual(doubleGe(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN >= Double.NEGATIVE_INFINITY, "Double.NaN >= Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.NaN, -1.0), Double.NaN >= -1.0, "Double.NaN >= -1.0"); Tester.checkEqual(doubleGe(Double.NaN, -0.0), Double.NaN >= -0.0, "Double.NaN >= -0.0"); Tester.checkEqual(doubleGe(Double.NaN, 0.0), Double.NaN >= 0.0, "Double.NaN >= 0.0"); Tester.checkEqual(doubleGe(Double.NaN, 1.0), Double.NaN >= 1.0, "Double.NaN >= 1.0"); Tester.checkEqual(doubleGe(Double.NaN, Double.MAX_VALUE), Double.NaN >= Double.MAX_VALUE, "Double.NaN >= Double.MAX_VALUE"); Tester.checkEqual(doubleGe(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN >= Double.POSITIVE_INFINITY, "Double.NaN >= Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleGe(Double.NaN, Double.NaN), Double.NaN >= Double.NaN, "Double.NaN >= Double.NaN"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY == Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY == -1.0, "Double.NEGATIVE_INFINITY == -1.0"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY == -0.0, "Double.NEGATIVE_INFINITY == -0.0"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY == 0.0, "Double.NEGATIVE_INFINITY == 0.0"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY == 1.0, "Double.NEGATIVE_INFINITY == 1.0"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY == Double.MAX_VALUE, "Double.NEGATIVE_INFINITY == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY == Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY == Double.NaN, "Double.NEGATIVE_INFINITY == Double.NaN"); Tester.checkEqual(doubleEq(-1.0, Double.NEGATIVE_INFINITY), -1.0 == Double.NEGATIVE_INFINITY, "-1.0 == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(-1.0, -1.0), -1.0 == -1.0, "-1.0 == -1.0"); Tester.checkEqual(doubleEq(-1.0, -0.0), -1.0 == -0.0, "-1.0 == -0.0"); Tester.checkEqual(doubleEq(-1.0, 0.0), -1.0 == 0.0, "-1.0 == 0.0"); Tester.checkEqual(doubleEq(-1.0, 1.0), -1.0 == 1.0, "-1.0 == 1.0"); Tester.checkEqual(doubleEq(-1.0, Double.MAX_VALUE), -1.0 == Double.MAX_VALUE, "-1.0 == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(-1.0, Double.POSITIVE_INFINITY), -1.0 == Double.POSITIVE_INFINITY, "-1.0 == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(-1.0, Double.NaN), -1.0 == Double.NaN, "-1.0 == Double.NaN"); Tester.checkEqual(doubleEq(-0.0, Double.NEGATIVE_INFINITY), -0.0 == Double.NEGATIVE_INFINITY, "-0.0 == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(-0.0, -1.0), -0.0 == -1.0, "-0.0 == -1.0"); Tester.checkEqual(doubleEq(-0.0, -0.0), -0.0 == -0.0, "-0.0 == -0.0"); Tester.checkEqual(doubleEq(-0.0, 0.0), -0.0 == 0.0, "-0.0 == 0.0"); Tester.checkEqual(doubleEq(-0.0, 1.0), -0.0 == 1.0, "-0.0 == 1.0"); Tester.checkEqual(doubleEq(-0.0, Double.MAX_VALUE), -0.0 == Double.MAX_VALUE, "-0.0 == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(-0.0, Double.POSITIVE_INFINITY), -0.0 == Double.POSITIVE_INFINITY, "-0.0 == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(-0.0, Double.NaN), -0.0 == Double.NaN, "-0.0 == Double.NaN"); Tester.checkEqual(doubleEq(0.0, Double.NEGATIVE_INFINITY), 0.0 == Double.NEGATIVE_INFINITY, "0.0 == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(0.0, -1.0), 0.0 == -1.0, "0.0 == -1.0"); Tester.checkEqual(doubleEq(0.0, -0.0), 0.0 == -0.0, "0.0 == -0.0"); Tester.checkEqual(doubleEq(0.0, 0.0), 0.0 == 0.0, "0.0 == 0.0"); Tester.checkEqual(doubleEq(0.0, 1.0), 0.0 == 1.0, "0.0 == 1.0"); Tester.checkEqual(doubleEq(0.0, Double.MAX_VALUE), 0.0 == Double.MAX_VALUE, "0.0 == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(0.0, Double.POSITIVE_INFINITY), 0.0 == Double.POSITIVE_INFINITY, "0.0 == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(0.0, Double.NaN), 0.0 == Double.NaN, "0.0 == Double.NaN"); Tester.checkEqual(doubleEq(1.0, Double.NEGATIVE_INFINITY), 1.0 == Double.NEGATIVE_INFINITY, "1.0 == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(1.0, -1.0), 1.0 == -1.0, "1.0 == -1.0"); Tester.checkEqual(doubleEq(1.0, -0.0), 1.0 == -0.0, "1.0 == -0.0"); Tester.checkEqual(doubleEq(1.0, 0.0), 1.0 == 0.0, "1.0 == 0.0"); Tester.checkEqual(doubleEq(1.0, 1.0), 1.0 == 1.0, "1.0 == 1.0"); Tester.checkEqual(doubleEq(1.0, Double.MAX_VALUE), 1.0 == Double.MAX_VALUE, "1.0 == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(1.0, Double.POSITIVE_INFINITY), 1.0 == Double.POSITIVE_INFINITY, "1.0 == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(1.0, Double.NaN), 1.0 == Double.NaN, "1.0 == Double.NaN"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE == Double.NEGATIVE_INFINITY, "Double.MAX_VALUE == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, -1.0), Double.MAX_VALUE == -1.0, "Double.MAX_VALUE == -1.0"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, -0.0), Double.MAX_VALUE == -0.0, "Double.MAX_VALUE == -0.0"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, 0.0), Double.MAX_VALUE == 0.0, "Double.MAX_VALUE == 0.0"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, 1.0), Double.MAX_VALUE == 1.0, "Double.MAX_VALUE == 1.0"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE == Double.MAX_VALUE, "Double.MAX_VALUE == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE == Double.POSITIVE_INFINITY, "Double.MAX_VALUE == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE == Double.NaN, "Double.MAX_VALUE == Double.NaN"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY == Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY == -1.0, "Double.POSITIVE_INFINITY == -1.0"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY == -0.0, "Double.POSITIVE_INFINITY == -0.0"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY == 0.0, "Double.POSITIVE_INFINITY == 0.0"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY == 1.0, "Double.POSITIVE_INFINITY == 1.0"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY == Double.MAX_VALUE, "Double.POSITIVE_INFINITY == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY == Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY == Double.NaN, "Double.POSITIVE_INFINITY == Double.NaN"); Tester.checkEqual(doubleEq(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN == Double.NEGATIVE_INFINITY, "Double.NaN == Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.NaN, -1.0), Double.NaN == -1.0, "Double.NaN == -1.0"); Tester.checkEqual(doubleEq(Double.NaN, -0.0), Double.NaN == -0.0, "Double.NaN == -0.0"); Tester.checkEqual(doubleEq(Double.NaN, 0.0), Double.NaN == 0.0, "Double.NaN == 0.0"); Tester.checkEqual(doubleEq(Double.NaN, 1.0), Double.NaN == 1.0, "Double.NaN == 1.0"); Tester.checkEqual(doubleEq(Double.NaN, Double.MAX_VALUE), Double.NaN == Double.MAX_VALUE, "Double.NaN == Double.MAX_VALUE"); Tester.checkEqual(doubleEq(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN == Double.POSITIVE_INFINITY, "Double.NaN == Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleEq(Double.NaN, Double.NaN), Double.NaN == Double.NaN, "Double.NaN == Double.NaN"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.NEGATIVE_INFINITY != Double.NEGATIVE_INFINITY, "Double.NEGATIVE_INFINITY != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, -1.0), Double.NEGATIVE_INFINITY != -1.0, "Double.NEGATIVE_INFINITY != -1.0"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, -0.0), Double.NEGATIVE_INFINITY != -0.0, "Double.NEGATIVE_INFINITY != -0.0"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, 0.0), Double.NEGATIVE_INFINITY != 0.0, "Double.NEGATIVE_INFINITY != 0.0"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, 1.0), Double.NEGATIVE_INFINITY != 1.0, "Double.NEGATIVE_INFINITY != 1.0"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, Double.MAX_VALUE), Double.NEGATIVE_INFINITY != Double.MAX_VALUE, "Double.NEGATIVE_INFINITY != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, Double.POSITIVE_INFINITY), Double.NEGATIVE_INFINITY != Double.POSITIVE_INFINITY, "Double.NEGATIVE_INFINITY != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.NEGATIVE_INFINITY, Double.NaN), Double.NEGATIVE_INFINITY != Double.NaN, "Double.NEGATIVE_INFINITY != Double.NaN"); Tester.checkEqual(doubleNe(-1.0, Double.NEGATIVE_INFINITY), -1.0 != Double.NEGATIVE_INFINITY, "-1.0 != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(-1.0, -1.0), -1.0 != -1.0, "-1.0 != -1.0"); Tester.checkEqual(doubleNe(-1.0, -0.0), -1.0 != -0.0, "-1.0 != -0.0"); Tester.checkEqual(doubleNe(-1.0, 0.0), -1.0 != 0.0, "-1.0 != 0.0"); Tester.checkEqual(doubleNe(-1.0, 1.0), -1.0 != 1.0, "-1.0 != 1.0"); Tester.checkEqual(doubleNe(-1.0, Double.MAX_VALUE), -1.0 != Double.MAX_VALUE, "-1.0 != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(-1.0, Double.POSITIVE_INFINITY), -1.0 != Double.POSITIVE_INFINITY, "-1.0 != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(-1.0, Double.NaN), -1.0 != Double.NaN, "-1.0 != Double.NaN"); Tester.checkEqual(doubleNe(-0.0, Double.NEGATIVE_INFINITY), -0.0 != Double.NEGATIVE_INFINITY, "-0.0 != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(-0.0, -1.0), -0.0 != -1.0, "-0.0 != -1.0"); Tester.checkEqual(doubleNe(-0.0, -0.0), -0.0 != -0.0, "-0.0 != -0.0"); Tester.checkEqual(doubleNe(-0.0, 0.0), -0.0 != 0.0, "-0.0 != 0.0"); Tester.checkEqual(doubleNe(-0.0, 1.0), -0.0 != 1.0, "-0.0 != 1.0"); Tester.checkEqual(doubleNe(-0.0, Double.MAX_VALUE), -0.0 != Double.MAX_VALUE, "-0.0 != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(-0.0, Double.POSITIVE_INFINITY), -0.0 != Double.POSITIVE_INFINITY, "-0.0 != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(-0.0, Double.NaN), -0.0 != Double.NaN, "-0.0 != Double.NaN"); Tester.checkEqual(doubleNe(0.0, Double.NEGATIVE_INFINITY), 0.0 != Double.NEGATIVE_INFINITY, "0.0 != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(0.0, -1.0), 0.0 != -1.0, "0.0 != -1.0"); Tester.checkEqual(doubleNe(0.0, -0.0), 0.0 != -0.0, "0.0 != -0.0"); Tester.checkEqual(doubleNe(0.0, 0.0), 0.0 != 0.0, "0.0 != 0.0"); Tester.checkEqual(doubleNe(0.0, 1.0), 0.0 != 1.0, "0.0 != 1.0"); Tester.checkEqual(doubleNe(0.0, Double.MAX_VALUE), 0.0 != Double.MAX_VALUE, "0.0 != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(0.0, Double.POSITIVE_INFINITY), 0.0 != Double.POSITIVE_INFINITY, "0.0 != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(0.0, Double.NaN), 0.0 != Double.NaN, "0.0 != Double.NaN"); Tester.checkEqual(doubleNe(1.0, Double.NEGATIVE_INFINITY), 1.0 != Double.NEGATIVE_INFINITY, "1.0 != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(1.0, -1.0), 1.0 != -1.0, "1.0 != -1.0"); Tester.checkEqual(doubleNe(1.0, -0.0), 1.0 != -0.0, "1.0 != -0.0"); Tester.checkEqual(doubleNe(1.0, 0.0), 1.0 != 0.0, "1.0 != 0.0"); Tester.checkEqual(doubleNe(1.0, 1.0), 1.0 != 1.0, "1.0 != 1.0"); Tester.checkEqual(doubleNe(1.0, Double.MAX_VALUE), 1.0 != Double.MAX_VALUE, "1.0 != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(1.0, Double.POSITIVE_INFINITY), 1.0 != Double.POSITIVE_INFINITY, "1.0 != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(1.0, Double.NaN), 1.0 != Double.NaN, "1.0 != Double.NaN"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, Double.NEGATIVE_INFINITY), Double.MAX_VALUE != Double.NEGATIVE_INFINITY, "Double.MAX_VALUE != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, -1.0), Double.MAX_VALUE != -1.0, "Double.MAX_VALUE != -1.0"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, -0.0), Double.MAX_VALUE != -0.0, "Double.MAX_VALUE != -0.0"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, 0.0), Double.MAX_VALUE != 0.0, "Double.MAX_VALUE != 0.0"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, 1.0), Double.MAX_VALUE != 1.0, "Double.MAX_VALUE != 1.0"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, Double.MAX_VALUE), Double.MAX_VALUE != Double.MAX_VALUE, "Double.MAX_VALUE != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, Double.POSITIVE_INFINITY), Double.MAX_VALUE != Double.POSITIVE_INFINITY, "Double.MAX_VALUE != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.MAX_VALUE, Double.NaN), Double.MAX_VALUE != Double.NaN, "Double.MAX_VALUE != Double.NaN"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, Double.NEGATIVE_INFINITY), Double.POSITIVE_INFINITY != Double.NEGATIVE_INFINITY, "Double.POSITIVE_INFINITY != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, -1.0), Double.POSITIVE_INFINITY != -1.0, "Double.POSITIVE_INFINITY != -1.0"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, -0.0), Double.POSITIVE_INFINITY != -0.0, "Double.POSITIVE_INFINITY != -0.0"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, 0.0), Double.POSITIVE_INFINITY != 0.0, "Double.POSITIVE_INFINITY != 0.0"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, 1.0), Double.POSITIVE_INFINITY != 1.0, "Double.POSITIVE_INFINITY != 1.0"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, Double.MAX_VALUE), Double.POSITIVE_INFINITY != Double.MAX_VALUE, "Double.POSITIVE_INFINITY != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, Double.POSITIVE_INFINITY), Double.POSITIVE_INFINITY != Double.POSITIVE_INFINITY, "Double.POSITIVE_INFINITY != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.POSITIVE_INFINITY, Double.NaN), Double.POSITIVE_INFINITY != Double.NaN, "Double.POSITIVE_INFINITY != Double.NaN"); Tester.checkEqual(doubleNe(Double.NaN, Double.NEGATIVE_INFINITY), Double.NaN != Double.NEGATIVE_INFINITY, "Double.NaN != Double.NEGATIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.NaN, -1.0), Double.NaN != -1.0, "Double.NaN != -1.0"); Tester.checkEqual(doubleNe(Double.NaN, -0.0), Double.NaN != -0.0, "Double.NaN != -0.0"); Tester.checkEqual(doubleNe(Double.NaN, 0.0), Double.NaN != 0.0, "Double.NaN != 0.0"); Tester.checkEqual(doubleNe(Double.NaN, 1.0), Double.NaN != 1.0, "Double.NaN != 1.0"); Tester.checkEqual(doubleNe(Double.NaN, Double.MAX_VALUE), Double.NaN != Double.MAX_VALUE, "Double.NaN != Double.MAX_VALUE"); Tester.checkEqual(doubleNe(Double.NaN, Double.POSITIVE_INFINITY), Double.NaN != Double.POSITIVE_INFINITY, "Double.NaN != Double.POSITIVE_INFINITY"); Tester.checkEqual(doubleNe(Double.NaN, Double.NaN), Double.NaN != Double.NaN, "Double.NaN != Double.NaN"); } static void doubleSwitch() { switch(0) { case ((((double) + Double.NEGATIVE_INFINITY) == 0) ? 0 : 0): case ((((double) + -1.0) == 0) ? 1 : 1): case ((((double) + -0.0) == 0) ? 2 : 2): case ((((double) + 0.0) == 0) ? 3 : 3): case ((((double) + 1.0) == 0) ? 4 : 4): case ((((double) + Double.MAX_VALUE) == 0) ? 5 : 5): case ((((double) + Double.POSITIVE_INFINITY) == 0) ? 6 : 6): case ((((double) + Double.NaN) == 0) ? 7 : 7): case ((((double) - Double.NEGATIVE_INFINITY) == 0) ? 8 : 8): case ((((double) - -1.0) == 0) ? 9 : 9): case ((((double) - -0.0) == 0) ? 10 : 10): case ((((double) - 0.0) == 0) ? 11 : 11): case ((((double) - 1.0) == 0) ? 12 : 12): case ((((double) - Double.MAX_VALUE) == 0) ? 13 : 13): case ((((double) - Double.POSITIVE_INFINITY) == 0) ? 14 : 14): case ((((double) - Double.NaN) == 0) ? 15 : 15): case ((((double) (Double.NEGATIVE_INFINITY * Double.NEGATIVE_INFINITY)) == 0) ? 16 : 16): case ((((double) (Double.NEGATIVE_INFINITY * -1.0)) == 0) ? 17 : 17): case ((((double) (Double.NEGATIVE_INFINITY * -0.0)) == 0) ? 18 : 18): case ((((double) (Double.NEGATIVE_INFINITY * 0.0)) == 0) ? 19 : 19): case ((((double) (Double.NEGATIVE_INFINITY * 1.0)) == 0) ? 20 : 20): case ((((double) (Double.NEGATIVE_INFINITY * Double.MAX_VALUE)) == 0) ? 21 : 21): case ((((double) (Double.NEGATIVE_INFINITY * Double.POSITIVE_INFINITY)) == 0) ? 22 : 22): case ((((double) (Double.NEGATIVE_INFINITY * Double.NaN)) == 0) ? 23 : 23): case ((((double) (-1.0 * Double.NEGATIVE_INFINITY)) == 0) ? 24 : 24): case ((((double) (-1.0 * -1.0)) == 0) ? 25 : 25): case ((((double) (-1.0 * -0.0)) == 0) ? 26 : 26): case ((((double) (-1.0 * 0.0)) == 0) ? 27 : 27): case ((((double) (-1.0 * 1.0)) == 0) ? 28 : 28): case ((((double) (-1.0 * Double.MAX_VALUE)) == 0) ? 