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gecko-dev/ef/Quality/UserTests/TinyClass.java

1913 строки
54 KiB
Java
Исходник Ответственный История

import java.io.PrintStream;
// import java.lang.Exception;
final class MyException extends Exception
{
String tag;
public MyException(String inString)
{
tag = inString;
}
public String toString()
{
return tag;
}
public int intValue()
{
return Integer.parseInt(tag);
}
}
//----------------------------------------------------------
// For JCKaastore01003
class Subclss1_of_Object extends Object
{
public int cc1;
}
class Subclss2_of_Object extends Subclss1_of_Object
{
public int cc2;
}
//----------------------------------------------------------
// For JCKaastore01102
interface SomeInterface1 {
int SEVENS = 777;
void printFields(PrintStream out);
}
class SomeClass1 implements SomeInterface1 {
int i;
public void printFields(PrintStream out) {
out.print("i = ");
out.println(i);
}
SomeClass1(int i) {
this.i = i;
}
}
interface AnotherInterface1 {
int THIRDS = 33;
void printFields(PrintStream out);
}
class AnotherClass1 implements AnotherInterface1 {
int i;
public void printFields(PrintStream out) {
out.print("i = ");
out.println(i);
}
AnotherClass1(int i) {
this.i = i;
}
}
//----------------------------------------------------------
// For JCKaastore01401
interface SomeInterface2 {
int SEVENS = 777;
}
interface Subinterface2 extends SomeInterface2 {
int THIRDS = 33;
}
class SomeClass2 implements Subinterface2 {
int i;
SomeClass2(int i) {
this.i = i;
}
}
class ImmediateSubclass2 extends SomeClass2 implements SomeInterface2 {
float f;
ImmediateSubclass2(int i, float f) {
super(i);
this.f = f;
}
}
final class FinalSubclass2 extends ImmediateSubclass2 {
double d;
FinalSubclass2(int i, float f, double d) {
super(i, f);
this.d = d;
}
}
//----------------------------------------------------------
// Very Simple tests that must pass before many serious tests will pass
public class TinyClass
{
/*
public static long longAdd(long a, long b)
{
return a + b;
}
public static long longAdd4(long a, long b, long c, long d)
{
return a + b + c + d;
}
public static int mulTest(int a, int b, int c, int d, int e, int f, int g, int h)
{
int aa = a * b;
int cc = c * d;
int ee = e * f;
int gg = g * h;
return a + b + c + d + e + f + g + h + aa + cc + ee + gg;
}
*/
//----------------------------------------------------------
// Switch Test
public static int switchTest(int a)
{
int c = 0;
switch(a)
{
case 2: c = 1; break;
case 6: c = 13; break;
case 1: c = 1; break;
case 3: c = 3; break;
case 7: c = 21; break;
case 4: c = 5; break;
case 5: c = 8; break;
case 8: c = 34; break;
default: c = 55;
}
return c;
}
public static boolean switchTestAll()
{
boolean result = (
(switchTest(2) == 1) &&
(switchTest(6) == 13) &&
(switchTest(1) == 1) &&
(switchTest(3) == 3) &&
(switchTest(7) == 21) &&
(switchTest(4) == 5) &&
(switchTest(5) == 8) &&
(switchTest(8) == 34) &&
(switchTest(55) == 55) );
report(result, "switchTestAll");
return result;
}
public static long switchLong(int a)
{
long result = 0;
switch(a)
{
case 0xcafebabe: result = 0x1234567812345678L; break;
case 0x01234567: result = 0xdeaddeaddeaddeadL; break;
case 0x11111111: result = 0xffffffffffffffffL; break;
default: result = 0xdeadc0dedeadc0deL;
}
return result;
}
public static boolean switchLongHarness()
{
long t1 = switchLong(0xcafebabe);
long t2 = switchLong(0x01234567);
long t3 = switchLong(0x11111111);
long t4 = switchLong(0xffffffff);
boolean r1 = t1 == 0x1234567812345678L; // find out real values
boolean r2 = t2 == 0xdeaddeaddeaddeadL;
boolean r3 = t3 == 0xffffffffffffffffL;
boolean r4 = t4 == 0xdeadc0dedeadc0deL;
report(r1, "switchLong1");
report(r2, "switchLong2");
report(r3, "switchLong3");
report(r4, "switchLong4");
return(r1 && r2 && r3 && r4);
}
public static boolean switchTestNeg()
{
boolean result = (
(switchTest( 0) == 55) &&
(switchTest(-1) == 55) &&