29 : 29): case ((((double) (-1.0 * Double.POSITIVE_INFINITY)) == 0) ? 30 : 30): case ((((double) (-1.0 * Double.NaN)) == 0) ? 31 : 31): case ((((double) (-0.0 * Double.NEGATIVE_INFINITY)) == 0) ? 32 : 32): case ((((double) (-0.0 * -1.0)) == 0) ? 33 : 33): case ((((double) (-0.0 * -0.0)) == 0) ? 34 : 34): case ((((double) (-0.0 * 0.0)) == 0) ? 35 : 35): case ((((double) (-0.0 * 1.0)) == 0) ? 36 : 36): case ((((double) (-0.0 * Double.MAX_VALUE)) == 0) ? 37 : 37): case ((((double) (-0.0 * Double.POSITIVE_INFINITY)) == 0) ? 38 : 38): case ((((double) (-0.0 * Double.NaN)) == 0) ? 39 : 39): case ((((double) (0.0 * Double.NEGATIVE_INFINITY)) == 0) ? 40 : 40): case ((((double) (0.0 * -1.0)) == 0) ? 41 : 41): case ((((double) (0.0 * -0.0)) == 0) ? 42 : 42): case ((((double) (0.0 * 0.0)) == 0) ? 43 : 43): case ((((double) (0.0 * 1.0)) == 0) ? 44 : 44): case ((((double) (0.0 * Double.MAX_VALUE)) == 0) ? 45 : 45): case ((((double) (0.0 * Double.POSITIVE_INFINITY)) == 0) ? 46 : 46): case ((((double) (0.0 * Double.NaN)) == 0) ? 47 : 47): case ((((double) (1.0 * Double.NEGATIVE_INFINITY)) == 0) ? 48 : 48): case ((((double) (1.0 * -1.0)) == 0) ? 49 : 49): case ((((double) (1.0 * -0.0)) == 0) ? 50 : 50): case ((((double) (1.0 * 0.0)) == 0) ? 51 : 51): case ((((double) (1.0 * 1.0)) == 0) ? 52 : 52): case ((((double) (1.0 * Double.MAX_VALUE)) == 0) ? 53 : 53): case ((((double) (1.0 * Double.POSITIVE_INFINITY)) == 0) ? 54 : 54): case ((((double) (1.0 * Double.NaN)) == 0) ? 55 : 55): case ((((double) (Double.MAX_VALUE * Double.NEGATIVE_INFINITY)) == 0) ? 56 : 56): case ((((double) (Double.MAX_VALUE * -1.0)) == 0) ? 57 : 57): case ((((double) (Double.MAX_VALUE * -0.0)) == 0) ? 58 : 58): case ((((double) (Double.MAX_VALUE * 0.0)) == 0) ? 59 : 59): case ((((double) (Double.MAX_VALUE * 1.0)) == 0) ? 60 : 60): case ((((double) (Double.MAX_VALUE * Double.MAX_VALUE)) == 0) ? 61 : 61): case ((((double) (Double.MAX_VALUE * Double.POSITIVE_INFINITY)) == 0) ? 62 : 62): case ((((double) (Double.MAX_VALUE * Double.NaN)) == 0) ? 63 : 63): case ((((double) (Double.POSITIVE_INFINITY * Double.NEGATIVE_INFINITY)) == 0) ? 64 : 64): case ((((double) (Double.POSITIVE_INFINITY * -1.0)) == 0) ? 65 : 65): case ((((double) (Double.POSITIVE_INFINITY * -0.0)) == 0) ? 66 : 66): case ((((double) (Double.POSITIVE_INFINITY * 0.0)) == 0) ? 67 : 67): case ((((double) (Double.POSITIVE_INFINITY * 1.0)) == 0) ? 68 : 68): case ((((double) (Double.POSITIVE_INFINITY * Double.MAX_VALUE)) == 0) ? 69 : 69): case ((((double) (Double.POSITIVE_INFINITY * Double.POSITIVE_INFINITY)) == 0) ? 70 : 70): case ((((double) (Double.POSITIVE_INFINITY * Double.NaN)) == 0) ? 71 : 71): case ((((double) (Double.NaN * Double.NEGATIVE_INFINITY)) == 0) ? 72 : 72): case ((((double) (Double.NaN * -1.0)) == 0) ? 73 : 73): case ((((double) (Double.NaN * -0.0)) == 0) ? 74 : 74): case ((((double) (Double.NaN * 0.0)) == 0) ? 75 : 75): case ((((double) (Double.NaN * 1.0)) == 0) ? 76 : 76): case ((((double) (Double.NaN * Double.MAX_VALUE)) == 0) ? 77 : 77): case ((((double) (Double.NaN * Double.POSITIVE_INFINITY)) == 0) ? 78 : 78): case ((((double) (Double.NaN * Double.NaN)) == 0) ? 79 : 79): case ((((double) (Double.NEGATIVE_INFINITY / Double.NEGATIVE_INFINITY)) == 0) ? 80 : 80): case ((((double) (Double.NEGATIVE_INFINITY / -1.0)) == 0) ? 81 : 81): case ((((double) (Double.NEGATIVE_INFINITY / -0.0)) == 0) ? 82 : 82): case ((((double) (Double.NEGATIVE_INFINITY / 0.0)) == 0) ? 83 : 83): case ((((double) (Double.NEGATIVE_INFINITY / 1.0)) == 0) ? 84 : 84): case ((((double) (Double.NEGATIVE_INFINITY / Double.MAX_VALUE)) == 0) ? 85 : 85): case ((((double) (Double.NEGATIVE_INFINITY / Double.POSITIVE_INFINITY)) == 0) ? 86 : 86): case ((((double) (Double.NEGATIVE_INFINITY / Double.NaN)) == 0) ? 87 : 87): case ((((double) (-1.0 / Double.NEGATIVE_INFINITY)) == 0) ? 88 : 88): case ((((double) (-1.0 / -1.0)) == 0) ? 89 : 89): case ((((double) (-1.0 / -0.0)) == 0) ? 90 : 90): case ((((double) (-1.0 / 0.0)) == 0) ? 91 : 91): case ((((double) (-1.0 / 1.0)) == 0) ? 92 : 92): case ((((double) (-1.0 / Double.MAX_VALUE)) == 0) ? 93 : 93): case ((((double) (-1.0 / Double.POSITIVE_INFINITY)) == 0) ? 94 : 94): case ((((double) (-1.0 / Double.NaN)) == 0) ? 95 : 95): case ((((double) (-0.0 / Double.NEGATIVE_INFINITY)) == 0) ? 96 : 96): case ((((double) (-0.0 / -1.0)) == 0) ? 97 : 97): case ((((double) (-0.0 / -0.0)) == 0) ? 98 : 98): case ((((double) (-0.0 / 0.0)) == 0) ? 99 : 99): case ((((double) (-0.0 / 1.0)) == 0) ? 100 : 100): case ((((double) (-0.0 / Double.MAX_VALUE)) == 0) ? 101 : 101): case ((((double) (-0.0 / Double.POSITIVE_INFINITY)) == 0) ? 102 : 102): case ((((double) (-0.0 / Double.NaN)) == 0) ? 103 : 103): case ((((double) (0.0 / Double.NEGATIVE_INFINITY)) == 0) ? 104 : 104): case ((((double) (0.0 / -1.0)) == 0) ? 105 : 105): case ((((double) (0.0 / -0.0)) == 0) ? 106 : 106): case ((((double) (0.0 / 0.0)) == 0) ? 107 : 107): case ((((double) (0.0 / 1.0)) == 0) ? 108 : 108): case ((((double) (0.0 / Double.MAX_VALUE)) == 0) ? 109 : 109): case ((((double) (0.0 / Double.POSITIVE_INFINITY)) == 0) ? 110 : 110): case ((((double) (0.0 / Double.NaN)) == 0) ? 111 : 111): case ((((double) (1.0 / Double.NEGATIVE_INFINITY)) == 0) ? 112 : 112): case ((((double) (1.0 / -1.0)) == 0) ? 113 : 113): case ((((double) (1.0 / -0.0)) == 0) ? 114 : 114): case ((((double) (1.0 / 0.0)) == 0) ? 115 : 115): case ((((double) (1.0 / 1.0)) == 0) ? 116 : 116): case ((((double) (1.0 / Double.MAX_VALUE)) == 0) ? 117 : 117): case ((((double) (1.0 / Double.POSITIVE_INFINITY)) == 0) ? 118 : 118): case ((((double) (1.0 / Double.NaN)) == 0) ? 119 : 119): case ((((double) (Double.MAX_VALUE / Double.NEGATIVE_INFINITY)) == 0) ? 120 : 120): case ((((double) (Double.MAX_VALUE / -1.0)) == 0) ? 121 : 121): case ((((double) (Double.MAX_VALUE / -0.0)) == 0) ? 122 : 122): case ((((double) (Double.MAX_VALUE / 0.0)) == 0) ? 123 : 123): case ((((double) (Double.MAX_VALUE / 1.0)) == 0) ? 124 : 124): case ((((double) (Double.MAX_VALUE / Double.MAX_VALUE)) == 0) ? 125 : 125): case ((((double) (Double.MAX_VALUE / Double.POSITIVE_INFINITY)) == 0) ? 126 : 126): case ((((double) (Double.MAX_VALUE / Double.NaN)) == 0) ? 127 : 127): case ((((double) (Double.POSITIVE_INFINITY / Double.NEGATIVE_INFINITY)) == 0) ? 128 : 128): case ((((double) (Double.POSITIVE_INFINITY / -1.0)) == 0) ? 129 : 129): case ((((double) (Double.POSITIVE_INFINITY / -0.0)) == 0) ? 130 : 130): case ((((double) (Double.POSITIVE_INFINITY / 0.0)) == 0) ? 131 : 131): case ((((double) (Double.POSITIVE_INFINITY / 1.0)) == 0) ? 132 : 132): case ((((double) (Double.POSITIVE_INFINITY / Double.MAX_VALUE)) == 0) ? 133 : 133): case ((((double) (Double.POSITIVE_INFINITY / Double.POSITIVE_INFINITY)) == 0) ? 134 : 134): case ((((double) (Double.POSITIVE_INFINITY / Double.NaN)) == 0) ? 135 : 135): case ((((double) (Double.NaN / Double.NEGATIVE_INFINITY)) == 0) ? 136 : 136): case ((((double) (Double.NaN / -1.0)) == 0) ? 137 : 137): case ((((double) (Double.NaN / -0.0)) == 0) ? 138 : 138): case ((((double) (Double.NaN / 0.0)) == 0) ? 139 : 139): case ((((double) (Double.NaN / 1.0)) == 0) ? 140 : 140): case ((((double) (Double.NaN / Double.MAX_VALUE)) == 0) ? 141 : 141): case ((((double) (Double.NaN / Double.POSITIVE_INFINITY)) == 0) ? 142 : 142): case ((((double) (Double.NaN / Double.NaN)) == 0) ? 143 : 143): case ((((double) (Double.NEGATIVE_INFINITY % Double.NEGATIVE_INFINITY)) == 0) ? 144 : 144): case ((((double) (Double.NEGATIVE_INFINITY % -1.0)) == 0) ? 145 : 145): case ((((double) (Double.NEGATIVE_INFINITY % -0.0)) == 0) ? 146 : 146): case ((((double) (Double.NEGATIVE_INFINITY % 0.0)) == 0) ? 147 : 147): case ((((double) (Double.NEGATIVE_INFINITY % 1.0)) == 0) ? 148 : 148): case ((((double) (Double.NEGATIVE_INFINITY % Double.MAX_VALUE)) == 0) ? 149 : 149): case ((((double) (Double.NEGATIVE_INFINITY % Double.POSITIVE_INFINITY)) == 0) ? 