(switchTest(0xcafebabe) == 55));
report(result, "switchTestNeg");
return result;
}
public static void switchTestHarness()
{
switchTestAll();
switchTestNeg();
switchLongHarness();
}
//----------------------------------------------------------
// Seive Test
public static void Sieve(int[] an)
{
int k1 = 1;
int i2 = 0;
int j2 = 0;
j2++;
an[0] = 1;
an[1] = 2;
k1 = 2;
int length = an.length;
for (int i1 = 3; k1 < length; i1++)
{
boolean flag1;
i2 = 1;
for (flag1 = true; i2 < k1 && flag1; i2++)
if (an[i2] > 0 && an[i2] <= i1 / 2 && i1 % an[i2] == 0)
flag1 = false;
if (flag1)
{
k1++;
an[k1 - 1] = i1;
}
}
}
public static boolean sieveHarness()
{
int a[] = new int[20];
Sieve(a);
boolean result = false;
if( a[ 0]==1 && a[ 1]==2 && a[ 2]==3 && a[ 3]==5 && a[ 4]==7 &&
a[ 5]==11 && a[ 6]==13 && a[ 7]==17 && a[ 8]==19 && a[ 9]==23 &&
a[10]==29 && a[11]==31 && a[12]==37 && a[13]==41 && a[14]==43 &&
a[15]==47 && a[16]==53 && a[17]==59 && a[18]==61 && a[19]==67 )
{
result = true;
}
else
{
for(int i = 0; i < 20; i++)
System.out.println(a[i]);
}
report(result, "sieveTest");
return result;
}
//----------------------------------------------------------
// Instance Test
public static boolean isStringObject(Object p)
{
return (p instanceof String);
}
public static boolean instanceTestHarness()
{
int[] i = new int[5];
String s = new String("test");
boolean result = (isStringObject(s) && !isStringObject(i));
report(result, "instanceTest");
return result;
}
//----------------------------------------------------------
// ArgumentOrdering Test
// sinple test to ensure that arguments are being passed in in the correct order
public static boolean orderTest(int a, int b, int c, int d)
{
return(a < b && b < c && c < d);
}
public static boolean orderTestHarness()
{
boolean result = orderTest(12, 45, 78, 128);
report(result, "orderTest");
return result;
}
//----------------------------------------------------------
// Aritmetic Tests
public static int negTest(int a, int b)
{
int bb = -a;
int cc = -b;
int c = 0;
switch(a)
{
case 0:
c += bb;
case 1:
c += cc;
case 2:
c += a;
default:
c += b;
}
return c;
}
public static boolean negTestHarness()
{
int a = 1;
int b = 20;
int intResult = negTest(a, b);
// bb = -1
// cc = -20
// c= 0 + -20
// c+= 1
// c+= 20
// c should == 1
boolean result = (intResult == 1);
report(result, "negTestHarness");
return result;
}
//----------------------------------------------------------
// Long Multiply
public static long longMult(int temp, long a, long b, int temp2)
{
return a * b;
}
public static void testMulHarness()
{
long mulResult = longMult(0xaa, 0x0dadbabeL, 0x10000L, 0xbb);
report(mulResult == 0x00000dadbabe0000L, "Long Multiply");
}
//----------------------------------------------------------
// Integer Subtraction
public static int subTest(int a, int b)
{
return a - b;
}
public static void subTestHarness()
{
report( 10 == subTest(56, 46), "subTest1");
report(111 == subTest(222, 111), "subTest2");
report(-10 == subTest(12, 22), "subTest3");
report(993 == subTest(1000, 7), "subTest4");
}
//----------------------------------------------------------
// Integer Comparisons
public static int cmpTestSigned(int a, int b)
{
if(a < b)
return -1;
if(a == b)
return 0;
else
return 1;
}
public static void cmpTestsIntegers()
{
report( 1 == cmpTestSigned(34, 23), "cmpTestsIntegers1");
report(-1 == cmpTestSigned(0x55, 0x77), "cmpTestsIntegers2");
report(-1 == cmpTestSigned(-5, 7), "cmpTestsIntegers3");
report( 0 == cmpTestSigned(1234, 1234), "cmpTestsIntegers4");
}
public static int cmpTestArray(int[] a, int b, int c)
{
int result = -99;
try
{
if(a[b] < a[c])
result = -1;
else if(a[b] == a[c])
result = 0;
else
result = 1;
}
catch (ArrayIndexOutOfBoundsException ex)
{
System.out.println("ArrayIndexOutOfBoundsException caught in cmpTestArray");
}
return result;
}
public static void cmpTestArrayHarness()
{
int[] a = new int[4];
try
{
a[0] = 12;
a[1] = 44;
a[2] = 33;
a[3] = 33;
}
catch (ArrayIndexOutOfBoundsException ex)
{
System.out.println("ArrayIndexOutOfBoundsException caught in cmpTestArrayHarness pt 1");
}
try
{
report( 1 == cmpTestArray(a, 1, 0), "cmpTestArray1");
report( 0 == cmpTestArray(a, 2, 3), "cmpTestArray2");
report(-1 == cmpTestArray(a, 0, 3), "cmpTestArray3");
report( 1 == cmpTestArray(a, 1, 3), "cmpTestArray4");
}
catch (ArrayIndexOutOfBoundsException ex)
{
System.out.println("ArrayIndexOutOfBoundsException caught in cmpTestArrayHarness pt 2");
}
}
public static void cmpTestHarness()
{
cmpTestsIntegers();
cmpTestArrayHarness();
}
//----------------------------------------------------------
// Test Integer Divides
public static int divTest(int a, int b)
{
return a/b;
}
public static int modTest(int a, int b)
{
return a%b;
}
public static boolean divTestHarness(boolean debug)
{
boolean t1 = (divTest(12, 3) == 4);
boolean t2 = (divTest(12, 12) == 1);
boolean t3 = (divTest(12, -1) == -12);
boolean t4 = (divTest(110, 10) == 11);
if(debug)
{
report(t1, "div 12/3");
report(t2, "div 12/12");
report(t3, "div 12/-1");
report(t4, "div 110/10");
}
boolean result = (t1 && t2 && t3 && t4);
report(result, "divTestHarness");
return result;
}
public static boolean modTestHarness(boolean debug)
{
boolean t1 = (modTest(12, 5) == 2);
boolean t2 = (modTest(12, 12) == 0);
boolean t3 = (modTest(12, 14) == 12);
boolean t4 = (modTest(10, 3) == 1);
if(debug)
{
report(t1, "mod1");
report(t2, "mod2");
report(t3, "mod3");
report(t4, "mod4");
}
boolean result = (t1 && t2 && t3 && t4);
report(result, "modTestHarness");
return result;
}
public static boolean divModTest(int a, int b, boolean debug)
{
int quotient = divTest(a, b);
int remainder = modTest(a, b);
int original = (b * quotient) + remainder;
boolean result = (a == original);
if(debug)
{
String s = "divModTest " + a + "/" + b;
if(!result)
s += " q=" + quotient + " r=" + remainder + " o=" + original;
report(result, s);
}
return result;
}
public static int divModSumTestHarness()
{
boolean verbose = true;
int count = 0;
if(divModTest(123, 5, verbose))
count++;
if(divModTest(45, 12, verbose))
count++;
if(divModTest(13, 14, verbose))
count++;
if(divModTest(0, 3, verbose))
count++;
report(count == 4, "divModSumTestHarness");
return count;
}
public static int divModTestHarness()
{
int count = 0;
if(divTestHarness(true))
count++;
if(modTestHarness(true))
count++;
if(divModSumTestHarness() == 4)
count++;
report(count == 3, "divModTestHarness");
return count;
}
//----------------------------------------------------------
// Test Long Comparisons
public static boolean cmpLongLessThan(long a, long b) { return (a < b); }
public static boolean cmpLongEqual(long a, long b) { return (a == b); }
public static boolean cmpLongGreaterThan(long a, long b) { return (a > b); }
public static boolean cmpLongGreaterThanEqual(long a, long b) { return (a >= b); }
public static boolean cmpLongLessThanEqual(long a, long b) { return (a <= b); }
public static boolean cmpLongNotEqual(long a, long b) { return (a != b); }
public static int cmpLongTestHarnessHelper(long a, long b, boolean debug)
{
if(debug)
{
System.out.println("\n_______________________________________\nComparing " + a + " and " + b);
}
boolean lt = cmpLongLessThan(a, b);
boolean eq = cmpLongEqual(a, b);
boolean gt = cmpLongGreaterThan(a, b);
boolean geq = cmpLongGreaterThanEqual(a, b);
boolean leq = cmpLongLessThanEqual(a, b);
boolean neq = cmpLongNotEqual(a, b);
if(debug)
{
System.out.print(lt ? "lt:true " : "lt:false ");
System.out.print(eq ? "eq:true " : "eq:false ");
System.out.print(gt ? "gt:true " : "gt:false ");
System.out.print(geq ? "geq:true " : "geq:false ");
System.out.print(leq ? "leq:true " : "leq:false ");
System.out.println(neq ? "neq:true " : "neq:false ");
}
int count = 0;
int returnValue = -255;
if(lt)
{
if(debug) System.out.print(" <, ");
returnValue = -1;
count++;
}
if(eq)
{
if(debug) System.out.print(" ==, ");