150 : 150): case ((((double) (Double.NEGATIVE_INFINITY % Double.NaN)) == 0) ? 151 : 151): case ((((double) (-1.0 % Double.NEGATIVE_INFINITY)) == 0) ? 152 : 152): case ((((double) (-1.0 % -1.0)) == 0) ? 153 : 153): case ((((double) (-1.0 % -0.0)) == 0) ? 154 : 154): case ((((double) (-1.0 % 0.0)) == 0) ? 155 : 155): case ((((double) (-1.0 % 1.0)) == 0) ? 156 : 156): case ((((double) (-1.0 % Double.MAX_VALUE)) == 0) ? 157 : 157): case ((((double) (-1.0 % Double.POSITIVE_INFINITY)) == 0) ? 158 : 158): case ((((double) (-1.0 % Double.NaN)) == 0) ? 159 : 159): case ((((double) (-0.0 % Double.NEGATIVE_INFINITY)) == 0) ? 160 : 160): case ((((double) (-0.0 % -1.0)) == 0) ? 161 : 161): case ((((double) (-0.0 % -0.0)) == 0) ? 162 : 162): case ((((double) (-0.0 % 0.0)) == 0) ? 163 : 163): case ((((double) (-0.0 % 1.0)) == 0) ? 164 : 164): case ((((double) (-0.0 % Double.MAX_VALUE)) == 0) ? 165 : 165): case ((((double) (-0.0 % Double.POSITIVE_INFINITY)) == 0) ? 166 : 166): case ((((double) (-0.0 % Double.NaN)) == 0) ? 167 : 167): case ((((double) (0.0 % Double.NEGATIVE_INFINITY)) == 0) ? 168 : 168): case ((((double) (0.0 % -1.0)) == 0) ? 169 : 169): case ((((double) (0.0 % -0.0)) == 0) ? 170 : 170): case ((((double) (0.0 % 0.0)) == 0) ? 171 : 171): case ((((double) (0.0 % 1.0)) == 0) ? 172 : 172): case ((((double) (0.0 % Double.MAX_VALUE)) == 0) ? 173 : 173): case ((((double) (0.0 % Double.POSITIVE_INFINITY)) == 0) ? 174 : 174): case ((((double) (0.0 % Double.NaN)) == 0) ? 175 : 175): case ((((double) (1.0 % Double.NEGATIVE_INFINITY)) == 0) ? 176 : 176): case ((((double) (1.0 % -1.0)) == 0) ? 177 : 177): case ((((double) (1.0 % -0.0)) == 0) ? 178 : 178): case ((((double) (1.0 % 0.0)) == 0) ? 179 : 179): case ((((double) (1.0 % 1.0)) == 0) ? 180 : 180): case ((((double) (1.0 % Double.MAX_VALUE)) == 0) ? 181 : 181): case ((((double) (1.0 % Double.POSITIVE_INFINITY)) == 0) ? 182 : 182): case ((((double) (1.0 % Double.NaN)) == 0) ? 183 : 183): case ((((double) (Double.MAX_VALUE % Double.NEGATIVE_INFINITY)) == 0) ? 184 : 184): case ((((double) (Double.MAX_VALUE % -1.0)) == 0) ? 185 : 185): case ((((double) (Double.MAX_VALUE % -0.0)) == 0) ? 186 : 186): case ((((double) (Double.MAX_VALUE % 0.0)) == 0) ? 187 : 187): case ((((double) (Double.MAX_VALUE % 1.0)) == 0) ? 188 : 188): case ((((double) (Double.MAX_VALUE % Double.MAX_VALUE)) == 0) ? 189 : 189): case ((((double) (Double.MAX_VALUE % Double.POSITIVE_INFINITY)) == 0) ? 190 : 190): case ((((double) (Double.MAX_VALUE % Double.NaN)) == 0) ? 191 : 191): case ((((double) (Double.POSITIVE_INFINITY % Double.NEGATIVE_INFINITY)) == 0) ? 192 : 192): case ((((double) (Double.POSITIVE_INFINITY % -1.0)) == 0) ? 193 : 193): case ((((double) (Double.POSITIVE_INFINITY % -0.0)) == 0) ? 194 : 194): case ((((double) (Double.POSITIVE_INFINITY % 0.0)) == 0) ? 195 : 195): case ((((double) (Double.POSITIVE_INFINITY % 1.0)) == 0) ? 196 : 196): case ((((double) (Double.POSITIVE_INFINITY % Double.MAX_VALUE)) == 0) ? 197 : 197): case ((((double) (Double.POSITIVE_INFINITY % Double.POSITIVE_INFINITY)) == 0) ? 198 : 198): case ((((double) (Double.POSITIVE_INFINITY % Double.NaN)) == 0) ? 199 : 199): case ((((double) (Double.NaN % Double.NEGATIVE_INFINITY)) == 0) ? 200 : 200): case ((((double) (Double.NaN % -1.0)) == 0) ? 201 : 201): case ((((double) (Double.NaN % -0.0)) == 0) ? 202 : 202): case ((((double) (Double.NaN % 0.0)) == 0) ? 203 : 203): case ((((double) (Double.NaN % 1.0)) == 0) ? 204 : 204): case ((((double) (Double.NaN % Double.MAX_VALUE)) == 0) ? 205 : 205): case ((((double) (Double.NaN % Double.POSITIVE_INFINITY)) == 0) ? 206 : 206): case ((((double) (Double.NaN % Double.NaN)) == 0) ? 207 : 207): case ((((double) (Double.NEGATIVE_INFINITY + Double.NEGATIVE_INFINITY)) == 0) ? 208 : 208): case ((((double) (Double.NEGATIVE_INFINITY + -1.0)) == 0) ? 209 : 209): case ((((double) (Double.NEGATIVE_INFINITY + -0.0)) == 0) ? 210 : 210): case ((((double) (Double.NEGATIVE_INFINITY + 0.0)) == 0) ? 211 : 211): case ((((double) (Double.NEGATIVE_INFINITY + 1.0)) == 0) ? 212 : 212): case ((((double) (Double.NEGATIVE_INFINITY + Double.MAX_VALUE)) == 0) ? 213 : 213): case ((((double) (Double.NEGATIVE_INFINITY + Double.POSITIVE_INFINITY)) == 0) ? 214 : 214): case ((((double) (Double.NEGATIVE_INFINITY + Double.NaN)) == 0) ? 215 : 215): case ((((double) (-1.0 + Double.NEGATIVE_INFINITY)) == 0) ? 216 : 216): case ((((double) (-1.0 + -1.0)) == 0) ? 217 : 217): case ((((double) (-1.0 + -0.0)) == 0) ? 218 : 218): case ((((double) (-1.0 + 0.0)) == 0) ? 219 : 219): case ((((double) (-1.0 + 1.0)) == 0) ? 220 : 220): case ((((double) (-1.0 + Double.MAX_VALUE)) == 0) ? 221 : 221): case ((((double) (-1.0 + Double.POSITIVE_INFINITY)) == 0) ? 222 : 222): case ((((double) (-1.0 + Double.NaN)) == 0) ? 223 : 223): case ((((double) (-0.0 + Double.NEGATIVE_INFINITY)) == 0) ? 224 : 224): case ((((double) (-0.0 + -1.0)) == 0) ? 225 : 225): case ((((double) (-0.0 + -0.0)) == 0) ? 226 : 226): case ((((double) (-0.0 + 0.0)) == 0) ? 227 : 227): case ((((double) (-0.0 + 1.0)) == 0) ? 228 : 228): case ((((double) (-0.0 + Double.MAX_VALUE)) == 0) ? 229 : 229): case ((((double) (-0.0 + Double.POSITIVE_INFINITY)) == 0) ? 230 : 230): case ((((double) (-0.0 + Double.NaN)) == 0) ? 231 : 231): case ((((double) (0.0 + Double.NEGATIVE_INFINITY)) == 0) ? 232 : 232): case ((((double) (0.0 + -1.0)) == 0) ? 233 : 233): case ((((double) (0.0 + -0.0)) == 0) ? 234 : 234): case ((((double) (0.0 + 0.0)) == 0) ? 235 : 235): case ((((double) (0.0 + 1.0)) == 0) ? 236 : 236): case ((((double) (0.0 + Double.MAX_VALUE)) == 0) ? 237 : 237): case ((((double) (0.0 + Double.POSITIVE_INFINITY)) == 0) ? 238 : 238): case ((((double) (0.0 + Double.NaN)) == 0) ? 239 : 239): case ((((double) (1.0 + Double.NEGATIVE_INFINITY)) == 0) ? 240 : 240): case ((((double) (1.0 + -1.0)) == 0) ? 241 : 241): case ((((double) (1.0 + -0.0)) == 0) ? 242 : 242): case ((((double) (1.0 + 0.0)) == 0) ? 243 : 243): case ((((double) (1.0 + 1.0)) == 0) ? 244 : 244): case ((((double) (1.0 + Double.MAX_VALUE)) == 0) ? 245 : 245): case ((((double) (1.0 + Double.POSITIVE_INFINITY)) == 0) ? 246 : 246): case ((((double) (1.0 + Double.NaN)) == 0) ? 247 : 247): case ((((double) (Double.MAX_VALUE + Double.NEGATIVE_INFINITY)) == 0) ? 248 : 248): case ((((double) (Double.MAX_VALUE + -1.0)) == 0) ? 249 : 249): case ((((double) (Double.MAX_VALUE + -0.0)) == 0) ? 250 : 250): case ((((double) (Double.MAX_VALUE + 0.0)) == 0) ? 251 : 251): case ((((double) (Double.MAX_VALUE + 1.0)) == 0) ? 252 : 252): case ((((double) (Double.MAX_VALUE + Double.MAX_VALUE)) == 0) ? 253 : 253): case ((((double) (Double.MAX_VALUE + Double.POSITIVE_INFINITY)) == 0) ? 254 : 254): case ((((double) (Double.MAX_VALUE + Double.NaN)) == 0) ? 255 : 255): case ((((double) (Double.POSITIVE_INFINITY + Double.NEGATIVE_INFINITY)) == 0) ? 256 : 256): case ((((double) (Double.POSITIVE_INFINITY + -1.0)) == 0) ? 257 : 257): case ((((double) (Double.POSITIVE_INFINITY + -0.0)) == 0) ? 258 : 258): case ((((double) (Double.POSITIVE_INFINITY + 0.0)) == 0) ? 259 : 259): case ((((double) (Double.POSITIVE_INFINITY + 1.0)) == 0) ? 260 : 260): case ((((double) (Double.POSITIVE_INFINITY + Double.MAX_VALUE)) == 0) ? 261 : 261): case ((((double) (Double.POSITIVE_INFINITY + Double.POSITIVE_INFINITY)) == 0) ? 262 : 262): case ((((double) (Double.POSITIVE_INFINITY + Double.NaN)) == 0) ? 263 : 263): case ((((double) (Double.NaN + Double.NEGATIVE_INFINITY)) == 0) ? 264 : 264): case ((((double) (Double.NaN + -1.0)) == 0) ? 265 : 265): case ((((double) (Double.NaN + -0.0)) == 0) ? 266 : 266): case ((((double) (Double.NaN + 0.0)) == 0) ? 267 : 267): case ((((double) (Double.NaN + 1.0)) == 0) ? 268 : 268): case ((((double) (Double.NaN + Double.MAX_VALUE)) == 0) ? 269 : 269): case ((((double) (Double.NaN + Double.POSITIVE_INFINITY)) == 0) ? 270 : 270): case ((((double) (Double.NaN + Double.NaN)) == 0) ? 271 : 271): case ((((double) (Double.NEGATIVE_INFINITY - Double.NEGATIVE_INFINITY)) == 0) ? 272 : 272): case ((((double) (Double.NEGATIVE_INFINITY - -1.0)) == 0) ? 273 : 273): case ((((double) (Double.NEGATIVE_INFINITY - -0.0)) == 0) ? 274 : 274): case ((((double) (Double.NEGATIVE_INFINITY - 0.0)) == 0) ? 275 : 275): case ((((double) (Double.NEGATIVE_INFINITY - 1.0)) == 0) ? 276 : 276): case ((((double) (Double.NEGATIVE_INFINITY - Double.MAX_VALUE)) == 0) ? 277 : 277): case ((((double) (Double.NEGATIVE_INFINITY - Double.POSITIVE_INFINITY)) == 0) ? 278 : 278): case ((((double) (Double.NEGATIVE_INFINITY - Double.NaN)) == 0) ? 279 : 279): case ((((double) (-1.0 - Double.NEGATIVE_INFINITY)) == 0) ? 280 : 280): case ((((double) (-1.0 - -1.0)) == 0) ? 281 : 281): case ((((double) (-1.0 - -0.0)) == 0) ? 282 : 282): case ((((double) (-1.0 - 0.0)) == 0) ? 283 : 283): case ((((double) (-1.0 - 1.0)) == 0) ? 284 : 284): case ((((double) (-1.0 - Double.MAX_VALUE)) == 0) ? 285 : 285): case ((((double) (-1.0 - Double.POSITIVE_INFINITY)) == 0) ? 286 : 286): case ((((double) (-1.0 - Double.NaN)) == 0) ? 287 : 287): case ((((double) (-0.0 - Double.NEGATIVE_INFINITY)) == 0) ? 288 : 288): case ((((double) (-0.0 - -1.0)) == 0) ? 289 : 289): case ((((double) (-0.0 - -0.0)) == 0) ? 290 : 290): case ((((double) (-0.0 - 0.0)) == 0) ? 291 : 291): case ((((double) (-0.0 - 1.0)) == 0) ? 292 : 292): case ((((double) (-0.0 - Double.MAX_VALUE)) == 0) ? 293 : 293): case ((((double) (-0.0 - Double.POSITIVE_INFINITY)) == 0) ? 294 : 294): case ((((double) (-0.0 - Double.NaN)) == 0) ? 295 : 295): case ((((double) (0.0 - Double.NEGATIVE_INFINITY)) == 0) ? 296 : 296): case ((((double) (0.0 - -1.0)) == 0) ? 297 : 297): case ((((double) (0.0 - -0.0)) == 0) ? 298 : 298): case ((((double) (0.0 - 0.0)) == 0) ? 299 : 299): case ((((double) (0.0 - 1.0)) == 0) ? 300 : 300): case ((((double) (0.0 - Double.MAX_VALUE)) == 0) ? 301 : 301): case ((((double) (0.0 - Double.POSITIVE_INFINITY)) == 0) ? 302 : 302): case ((((double) (0.0 - Double.NaN)) == 0) ? 303 : 303): case ((((double) (1.0 - Double.NEGATIVE_INFINITY)) == 0) ? 304 : 304): case ((((double) (1.0 - -1.0)) == 0) ? 305 : 305): case ((((double) (1.0 - -0.0)) == 0) ? 306 : 306): case ((((double) (1.0 - 0.0)) == 0) ? 307 : 307): case ((((double) (1.0 - 1.0)) == 0) ? 308 : 308): case ((((double) (1.0 - Double.MAX_VALUE)) == 0) ? 309 : 309): case ((((double) (1.0 - Double.POSITIVE_INFINITY)) == 0) ? 310 : 310): case ((((double) (1.0 - Double.NaN)) == 0) ? 311 : 311): case ((((double) (Double.MAX_VALUE - Double.NEGATIVE_INFINITY)) == 0) ? 312 : 312): case ((((double) (Double.MAX_VALUE - -1.0)) == 0) ? 313 : 313): case ((((double) (Double.MAX_VALUE - -0.0)) == 0) ? 314 : 314): case ((((double) (Double.MAX_VALUE - 0.0)) == 0) ? 315 : 315): case ((((double) (Double.MAX_VALUE - 1.0)) == 0) ? 316 : 316): case ((((double) (Double.MAX_VALUE - Double.MAX_VALUE)) == 0) ? 317 : 317): case ((((double) (Double.MAX_VALUE - Double.POSITIVE_INFINITY)) == 0) ? 318 : 318): case ((((double) (Double.MAX_VALUE - Double.NaN)) == 0) ? 319 : 319): case ((((double) (Double.POSITIVE_INFINITY - Double.NEGATIVE_INFINITY)) == 0) ? 320 : 320): case ((((double) (Double.POSITIVE_INFINITY - -1.0)) == 0) ? 321 : 321): case ((((double) (Double.POSITIVE_INFINITY - -0.0)) == 0) ? 322 : 322): case ((((double) (Double.POSITIVE_INFINITY - 0.0)) == 0) ? 323 : 323): case ((((double) (Double.POSITIVE_INFINITY - 1.0)) == 0) ? 324 : 324): case ((((double) (Double.POSITIVE_INFINITY - Double.MAX_VALUE)) == 0) ? 325 : 325): case ((((double) (Double.POSITIVE_INFINITY - Double.POSITIVE_INFINITY)) == 0) ? 326 : 326): case ((((double) (Double.POSITIVE_INFINITY - Double.NaN)) == 0) ? 327 : 327): case ((((double) (Double.NaN - Double.NEGATIVE_INFINITY)) == 0) ? 328 : 328): case ((((double) (Double.NaN - -1.0)) == 0) ? 329 : 329): case ((((double) (Double.NaN - -0.0)) == 0) ? 330 : 330): case ((((double) (Double.NaN - 0.0)) == 0) ? 331 : 331): case ((((double) (Double.NaN - 1.0)) == 0) ? 332 : 332): case ((((double) (Double.NaN - Double.MAX_VALUE)) == 0) ? 333 : 333): case ((((double) (Double.NaN - Double.POSITIVE_INFINITY)) == 0) ? 334 : 334): case ((((double) (Double.NaN - Double.NaN)) == 0) ? 335 : 335): case ((Double.NEGATIVE_INFINITY < Double.NEGATIVE_INFINITY) ? 336 : 336): case ((Double.NEGATIVE_INFINITY < -1.0) ? 337 : 337): case ((Double.NEGATIVE_INFINITY < -0.0) ? 338 : 338): case ((Double.NEGATIVE_INFINITY < 0.0) ? 339 : 339): case ((Double.NEGATIVE_INFINITY < 1.0) ? 340 : 340): case ((Double.NEGATIVE_INFINITY < Double.MAX_VALUE) ? 341 : 341): case ((Double.NEGATIVE_INFINITY < Double.POSITIVE_INFINITY) ? 342 : 342): case ((Double.NEGATIVE_INFINITY < Double.NaN) ? 343 : 343): case ((-1.0 < Double.NEGATIVE_INFINITY) ? 344 : 344): case ((-1.0 < -1.0) ? 345 : 345): case ((-1.0 < -0.0) ? 346 : 346): case ((-1.0 < 0.0) ? 347 : 347): case ((-1.0 < 1.0) ? 348 : 348): case ((-1.0 < Double.MAX_VALUE) ? 349 : 349): case ((-1.0 < Double.POSITIVE_INFINITY) ? 350 : 350): case ((-1.0 < Double.NaN) ? 351 : 351): case ((-0.0 < Double.NEGATIVE_INFINITY) ? 352 : 352): case ((-0.0 < -1.0) ? 353 : 353): case ((-0.0 < -0.0) ? 354 : 354): case ((-0.0 < 0.0) ? 355 : 355): case ((-0.0 < 1.0) ? 356 : 356): case ((-0.0 < Double.MAX_VALUE) ? 357 : 357): case ((-0.0 < Double.POSITIVE_INFINITY) ? 358 : 358): case ((-0.0 < Double.NaN) ? 359 : 359): case ((0.0 < Double.NEGATIVE_INFINITY) ? 360 : 360): case ((0.0 < -1.0) ? 361 : 361): case ((0.0 < -0.0) ? 362 : 362): case ((0.0 < 0.0) ? 363 : 363): case ((0.0 < 1.0) ? 364 : 364): case ((0.0 < Double.MAX_VALUE) ? 365 : 365): case ((0.0 < Double.POSITIVE_INFINITY) ? 366 : 366): case ((0.0 < Double.NaN) ? 367 : 367): case ((1.0 < Double.NEGATIVE_INFINITY) ? 368 : 368): case ((1.0 < -1.0) ? 369 : 369): case ((1.0 < -0.0) ? 370 : 370): case ((1.0 < 0.0) ? 371 : 371): case ((1.0 < 1.0) ? 372 : 372): case ((1.0 < Double.MAX_VALUE) ? 373 : 373): case ((1.0 < Double.POSITIVE_INFINITY) ? 374 : 374): case ((1.0 < Double.NaN) ? 375 : 375): case ((Double.MAX_VALUE < Double.NEGATIVE_INFINITY) ? 376 : 376): case ((Double.MAX_VALUE < -1.0) ? 377 : 377): case ((Double.MAX_VALUE < -0.0) ? 378 : 378): case ((Double.MAX_VALUE < 0.0) ? 379 : 379): case ((Double.MAX_VALUE < 1.0) ? 380 : 380): case ((Double.MAX_VALUE < Double.MAX_VALUE) ? 381 : 381): case ((Double.MAX_VALUE < Double.POSITIVE_INFINITY) ? 382 : 382): case ((Double.MAX_VALUE < Double.NaN) ? 383 : 383): case ((Double.POSITIVE_INFINITY < Double.NEGATIVE_INFINITY) ? 384 : 384): case ((Double.POSITIVE_INFINITY < -1.0) ? 385 : 385): case ((Double.POSITIVE_INFINITY < -0.0) ? 386 : 386): case ((Double.POSITIVE_INFINITY < 0.0) ? 387 : 387): case ((Double.POSITIVE_INFINITY < 1.0) ? 388 : 388): case ((Double.POSITIVE_INFINITY < Double.MAX_VALUE) ? 389 : 389): case ((Double.POSITIVE_INFINITY < Double.POSITIVE_INFINITY) ? 390 : 390): case ((Double.POSITIVE_INFINITY < Double.NaN) ? 391 : 391): case ((Double.NaN < Double.NEGATIVE_INFINITY) ? 392 : 392): case ((Double.NaN < -1.0) ? 393 : 393): case ((Double.NaN < -0.0) ? 394 : 394): case ((Double.NaN < 0.0) ? 395 : 395): case ((Double.NaN < 1.0) ? 396 : 396): case ((Double.NaN < Double.MAX_VALUE) ? 397 : 397): case ((Double.NaN < Double.POSITIVE_INFINITY) ? 398 : 398): case ((Double.NaN < Double.NaN) ? 399 : 399): case ((Double.NEGATIVE_INFINITY > Double.NEGATIVE_INFINITY) ? 400 : 400): case ((Double.NEGATIVE_INFINITY > -1.0) ? 401 : 401): case ((Double.NEGATIVE_INFINITY > -0.0) ? 402 : 402): case ((Double.NEGATIVE_INFINITY > 0.0) ? 403 : 403): case ((Double.NEGATIVE_INFINITY > 1.0) ? 404 : 404): case ((Double.NEGATIVE_INFINITY > Double.MAX_VALUE) ? 405 : 405): case ((Double.NEGATIVE_INFINITY > Double.POSITIVE_INFINITY) ? 406 : 406): case ((Double.NEGATIVE_INFINITY > Double.NaN) ? 407 : 407): case ((-1.0 > Double.NEGATIVE_INFINITY) ? 408 : 408): case ((-1.0 > -1.0) ? 