returnValue = 0;
count++;
}
if(gt)
{
if(debug) System.out.print(" >, ");
returnValue = 1;
count++;
}
try
{
if(count != 1)
{
throw new MyException("cmpLongTest failed: mutual exclusion failure 1");
}
if(eq && neq) throw new MyException("cmpLongTest failed: mutual exclusion failure 2");
if(lt && geq) throw new MyException("cmpLongTest failed: mutual exclusion failure 3");
if(gt && leq) throw new MyException("cmpLongTest failed: mutual exclusion failure 4");
if(geq && leq && neq) throw new MyException("cmpLongTest failed: mutual exclusion failure 5");
}
catch (MyException ex)
{
System.out.println(ex.toString());
}
return returnValue;
}
public static void cmpLongTestHarness()
{
report( 1 == cmpLongTestHarnessHelper(34, 23, false), "Long Comparison Test: 34 > 23");
report( 1 == cmpLongTestHarnessHelper(34, 23, false), "Long Comparison Test: 34 > 23");
report(-1 == cmpLongTestHarnessHelper(0x55, 0x77, false), "Long Comparison Test: 0x55 < 0x77");
report( 0 == cmpLongTestHarnessHelper(98, 98, false), "Long Comparison Test: 98 == 98");
report( 1 == cmpLongTestHarnessHelper(1234, 6, false), "Long Comparison Test: 1234 > 6");
report(-1 == cmpLongTestHarnessHelper(0x1234567812345678L, 0x2345678923456789L, false), "Long Comparison Test: a < b");
report( 0 == cmpLongTestHarnessHelper(0x1234567812345678L, 0x1234567812345678L, false), "Long Comparison Test: a == b");
report( 1 == cmpLongTestHarnessHelper(0x2345678923456789L, 0x1234567812345678L, false), "Long Comparison Test: a > b ");
}
public static void cmpLongSimple()
{
report(cmpLongLessThan(500, 1000), "cmpLongSimple");
}
//----------------------------------------------------------
// Test Int Comparisons
public static boolean cmpIntLessThan(int a, int b)
{
return (a < b);
}
public static void cmpIntSimple()
{
report(cmpIntLessThan(500, 1000), "cmpIntSimple");
}
//----------------------------------------------------------
// Test Long Shifts
public static long shiftLong(long a, int b)
{
return (a << b) + (a >> b) + (a >>> b);
}
public static void shlLongHarness()
{
long t1 = shiftLong(0x00000000cafebabeL, 0);
long t2 = shiftLong(0xcafebabe00000000L, 16);
long t3 = shiftLong(0x1234567812345678L, 32);
long t4 = shiftLong(0x00000000deadbeefL, 64);
boolean r1 = t1 == 0; // find out real values
boolean r2 = t2 == 0;
boolean r3 = t3 == 0;
boolean r4 = t4 == 0;
/*
report(r1, "shiftLong1");
report(r2, "shiftLong2");
report(r3, "shiftLong3");
report(r4, "shiftLong4");
*/
}
public static long convertToLongTest(int in)
{
return (long)in;
}
public static void convertToLongHarness()
{
boolean r1 = convertToLongTest(12) == 12L;
boolean r2 = convertToLongTest(0xcafebabe) == 0xffffffffcafebabeL;
boolean r3 = convertToLongTest(0xdeadbeef) == 0xffffffffdeadbeefL;
boolean r4 = convertToLongTest(-1) == 0xffffffffffffffffL;
report(r1, "convertToLong1");
report(r2, "convertToLong2");
report(r3, "convertToLong3");
report(r4, "convertToLong4");
}
public static int convertToIntTest(long in, long in2)
{
return (int)in + (int)in2;
}
public static void convertToIntHarness()
{
int t1 = convertToIntTest(14L, 20L);
int t2 = convertToIntTest(0x9999999966666666, 0x6666666699999999L);
int t3 = convertToIntTest(-1L, -2L);
int t4 = convertToIntTest(200L, 100L);
boolean r1 = t1 == 34;
boolean r2 = t2 == -1;
boolean r3 = t3 == -3;
boolean r4 = t4 == 300;
report(r1, "convertToIntTest1");
if(!r1) System.out.println("int1 = " + t1);
report(r2, "convertToIntTest2");
if(!r2) System.out.println("int2 = " + t2);
report(r3, "convertToIntTest3");
if(!r3) System.out.println("int3 = " + t3);
report(r4, "convertToIntTest4");
if(!r4) System.out.println("int3 = " + t4);
}
public static void convertHarness()
{
convertToLongHarness();
convertToIntHarness();
boolean r1 = convertToIntTest(convertToLongTest(5), convertToLongTest(10)) == 15;
report(r1, "convertHarness");
}
//----------------------------------------------------------
// Nested Exception Test