409 : 409): case ((-1.0 > -0.0) ? 410 : 410): case ((-1.0 > 0.0) ? 411 : 411): case ((-1.0 > 1.0) ? 412 : 412): case ((-1.0 > Double.MAX_VALUE) ? 413 : 413): case ((-1.0 > Double.POSITIVE_INFINITY) ? 414 : 414): case ((-1.0 > Double.NaN) ? 415 : 415): case ((-0.0 > Double.NEGATIVE_INFINITY) ? 416 : 416): case ((-0.0 > -1.0) ? 417 : 417): case ((-0.0 > -0.0) ? 418 : 418): case ((-0.0 > 0.0) ? 419 : 419): case ((-0.0 > 1.0) ? 420 : 420): case ((-0.0 > Double.MAX_VALUE) ? 421 : 421): case ((-0.0 > Double.POSITIVE_INFINITY) ? 422 : 422): case ((-0.0 > Double.NaN) ? 423 : 423): case ((0.0 > Double.NEGATIVE_INFINITY) ? 424 : 424): case ((0.0 > -1.0) ? 425 : 425): case ((0.0 > -0.0) ? 426 : 426): case ((0.0 > 0.0) ? 427 : 427): case ((0.0 > 1.0) ? 428 : 428): case ((0.0 > Double.MAX_VALUE) ? 429 : 429): case ((0.0 > Double.POSITIVE_INFINITY) ? 430 : 430): case ((0.0 > Double.NaN) ? 431 : 431): case ((1.0 > Double.NEGATIVE_INFINITY) ? 432 : 432): case ((1.0 > -1.0) ? 433 : 433): case ((1.0 > -0.0) ? 434 : 434): case ((1.0 > 0.0) ? 435 : 435): case ((1.0 > 1.0) ? 436 : 436): case ((1.0 > Double.MAX_VALUE) ? 437 : 437): case ((1.0 > Double.POSITIVE_INFINITY) ? 438 : 438): case ((1.0 > Double.NaN) ? 439 : 439): case ((Double.MAX_VALUE > Double.NEGATIVE_INFINITY) ? 440 : 440): case ((Double.MAX_VALUE > -1.0) ? 441 : 441): case ((Double.MAX_VALUE > -0.0) ? 442 : 442): case ((Double.MAX_VALUE > 0.0) ? 443 : 443): case ((Double.MAX_VALUE > 1.0) ? 444 : 444): case ((Double.MAX_VALUE > Double.MAX_VALUE) ? 445 : 445): case ((Double.MAX_VALUE > Double.POSITIVE_INFINITY) ? 446 : 446): case ((Double.MAX_VALUE > Double.NaN) ? 447 : 447): case ((Double.POSITIVE_INFINITY > Double.NEGATIVE_INFINITY) ? 448 : 448): case ((Double.POSITIVE_INFINITY > -1.0) ? 449 : 449): case ((Double.POSITIVE_INFINITY > -0.0) ? 450 : 450): case ((Double.POSITIVE_INFINITY > 0.0) ? 451 : 451): case ((Double.POSITIVE_INFINITY > 1.0) ? 452 : 452): case ((Double.POSITIVE_INFINITY > Double.MAX_VALUE) ? 453 : 453): case ((Double.POSITIVE_INFINITY > Double.POSITIVE_INFINITY) ? 454 : 454): case ((Double.POSITIVE_INFINITY > Double.NaN) ? 455 : 455): case ((Double.NaN > Double.NEGATIVE_INFINITY) ? 456 : 456): case ((Double.NaN > -1.0) ? 457 : 457): case ((Double.NaN > -0.0) ? 458 : 458): case ((Double.NaN > 0.0) ? 459 : 459): case ((Double.NaN > 1.0) ? 460 : 460): case ((Double.NaN > Double.MAX_VALUE) ? 461 : 461): case ((Double.NaN > Double.POSITIVE_INFINITY) ? 462 : 462): case ((Double.NaN > Double.NaN) ? 463 : 463): case ((Double.NEGATIVE_INFINITY <= Double.NEGATIVE_INFINITY) ? 464 : 464): case ((Double.NEGATIVE_INFINITY <= -1.0) ? 465 : 465): case ((Double.NEGATIVE_INFINITY <= -0.0) ? 466 : 466): case ((Double.NEGATIVE_INFINITY <= 0.0) ? 467 : 467): case ((Double.NEGATIVE_INFINITY <= 1.0) ? 468 : 468): case ((Double.NEGATIVE_INFINITY <= Double.MAX_VALUE) ? 469 : 469): case ((Double.NEGATIVE_INFINITY <= Double.POSITIVE_INFINITY) ? 470 : 470): case ((Double.NEGATIVE_INFINITY <= Double.NaN) ? 471 : 471): case ((-1.0 <= Double.NEGATIVE_INFINITY) ? 472 : 472): case ((-1.0 <= -1.0) ? 473 : 473): case ((-1.0 <= -0.0) ? 474 : 474): case ((-1.0 <= 0.0) ? 475 : 475): case ((-1.0 <= 1.0) ? 476 : 476): case ((-1.0 <= Double.MAX_VALUE) ? 477 : 477): case ((-1.0 <= Double.POSITIVE_INFINITY) ? 478 : 478): case ((-1.0 <= Double.NaN) ? 479 : 479): case ((-0.0 <= Double.NEGATIVE_INFINITY) ? 480 : 480): case ((-0.0 <= -1.0) ? 481 : 481): case ((-0.0 <= -0.0) ? 482 : 482): case ((-0.0 <= 0.0) ? 483 : 483): case ((-0.0 <= 1.0) ? 484 : 484): case ((-0.0 <= Double.MAX_VALUE) ? 485 : 485): case ((-0.0 <= Double.POSITIVE_INFINITY) ? 486 : 486): case ((-0.0 <= Double.NaN) ? 487 : 487): case ((0.0 <= Double.NEGATIVE_INFINITY) ? 488 : 488): case ((0.0 <= -1.0) ? 489 : 489): case ((0.0 <= -0.0) ? 490 : 490): case ((0.0 <= 0.0) ? 491 : 491): case ((0.0 <= 1.0) ? 492 : 492): case ((0.0 <= Double.MAX_VALUE) ? 493 : 493): case ((0.0 <= Double.POSITIVE_INFINITY) ? 494 : 494): case ((0.0 <= Double.NaN) ? 495 : 495): case ((1.0 <= Double.NEGATIVE_INFINITY) ? 496 : 496): case ((1.0 <= -1.0) ? 497 : 497): case ((1.0 <= -0.0) ? 498 : 498): case ((1.0 <= 0.0) ? 499 : 499): case ((1.0 <= 1.0) ? 500 : 500): case ((1.0 <= Double.MAX_VALUE) ? 501 : 501): case ((1.0 <= Double.POSITIVE_INFINITY) ? 502 : 502): case ((1.0 <= Double.NaN) ? 503 : 503): case ((Double.MAX_VALUE <= Double.NEGATIVE_INFINITY) ? 504 : 504): case ((Double.MAX_VALUE <= -1.0) ? 505 : 505): case ((Double.MAX_VALUE <= -0.0) ? 506 : 506): case ((Double.MAX_VALUE <= 0.0) ? 507 : 507): case ((Double.MAX_VALUE <= 1.0) ? 508 : 508): case ((Double.MAX_VALUE <= Double.MAX_VALUE) ? 509 : 509): case ((Double.MAX_VALUE <= Double.POSITIVE_INFINITY) ? 510 : 510): case ((Double.MAX_VALUE <= Double.NaN) ? 511 : 511): case ((Double.POSITIVE_INFINITY <= Double.NEGATIVE_INFINITY) ? 512 : 512): case ((Double.POSITIVE_INFINITY <= -1.0) ? 513 : 513): case ((Double.POSITIVE_INFINITY <= -0.0) ? 514 : 514): case ((Double.POSITIVE_INFINITY <= 0.0) ? 515 : 515): case ((Double.POSITIVE_INFINITY <= 1.0) ? 516 : 516): case ((Double.POSITIVE_INFINITY <= Double.MAX_VALUE) ? 517 : 517): case ((Double.POSITIVE_INFINITY <= Double.POSITIVE_INFINITY) ? 518 : 518): case ((Double.POSITIVE_INFINITY <= Double.NaN) ? 519 : 519): case ((Double.NaN <= Double.NEGATIVE_INFINITY) ? 520 : 520): case ((Double.NaN <= -1.0) ? 521 : 521): case ((Double.NaN <= -0.0) ? 522 : 522): case ((Double.NaN <= 0.0) ? 523 : 523): case ((Double.NaN <= 1.0) ? 524 : 524): case ((Double.NaN <= Double.MAX_VALUE) ? 525 : 525): case ((Double.NaN <= Double.POSITIVE_INFINITY) ? 526 : 526): case ((Double.NaN <= Double.NaN) ? 527 : 527): case ((Double.NEGATIVE_INFINITY >= Double.NEGATIVE_INFINITY) ? 528 : 528): case ((Double.NEGATIVE_INFINITY >= -1.0) ? 529 : 529): case ((Double.NEGATIVE_INFINITY >= -0.0) ? 530 : 530): case ((Double.NEGATIVE_INFINITY >= 0.0) ? 531 : 531): case ((Double.NEGATIVE_INFINITY >= 1.0) ? 532 : 532): case ((Double.NEGATIVE_INFINITY >= Double.MAX_VALUE) ? 533 : 533): case ((Double.NEGATIVE_INFINITY >= Double.POSITIVE_INFINITY) ? 534 : 534): case ((Double.NEGATIVE_INFINITY >= Double.NaN) ? 535 : 535): case ((-1.0 >= Double.NEGATIVE_INFINITY) ? 536 : 536): case ((-1.0 >= -1.0) ? 537 : 537): case ((-1.0 >= -0.0) ? 538 : 538): case ((-1.0 >= 0.0) ? 539 : 539): case ((-1.0 >= 1.0) ? 540 : 540): case ((-1.0 >= Double.MAX_VALUE) ? 541 : 541): case ((-1.0 >= Double.POSITIVE_INFINITY) ? 542 : 542): case ((-1.0 >= Double.NaN) ? 543 : 543): case ((-0.0 >= Double.NEGATIVE_INFINITY) ? 544 : 544): case ((-0.0 >= -1.0) ? 545 : 545): case ((-0.0 >= -0.0) ? 546 : 546): case ((-0.0 >= 0.0) ? 547 : 547): case ((-0.0 >= 1.0) ? 548 : 548): case ((-0.0 >= Double.MAX_VALUE) ? 549 : 549): case ((-0.0 >= Double.POSITIVE_INFINITY) ? 550 : 550): case ((-0.0 >= Double.NaN) ? 551 : 551): case ((0.0 >= Double.NEGATIVE_INFINITY) ? 552 : 552): case ((0.0 >= -1.0) ? 553 : 553): case ((0.0 >= -0.0) ? 554 : 554): case ((0.0 >= 0.0) ? 555 : 555): case ((0.0 >= 1.0) ? 556 : 556): case ((0.0 >= Double.MAX_VALUE) ? 557 : 557): case ((0.0 >= Double.POSITIVE_INFINITY) ? 558 : 558): case ((0.0 >= Double.NaN) ? 559 : 559): case ((1.0 >= Double.NEGATIVE_INFINITY) ? 560 : 560): case ((1.0 >= -1.0) ? 561 : 561): case ((1.0 >= -0.0) ? 562 : 562): case ((1.0 >= 0.0) ? 563 : 563): case ((1.0 >= 1.0) ? 564 : 564): case ((1.0 >= Double.MAX_VALUE) ? 565 : 565): case ((1.0 >= Double.POSITIVE_INFINITY) ? 566 : 566): case ((1.0 >= Double.NaN) ? 567 : 567): case ((Double.MAX_VALUE >= Double.NEGATIVE_INFINITY) ? 568 : 568): case ((Double.MAX_VALUE >= -1.0) ? 569 : 569): case ((Double.MAX_VALUE >= -0.0) ? 570 : 570): case ((Double.MAX_VALUE >= 0.0) ? 571 : 571): case ((Double.MAX_VALUE >= 1.0) ? 572 : 572): case ((Double.MAX_VALUE >= Double.MAX_VALUE) ? 573 : 573): case ((Double.MAX_VALUE >= Double.POSITIVE_INFINITY) ? 574 : 574): case ((Double.MAX_VALUE >= Double.NaN) ? 