private static void throwIf0(int a) throws MyException { if(a == 0) throw new MyException("0"); }
private static void throwIf1(int a) throws MyException { if(a == 1) throw new MyException("1"); }
private static void throwIf2(int a) throws MyException { if(a == 2) throw new MyException("2"); }
private static void throwIf3(int a) throws MyException { if(a == 3) throw new MyException("3"); }
private static void throwIf4(int a) throws MyException { if(a == 4) throw new MyException("4"); }
private static void throwIf5(int a) throws MyException { if(a == 5) throw new MyException("5"); }
private static void throwIf6(int a) throws MyException { if(a == 6) throw new MyException("6"); }
private static void throwIf7(int a) throws MyException { if(a == 7) throw new MyException("7"); }
public static void primeThrows()
{
try{
throwIf0(-1); throwIf1(-1); throwIf2(-1); throwIf3(-1);
throwIf4(-1); throwIf5(-1); throwIf6(-1); throwIf7(-1);
}
catch (MyException ex)
{
System.out.println("Serious error--primeThrows");
}
}
// should return exactly 1 if 0 <= a <=7
private static int nestedTryTest(int a)
{
int result = 0;
try {
try {
throwIf6(a);
try {
try {
throwIf3(a);
try { throwIf0(a); } catch (MyException ex) { result+= ex.intValue(); } // 0
try { throwIf1(a); } catch (MyException ex) { result+= ex.intValue(); } // 1
} catch (MyException ex) { result+= ex.intValue(); } // 3
throwIf4(a);
try {
throwIf5(a);
try { throwIf2(a); } catch (MyException ex) { result+= ex.intValue(); } // 2
} catch (MyException ex) { result+= ex.intValue(); } // 5
} catch (MyException ex) { result+= ex.intValue(); } // 4
} catch (MyException ex) { result+= ex.intValue(); } // 6
throwIf7(a);
} catch (MyException ex) { result+= ex.intValue(); } // 7
return result;
}
public static void nestedTryTester()
{
primeThrows();
if (false)
{
report(nestedTryTest(6) == 6, "nestedTry" + 6);
}
else
{
for(int i = 0; i < 8; i++)
{
int result = nestedTryTest(i);
report(result == i, "nestedTry" + i);
if(result != i)
System.out.println("result = " + result);
}
report(nestedTryTest(-1) == 0, "nestedTry" + -1);
report(nestedTryTest(10) == 0, "nestedTry" + 10);
}
}
//----------------------------------------------------------
// Exception Test
// Simple Throw and Catch in same method
public static int goo(int i)
throws MyException
{
try
{
if(i == 23)
throw new MyException("I am an exception!");
}
catch (ArithmeticException ex)
{
System.out.println("\n*** SHIT! I shouldn't be here!");
}
return i + 47;
}
public static int bar(int i)
throws MyException
{
int p = i - 2 + goo(i);
return p;
}
public static int foo(int i)
throws MyException
{
int q = i + 37 - bar(i);
return q;
}
public static boolean excTestSingleLocalThrowLocalCatch()
{
boolean result = false;
try
{
throw new MyException("thrown exception");
}
catch (MyException ex)
{
result = true;
}
return result;
}
public static boolean excTestSingleRemoteThrowLocalCatch()
{
boolean result = false;
try
{
foo(23);
}
catch (MyException ex)
{
result = true;
}
return result;
}
public static boolean excTestMultiRemoteThrowRemoteCatch()
{
int testCount = 0;
for(int i = 0; i < 10; i++)
if(excTestSingleLocalThrowLocalCatch())
testCount++;
return (testCount == 10);
}
// test multiple catches from a remote throw
public static boolean excTestMultiRemoteThrowLocalCatch()
{
int testCount = 0;
for(int i = 0; i < 10; i++)
{
try
{
foo(23);
}
catch (MyException ex)
{
testCount ++;
}
}
return (testCount == 10);
}
// test multiple catches from a local throw
public static boolean excTestMultiLocalThrowLocalCatch()
{
int testCount = 0;
for(int i = 0; i < 10; i++)
{
try
{
throw new MyException("hi");
}
catch (MyException ex)
{
testCount ++;
}
}
return (testCount == 10);
}
public static void excTestHarness()
{
report(excTestSingleLocalThrowLocalCatch(), "excTestSingleLocalThrowLocalCatch");
report(excTestSingleRemoteThrowLocalCatch(), "excTestSingleLocalThrowLocalCatch");