575 : 575): case ((Double.POSITIVE_INFINITY >= Double.NEGATIVE_INFINITY) ? 576 : 576): case ((Double.POSITIVE_INFINITY >= -1.0) ? 577 : 577): case ((Double.POSITIVE_INFINITY >= -0.0) ? 578 : 578): case ((Double.POSITIVE_INFINITY >= 0.0) ? 579 : 579): case ((Double.POSITIVE_INFINITY >= 1.0) ? 580 : 580): case ((Double.POSITIVE_INFINITY >= Double.MAX_VALUE) ? 581 : 581): case ((Double.POSITIVE_INFINITY >= Double.POSITIVE_INFINITY) ? 582 : 582): case ((Double.POSITIVE_INFINITY >= Double.NaN) ? 583 : 583): case ((Double.NaN >= Double.NEGATIVE_INFINITY) ? 584 : 584): case ((Double.NaN >= -1.0) ? 585 : 585): case ((Double.NaN >= -0.0) ? 586 : 586): case ((Double.NaN >= 0.0) ? 587 : 587): case ((Double.NaN >= 1.0) ? 588 : 588): case ((Double.NaN >= Double.MAX_VALUE) ? 589 : 589): case ((Double.NaN >= Double.POSITIVE_INFINITY) ? 590 : 590): case ((Double.NaN >= Double.NaN) ? 591 : 591): case ((Double.NEGATIVE_INFINITY == Double.NEGATIVE_INFINITY) ? 592 : 592): case ((Double.NEGATIVE_INFINITY == -1.0) ? 593 : 593): case ((Double.NEGATIVE_INFINITY == -0.0) ? 594 : 594): case ((Double.NEGATIVE_INFINITY == 0.0) ? 595 : 595): case ((Double.NEGATIVE_INFINITY == 1.0) ? 596 : 596): case ((Double.NEGATIVE_INFINITY == Double.MAX_VALUE) ? 597 : 597): case ((Double.NEGATIVE_INFINITY == Double.POSITIVE_INFINITY) ? 598 : 598): case ((Double.NEGATIVE_INFINITY == Double.NaN) ? 599 : 599): case ((-1.0 == Double.NEGATIVE_INFINITY) ? 600 : 600): case ((-1.0 == -1.0) ? 601 : 601): case ((-1.0 == -0.0) ? 602 : 602): case ((-1.0 == 0.0) ? 603 : 603): case ((-1.0 == 1.0) ? 604 : 604): case ((-1.0 == Double.MAX_VALUE) ? 605 : 605): case ((-1.0 == Double.POSITIVE_INFINITY) ? 606 : 606): case ((-1.0 == Double.NaN) ? 607 : 607): case ((-0.0 == Double.NEGATIVE_INFINITY) ? 608 : 608): case ((-0.0 == -1.0) ? 609 : 609): case ((-0.0 == -0.0) ? 610 : 610): case ((-0.0 == 0.0) ? 611 : 611): case ((-0.0 == 1.0) ? 612 : 612): case ((-0.0 == Double.MAX_VALUE) ? 613 : 613): case ((-0.0 == Double.POSITIVE_INFINITY) ? 614 : 614): case ((-0.0 == Double.NaN) ? 615 : 615): case ((0.0 == Double.NEGATIVE_INFINITY) ? 616 : 616): case ((0.0 == -1.0) ? 617 : 617): case ((0.0 == -0.0) ? 618 : 618): case ((0.0 == 0.0) ? 619 : 619): case ((0.0 == 1.0) ? 620 : 620): case ((0.0 == Double.MAX_VALUE) ? 621 : 621): case ((0.0 == Double.POSITIVE_INFINITY) ? 622 : 622): case ((0.0 == Double.NaN) ? 623 : 623): case ((1.0 == Double.NEGATIVE_INFINITY) ? 624 : 624): case ((1.0 == -1.0) ? 625 : 625): case ((1.0 == -0.0) ? 626 : 626): case ((1.0 == 0.0) ? 627 : 627): case ((1.0 == 1.0) ? 628 : 628): case ((1.0 == Double.MAX_VALUE) ? 629 : 629): case ((1.0 == Double.POSITIVE_INFINITY) ? 630 : 630): case ((1.0 == Double.NaN) ? 631 : 631): case ((Double.MAX_VALUE == Double.NEGATIVE_INFINITY) ? 632 : 632): case ((Double.MAX_VALUE == -1.0) ? 633 : 633): case ((Double.MAX_VALUE == -0.0) ? 634 : 634): case ((Double.MAX_VALUE == 0.0) ? 635 : 635): case ((Double.MAX_VALUE == 1.0) ? 636 : 636): case ((Double.MAX_VALUE == Double.MAX_VALUE) ? 637 : 637): case ((Double.MAX_VALUE == Double.POSITIVE_INFINITY) ? 638 : 638): case ((Double.MAX_VALUE == Double.NaN) ? 639 : 639): case ((Double.POSITIVE_INFINITY == Double.NEGATIVE_INFINITY) ? 640 : 640): case ((Double.POSITIVE_INFINITY == -1.0) ? 641 : 641): case ((Double.POSITIVE_INFINITY == -0.0) ? 642 : 642): case ((Double.POSITIVE_INFINITY == 0.0) ? 643 : 643): case ((Double.POSITIVE_INFINITY == 1.0) ? 644 : 644): case ((Double.POSITIVE_INFINITY == Double.MAX_VALUE) ? 645 : 645): case ((Double.POSITIVE_INFINITY == Double.POSITIVE_INFINITY) ? 646 : 646): case ((Double.POSITIVE_INFINITY == Double.NaN) ? 647 : 647): case ((Double.NaN == Double.NEGATIVE_INFINITY) ? 648 : 648): case ((Double.NaN == -1.0) ? 649 : 649): case ((Double.NaN == -0.0) ? 650 : 650): case ((Double.NaN == 0.0) ? 651 : 651): case ((Double.NaN == 1.0) ? 652 : 652): case ((Double.NaN == Double.MAX_VALUE) ? 653 : 653): case ((Double.NaN == Double.POSITIVE_INFINITY) ? 654 : 654): case ((Double.NaN == Double.NaN) ? 655 : 655): case ((Double.NEGATIVE_INFINITY != Double.NEGATIVE_INFINITY) ? 656 : 656): case ((Double.NEGATIVE_INFINITY != -1.0) ? 657 : 657): case ((Double.NEGATIVE_INFINITY != -0.0) ? 658 : 658): case ((Double.NEGATIVE_INFINITY != 0.0) ? 659 : 659): case ((Double.NEGATIVE_INFINITY != 1.0) ? 660 : 660): case ((Double.NEGATIVE_INFINITY != Double.MAX_VALUE) ? 661 : 661): case ((Double.NEGATIVE_INFINITY != Double.POSITIVE_INFINITY) ? 662 : 662): case ((Double.NEGATIVE_INFINITY != Double.NaN) ? 663 : 663): case ((-1.0 != Double.NEGATIVE_INFINITY) ? 664 : 664): case ((-1.0 != -1.0) ? 665 : 665): case ((-1.0 != -0.0) ? 666 : 666): case ((-1.0 != 0.0) ? 667 : 667): case ((-1.0 != 1.0) ? 668 : 668): case ((-1.0 != Double.MAX_VALUE) ? 669 : 669): case ((-1.0 != Double.POSITIVE_INFINITY) ? 670 : 670): case ((-1.0 != Double.NaN) ? 671 : 671): case ((-0.0 != Double.NEGATIVE_INFINITY) ? 672 : 672): case ((-0.0 != -1.0) ? 673 : 673): case ((-0.0 != -0.0) ? 674 : 674): case ((-0.0 != 0.0) ? 675 : 675): case ((-0.0 != 1.0) ? 676 : 676): case ((-0.0 != Double.MAX_VALUE) ? 677 : 677): case ((-0.0 != Double.POSITIVE_INFINITY) ? 678 : 678): case ((-0.0 != Double.NaN) ? 679 : 679): case ((0.0 != Double.NEGATIVE_INFINITY) ? 680 : 680): case ((0.0 != -1.0) ? 681 : 681): case ((0.0 != -0.0) ? 682 : 682): case ((0.0 != 0.0) ? 683 : 683): case ((0.0 != 1.0) ? 684 : 684): case ((0.0 != Double.MAX_VALUE) ? 685 : 685): case ((0.0 != Double.POSITIVE_INFINITY) ? 686 : 686): case ((0.0 != Double.NaN) ? 687 : 687): case ((1.0 != Double.NEGATIVE_INFINITY) ? 688 : 688): case ((1.0 != -1.0) ? 689 : 689): case ((1.0 != -0.0) ? 690 : 690): case ((1.0 != 0.0) ? 691 : 691): case ((1.0 != 1.0) ? 692 : 692): case ((1.0 != Double.MAX_VALUE) ? 693 : 693): case ((1.0 != Double.POSITIVE_INFINITY) ? 694 : 694): case ((1.0 != Double.NaN) ? 695 : 695): case ((Double.MAX_VALUE != Double.NEGATIVE_INFINITY) ? 696 : 696): case ((Double.MAX_VALUE != -1.0) ? 697 : 697): case ((Double.MAX_VALUE != -0.0) ? 698 : 698): case ((Double.MAX_VALUE != 0.0) ? 699 : 699): case ((Double.MAX_VALUE != 1.0) ? 700 : 700): case ((Double.MAX_VALUE != Double.MAX_VALUE) ? 701 : 701): case ((Double.MAX_VALUE != Double.POSITIVE_INFINITY) ? 702 : 702): case ((Double.MAX_VALUE != Double.NaN) ? 703 : 703): case ((Double.POSITIVE_INFINITY != Double.NEGATIVE_INFINITY) ? 704 : 704): case ((Double.POSITIVE_INFINITY != -1.0) ? 705 : 705): case ((Double.POSITIVE_INFINITY != -0.0) ? 706 : 706): case ((Double.POSITIVE_INFINITY != 0.0) ? 707 : 707): case ((Double.POSITIVE_INFINITY != 1.0) ? 708 : 708): case ((Double.POSITIVE_INFINITY != Double.MAX_VALUE) ? 709 : 709): case ((Double.POSITIVE_INFINITY != Double.POSITIVE_INFINITY) ? 710 : 710): case ((Double.POSITIVE_INFINITY != Double.NaN) ? 711 : 711): case ((Double.NaN != Double.NEGATIVE_INFINITY) ? 712 : 712): case ((Double.NaN != -1.0) ? 713 : 713): case ((Double.NaN != -0.0) ? 714 : 714): case ((Double.NaN != 0.0) ? 715 : 715): case ((Double.NaN != 1.0) ? 716 : 716): case ((Double.NaN != Double.MAX_VALUE) ? 717 : 717): case ((Double.NaN != Double.POSITIVE_INFINITY) ? 718 : 718): case ((Double.NaN != Double.NaN) ? 719 : 719): default: } } // -------- // boolean tests static boolean booleanLogNot(boolean x) { return ! x; } static boolean booleanEq(boolean x, boolean y) { return x == y; } static boolean booleanNe(boolean x, boolean y) { return x != y; } static boolean booleanAnd(boolean x, boolean y) { return (boolean) (x & y); } static boolean booleanXor(boolean x, boolean y) { return (boolean) (x ^ y); } static boolean booleanOr(boolean x, boolean y) { return (boolean) (x | y); } static void booleanTest() { Tester.checkEqual(booleanLogNot(true), ! true, "! true"); Tester.checkEqual(booleanLogNot(false), ! false, "! false"); Tester.checkEqual(booleanEq(true, true), true == true, "true == true"); Tester.checkEqual(booleanEq(true, false), true == false, "true == false"); Tester.checkEqual(booleanEq(false, true), false == true, "false == true"); Tester.checkEqual(booleanEq(false, false), false == false, "false == false"); Tester.checkEqual(booleanNe(true, true), true != true, "true != true"); Tester.checkEqual(booleanNe(true, false), true != false, "true != false"); Tester.checkEqual(booleanNe(false, true), false != true, "false != true"); Tester.checkEqual(booleanNe(false, false), false != false, "false != false"); Tester.checkEqual(booleanAnd(true, true), (boolean) (true & true), "(boolean) (true & true)"); Tester.checkEqual(booleanAnd(true, false), (boolean) (true & false), "(boolean) (true & false)"); Tester.checkEqual(booleanAnd(false, true), (boolean) (false & true), "(boolean) (false & true)"); Tester.checkEqual(booleanAnd(false, false), (boolean) (false & false), "(boolean) (false & false)"); Tester.checkEqual(booleanXor(true, true), (boolean) (true ^ true), "(boolean) (true ^ true)"); Tester.checkEqual(booleanXor(true, false), (boolean) (true ^ false), "(boolean) (true ^ false)"); Tester.checkEqual(booleanXor(false, true), (boolean) (false ^ true), "(boolean) (false ^ true)"); Tester.checkEqual(booleanXor(false, false), (boolean) (false ^ false), "(boolean) (false ^ false)"); Tester.checkEqual(booleanOr(true, true), (boolean) (true | true), "(boolean) (true | true)"); Tester.checkEqual(booleanOr(true, false), (boolean) (true | false), "(boolean) (true | false)"); Tester.checkEqual(booleanOr(false, true), (boolean) (false | true), "(boolean) (false | true)"); Tester.checkEqual(booleanOr(false, false), (boolean) (false | false), "(boolean) (false | false)"); } static void booleanSwitch() { switch(0) { case ((! true) ? 0 : 0): case ((! false) ? 1 : 1): case ((true == true) ? 2 : 2): case ((true == false) ? 3 : 3): case ((false == true) ? 4 : 4): case ((false == false) ? 5 : 5): case ((true != true) ? 6 : 6): case ((true != false) ? 7 : 7): case ((false != true) ? 8 : 8): case ((false != false) ? 9 : 9): case ((((boolean) (true & true)) == true) ? 10 : 10): case ((((boolean) (true & false)) == true) ? 11 : 11): case ((((boolean) (false & true)) == true) ? 12 : 12): case ((((boolean) (false & false)) == true) ? 13 : 13): case ((((boolean) (true ^ true)) == true) ? 14 : 14): case ((((boolean) (true ^ false)) == true) ? 15 : 15): case ((((boolean) (false ^ true)) == true) ? 16 : 16): case ((((boolean) (false ^ false)) == true) ? 17 : 17): case ((((boolean) (true | true)) == true) ? 18 : 18): case ((((boolean) (true | false)) == true) ? 19 : 19): case ((((boolean) (false | true)) == true) ? 20 : 20): case ((((boolean) (false | false)) == true) ? 21 : 21): default: } } } /* (define table '((byte ("Byte.MIN_VALUE" "(byte) -1" "(byte) 0" "(byte) 1" "Byte.MAX_VALUE") ("+" "-" "~") ("*" "/" "%" "+" "-" "<<" ">>" ">>>" "<" ">" "<=" ">=" "==" "!=" "&" "^" "|")) (short ("Short.MIN_VALUE" "(short) -1" "(short) 0" "(short) 1" "Short.MAX_VALUE") ("+" "-" "~") ("*" "/" "%" "+" "-" "<<" ">>" ">>>" "<" ">" "<=" ">=" "==" "!=" "&" "^" "|")) (char ("(char) 0" "(char) 1" "Character.MAX_VALUE") ("+" "-" "~") ("*" "/" "%" "+" "-" "<<" ">>" ">>>" "<" ">" "<=" ">=" "==" "!=" "&" "^" "|")) (int ("Integer.MIN_VALUE" "-1" "0" "1" "Integer.MAX_VALUE") ("+" "-" "~") ("*" "/" "%" "+" "-" "<<" ">>" ">>>" "<" ">" "<=" ">=" "==" "!=" "&" "^" "|")) (long ("Long.MIN_VALUE" "-1L" "0L" "1L" "Long.MAX_VALUE") ("+" "-" "~") ("*" "/" "%" "+" "-" "<<" ">>" ">>>" "<" ">" "<=" ">=" "==" "!=" "&" "^" "|")) (float ("Float.NEGATIVE_INFINITY" "-1.0f" "-0.0f" "0.0f" "Float.MIN_VALUE" "1.0f" "Float.MAX_VALUE" "Float.POSITIVE_INFINITY" "Float.NaN") ("+" "-") ("*" "/" "%" "+" "-" "<" ">" "<=" ">=" "==" "!=")) (double ("Double.NEGATIVE_INFINITY" "-1.0" "-0.0" "0.0" ;; "Double.MIN_VALUE" NOT CORRECT IN 1.3 "1.0" "Double.MAX_VALUE" "Double.POSITIVE_INFINITY" "Double.NaN") ("+" "-") ("*" "/" "%" "+" "-" "<" ">" "<=" ">=" "==" "!=")) (boolean (true false) ("!") ("==" "!=" "&" "^" "|")))) (define booleanOps '("<" ">" "<=" ">=" "==" "!=" "!")) (define divisionOps '("/" "%")) (define zeroes '("(byte) 0" "(char) 0" "(short) 0" "0" "0L")) (define unames '(("+" "Plus") ("-" "Minus") ("~" "BitNot") ("!" "LogNot"))) (define binames '(("*" "Times") ("/" "Div") ("%" "Rem") ("+" "Add") ("-" "Sub") ("<<" "Shl") (">>" "Shr") (">>>" "Ushr") ("<" "Lt") (">" "Gt") ("<=" "Le") (">=" "Ge") ("==" "Eq") ("!=" "Ne") ("&" "And") ("^" "Xor") ("|" "Or"))) (define gen (lambda () (printf "import org.aspectj.testing.Tester;~n~n") (printf "public strictfp class BigOps {~n") (printf " public static void main(String[] args) {~n") (for-each (lambda (elem) (display (format " ~aTest();~n" (car elem)))) table) (printf " }~n") (display (apply string-append (map tyGen table))) (printf "}~n"))) ;; elems == ((exprfun callfun op args) ...) (define tyGen (lambda (ls) (let ((type (car ls)) (vals (cadr ls)) (unops (caddr ls)) (binops (cadddr ls))) (let* ((elems (filterElems (make-elems vals unops binops))) (uvals vals) (ufuns (map (lambda (op) (genUnopFun type op)) unops)) (bifuns (map (lambda (op) (genBinopFun type op)) binops))) (string-append (format "~n // --------~n") (format " // ~a tests~n" type) (apply string-append ufuns) (apply string-append bifuns) (genTester type elems) (genSwitch type elems)))))) (define filterElems (lambda (ls) (let f ((ls ls)) (if (null? ls) '() (apply (lambda (exprfun callfun op args) (if (and (member op divisionOps) (member (cadr args) zeroes)) (f (cdr ls)) (cons (car ls) (f (cdr ls))))) (car ls)))))) (define make-elems (lambda (vals unops binops) (append (map (lambda (x) (cons genUnopExpr (cons genUnopCall x))) (cross unops (map list vals))) (map (lambda (x) (cons genBinopExpr (cons genBinopCall x))) (cross binops (cross vals vals)))))) (define genTester (lambda (type ls) (string-append (format " static void ~aTest() {~n" type) (apply string-append (map (lambda (ls) (apply (lambda (exprfun callfun op args) (apply callfun type op args)) ls)) ls)) (format " }~n")))) (define genSwitch (lambda (type ls) (string-append (format " static void ~aSwitch() {~n switch(0) {~n" type) (apply string-append (map (lambda (elem num) (apply genCase type num elem)) ls (iota ls))) (format " default:~n }~n }~n")))) (define genCase (lambda (type num exprfun callfun op args) (if (member op booleanOps) (format " case ((~a) ? ~a : ~a):~n" (apply exprfun type op args) num num) (format " case (((~a) == ~a) ? ~a : ~a):~n" (apply exprfun type op args) (if (eq? type 'boolean) 'true "0") num num)))) (define genUnopExpr (lambda (type op val0) (if (member op booleanOps) (format "~a ~a" op val0) (format "(~a) ~a ~a" type op val0)))) (define genUnopFun (lambda (type op) (format " static ~a ~a~a(~a x) { return ~a; }~n" (if (member op booleanOps) "boolean" type) type (cadr (assoc op unames)) type (genUnopExpr type op "x")))) (define genUnopCall (lambda (type op val) (format " Tester.checkEqual(~a~a(~a), ~a, \"~a\");~n" type (cadr (assoc op unames)) val (genUnopExpr type op val) (genUnopExpr type op val)))) (define genBinopExpr (lambda (type op val0 val1) (if (member op booleanOps) (format "~a ~a ~a" val0 op val1) (format "(~a) (~a ~a ~a)" type val0 op val1)))) (define genBinopFun (lambda (type op) (format " static ~a ~a~a(~a x, ~a y) { return ~a; }~n" (if (member op booleanOps) "boolean" type) type (cadr (assoc op binames)) type type (genBinopExpr type op "x" "y")))) (define genBinopCall (lambda (type op val0 val1) (format " Tester.checkEqual(~a~a(~a, ~a), ~a, \"~a\");~n" type (cadr (assoc op binames)) val0 val1 (genBinopExpr type op val0 val1) (genBinopExpr type op val0 val1)))) (define cross2 (lambda (a b c) (map (lambda (x) (cons (car x ) (cadr x))) (cross a (cross b c))))) (define cross (lambda (a b) (apply append (map (lambda (x) (map (lambda (y) (list x y)) b)) a)))) (define iota (lambda (ls) (let f ((ls ls) (i 0)) (if (null? ls) '() (cons i (f (cdr ls) (+ i 1))))))) */