report(excTestMultiRemoteThrowRemoteCatch(), "excTestMultiRemoteThrowRemoteCatch");
report(excTestMultiLocalThrowLocalCatch(), "excTestMultiLocalThrowLocalCatch");
report(excTestMultiRemoteThrowLocalCatch(), "excTestMultiRemoteThrowLocalCatch");
}
//----------------------------------------------------------
// call with a = 23, result = 1 + 2 + 4 + 8 + 16 + 32 == 63
// otherwise result = 1 + 64 + 4 + 128 + 16 + 256 + 1024 == 1431
private static int complexCatch(int a)
{
int result = 0;
try
{
result = 1;
try
{
foo(a);
result += 64;
}
catch (MyException ex)
{
result += 2;
}
result += 4;
try
{
foo(a);
result += 128;
}
catch (MyException ex)
{
result += 8;
}
result += 16;
foo(a); // should generate exception here
result += 256;
try
{
foo(a);
}
catch (MyException ex)
{
result += 512;
}
result += 1024;
}
catch (MyException ex)
{
result += 32;
}
return result; // should be 1 + 2 + 4 + 8
}
public static void complexCatchHarness()
{
int t0 = complexCatch(23);
int t1 = complexCatch(22);
boolean r0 = t0 == (1 + 2 + 4 + 8 + 16 + 32);
boolean r1 = t1 == (1 + 64 + 4 + 128 + 16 + 256 + 1024);
report(r0, "ComplexCatchTrue");
if(!r0) System.out.println("ComplexCatchTrue = " + t0);
report(r1, "ComplexCatchFalse");
if(!r1) System.out.println("ComplexCatchFalse = " + t1);
}
//==========================================================
// Store Long Test
// store into an array and test that the values were actually stored
public static void storeIntoLongArray(long[] a)
{
a[0] = 1;
a[1] = 1;
a[2] = 3;
a[3] = 5;
a[4] = 8;
a[5] = 13;
a[6] = 21;
a[7] = 34;
}
public static boolean loadFromLongArray(long[] a)
{
if ( (a[0] != 1) || (a[1] != 1) || (a[2] != 3) || (a[3] != 5) || (a[4] != 8) ||
(a[5] != 13) || (a[6] != 21) || (a[7] != 34) )
return false;
return true;
}
public static boolean longStoreTestHarness()
{
long[] a = new long[8];
storeIntoLongArray(a);
boolean r1 = loadFromLongArray(a);
report(r1, "longStoreTest");
return r1;
}
// no output!
public static void storeLongTest2()
{
long[] l = new long[100];
long b = 32;
for(int i = 0; i < 100; i++)
{
b += i;
l[i] = b;
}
}
public static boolean simpleLongStoreTestHarness()
{
long[] a = new long[1];
a[0] = 0xdeadbeefcafebabeL;
boolean r1 = a[0] == 0xdeadbeefcafebabeL;
report(r1, "simpleLongStoreTest");
return r1;
}
public static boolean sillyLongConstTest()
{
return cmpLongEqual(0xdeadbeefcafebabeL, 0xdeadbeefcafebabeL);
}
// Test Addition
public static long longAddTest(long a, long b)
{
return (a + b);
}
public static void longAddTestHarness()
{
long t0 = longAddTest(1000L, 1L);
long t1 = longAddTest(0xdeadbeef00000000L, 0x00000000cafebabeL);
long t2 = longAddTest(0x1010101010101010L, 0x0101010101010101L);
long t3 = longAddTest(0x9999999999999999L, 0x6666666666666666L);
boolean r0 = t0 == 1001;
boolean r1 = t1 == 0xdeadbeefcafebabeL;
boolean r2 = t2 == 0x1111111111111111L;
boolean r3 = t3 == 0xffffffffffffffffL;
report(r0, "longAddTest0");
if(!r0) System.out.println("long0 = " + t0);
report(r1, "longAddTest1");
if(!r1) System.out.println("long1 = " + t1);
report(r2, "longAddTest2");
if(!r2) System.out.println("long2 = " + t2);
report(r3, "longAddTest3");
if(!r3) System.out.println("long3 = " + t3);
}
// Test 'Or' Operator
public static long longOrTest(long a, long b)
{
return (a | b);
}
public static void longOrTestHarness()
{
long t0 = longOrTest(1000L, 1L);
long t1 = longOrTest(0xdeadbeef00000000L, 0x00000000cafebabeL);
long t2 = longOrTest(0x1010101010101010L, 0x0101010101010101L);
long t3 = longOrTest(0x9999999999999999L, 0x6666666666666666L);
boolean r0 = t0 == 1001;
boolean r1 = t1 == 0xdeadbeefcafebabeL;
boolean r2 = t2 == 0x1111111111111111L;
boolean r3 = t3 == 0xffffffffffffffffL;
report(r0, "longOrTest0");
if(!r0) System.out.println("long0 = " + t0);
report(r1, "longOrTest1");
if(!r1) System.out.println("long1 = " + t1);
report(r2, "longOrTest2");
if(!r2) System.out.println("long2 = " + t2);
report(r3, "longOrTest3");
if(!r3) System.out.println("long3 = " + t3);
}
// tests lots of things
public static String longToHexString(long a)
{
String result = "";
for(int i = 0; i < 16; i++)
{
int digit = (int) (a & 0x000000000000000fL);
switch(digit)
{
case 10: result = "a" + result; break;
case 11: result = "b" + result; break;
case 12: result = "c" + result; break;
case 13: result = "d" + result; break;
case 14: result = "e" + result; break;
case 15: result = "f" + result; break;
default: result = digit + result;
}
a = a >> 4;
}
return "0x" + result;
}
public static void longToHexStringTest()
{
String t1 = longToHexString (0xdeadbeefcafebabeL);
boolean r1 = t1.equals("0xdeadbeefcafebabe");
if(!r1)
System.out.println("0xdeadbeefcafebabe != " + t1);
report(r1, "longToHexStringTest");
}
public static void longTestHarness()
{
longAddTestHarness();
longOrTestHarness();
longStoreTestHarness();
longToHexStringTest();
simpleLongStoreTestHarness();
report(sillyLongConstTest(), "sillyLongConstTest");
storeLongTest2(); // no output
}
//==========================================================
// Array Access Exceptions
public static void testArrayStore(int[] b, int a)
{
b[a] = 3;
}
public static int arrayExceptionHelper(int[] array, int index)
{
int result = 0;
try
{
testArrayStore(array, index);
}
catch (ArrayIndexOutOfBoundsException ex)
{
result = 0;
}
catch (IndexOutOfBoundsException ex)
{
result = 1;
}
catch (NullPointerException ex)
{
result = 2;
}
catch (NegativeArraySizeException ex)
{
result = 3;
}
return result;
}
public static boolean testNullPointerException()
{
boolean result = (arrayExceptionHelper(null, 1) == 2);
report(result, "testNullPointerException");
return result;
}
public static boolean testIndexOutOfBoundsException1()
{
boolean result = (arrayExceptionHelper(new int[10], 10) == 0);
report(result, "testIndexOutOfBoundsException1");
return result;
}
public static boolean testIndexOutOfBoundsException2()
{
boolean result = (arrayExceptionHelper(new int[10], -1) == 0);
report(result, "testIndexOutOfBoundsException2");
return result;
}
public static int[] makeNewArray(int a)
{
return new int[a];
}
public static boolean testNegativeArraySizeException()
{
boolean result = false;
try
{
int[] a = makeNewArray(-5);
}
catch (NegativeArraySizeException ex)
{
result = true;
}
report(result, "testNegativeArraySizeException");
return result;
}
public static void testArrayAccessExceptions()
{
int count = 0;
if(testNullPointerException())
count++;
if(testNegativeArraySizeException())
count++;
if(testIndexOutOfBoundsException1())
count++;
if(testIndexOutOfBoundsException2())
count++;
report(count == 4, "testArrayAccessExceptions");
}
//==========================================================
// Hardware Exceptions
public static boolean testHardwareExceptions()
{
boolean result = false;
try
{
divTest(3, 0);
}
catch (ArithmeticException ex)
{
result = true;
}
report(result, "testHardwareExceptions");
return result;
}
//==========================================================
// JCK Store Tests
static Object[] arrayref=new String[10];
private static int JCKaastore00701b()
{
try
{
arrayref[1]=arrayref;
return 2;
} catch (ArrayStoreException e) {
return 0;
}
}
private static int JCKaastore00701c(PrintStream out)
{
try
{
arrayref[2]=out;
return 3;
}
catch (ArrayStoreException e)
{
}
return 0;
}
private static int JCKaastore00701(PrintStream out, boolean debug)
{
// if(debug) System.out.println("Begin JCKaastore00701");
try {
arrayref[0]=null;
} catch (ArrayStoreException e) {
return 1;
}
// if(debug) System.out.println("done1 JCKaastore00701");
try {
arrayref[1]=arrayref;
return 2;
} catch (ArrayStoreException e) {
}
// if(debug) System.out.println("done2 JCKaastore00701");
try {
arrayref[2]=out;
return 3;
} catch (ArrayStoreException e) {
}
// if(debug) System.out.println("done3 JCKaastore00701");
return 0;
}
static final int len=10;
static PrintStream outStream;
private static int JCKaastore01003(PrintStream out)
{
Subclss1_of_Object arrayref[]=new Subclss1_of_Object[len];
Subclss2_of_Object obj=new Subclss2_of_Object();
outStream=out;
try
{
obj.cc2=1;
arrayref[1]=obj;
outStream.println("aastore01003: Array Store Error");
return 2;
}
catch (ArrayStoreException e)
{
return 0;
}
}
private static int JCKaastore01102(PrintStream out)
{
SomeInterface1 u[]=new SomeInterface1[len];
AnotherInterface1 v[]=new AnotherInterface1[len];;
SomeClass1 x;
AnotherClass1 y;
outStream=out;
x = new SomeClass1(1);
y = new AnotherClass1(1);
try
{
u[1] = x;
v[1] = y;
outStream.println("aastore01102: Array Store Error");
return 2;
}
catch (ArrayStoreException e)
{
return 0;
}
}
private static int JCKaastore01301(PrintStream out)
{
byte b1[]=new byte[2], b2[][]=new byte[3][4];
short s1[]=new short[2], s2[][]=new short[3][4];
int i1[]=new int[2], i2[][]=new int[3][4];
long l1[]=new long[2], l2[][]=new long[3][4];
char c1[]=new char[2], c2[][]=new char[3][4];
float f1[]=new float[2], f2[][]=new float[3][4];
double d1[]=new double[2], d2[][]=new double[3][4];
outStream=out;
try {
b2[0] = b1;
s2[0] = s1;
i2[0] = i1;
l2[0] = l1;
c2[0] = c1;
f2[0] = f1;
d2[0] = d1;
return 0;
} catch (ArrayStoreException e) {
outStream.println("aastore01301: Array Store Error");
return 2;
}
}
public static int JCKaastore01401a(PrintStream out)
{
SomeClass2 x [] [];
try {
x = new SomeClass2 [3] [];
x[0] = new ImmediateSubclass2 [4];
return 0;
} catch (ArrayStoreException e) {
return -1;
}
}
public static int JCKaastore01401(PrintStream out)
{
int i [], j [];
SomeInterface2 u [], v[] [];
Subinterface2 w [];
SomeClass2 x [] [];
ImmediateSubclass2 y [];
FinalSubclass2 z [];
Object obj [];
int result = 0;
try {
result = 1;
i = new int [10];
result = 2;
i[0] = 777;
result = 3;
j = i;
result = 4;
x = new SomeClass2 [3] [];
result = 5;
x[0] = new ImmediateSubclass2 [4];
result = 6;
z = new FinalSubclass2 [4];
result = 7;
x[1] = z;
result = 8;
x[0][0] = new ImmediateSubclass2(1, 3.14f);
result = 9;
x[1][1] = new FinalSubclass2(-1, -3.14f, -2.71d);
result = 10;
u = x[0];
result = 11;
u = x[1];
result = 12;
v = x;
result = 13;
w = x[0];
result = 14;
u = w;
result = 15;
obj = x[1];
result = 16;
obj = x;
result = 17;
v = null;
result = 18;
v = (SomeInterface2 [] []) obj;
return 0;
} catch (ArrayStoreException e) {
return result;
}
}
public static boolean JCKStoreTests()
{
boolean result = true;
result &= fullReport(JCKaastore00701b(), 0, "JCKaastore00701b");
result &= fullReport(JCKaastore00701c(System.out), 0, "JCKaastore00701c");
result &= fullReport(JCKaastore00701(System.out, true), 0, "JCKaastore00701");
result &= fullReport(JCKaastore01003(System.out), 0, "JCKaastore01003");
result &= fullReport(JCKaastore01102(System.out), 0, "JCKaastore01102");
result &= fullReport(JCKaastore01401a(System.out), 0, "JCKaastore01401a");
result &= fullReport(JCKaastore01401(System.out), 0, "JCKaastore01401");
result &= fullReport(JCKaastore01301(System.out), 0, "JCKaastore01301");
return result;
}
//==========================================================
// JCK LongTests
private static int JCKlsub00401()
{
long l1 = 0xFFFFFFFFFFFFFFFFl;
long l2 = 0x7FFFFFFFFFFFFFFFl;
long l3 = 0x8000000000000000l;
long negOne = -1l;
long res;
if ((res = l1 - negOne) < 0)
return 1;
else if (res != 0)
return 2;
else if ((res = l2 - negOne) >= 0)
return 3;
else if (res != l3)
return 4;
else if ((res = l3 - 1l) <= 0)
return 5;
else if (res != l2)
return 6;
return 0;
}
public static boolean JCKLongTests()
{
boolean r0 = fullReport(JCKlsub00401(), 0, "JCKlsub00401");
return r0;
}
//==========================================================
// Byte/Float/Double stuff
private static boolean simpleByteTest(byte value, boolean debug)
{
Byte b = new Byte(value);
boolean result = true;
result &= conditionalFullReport(b.floatValue() == (float)value,true, "simpleByteTest.float with " + value, debug);
if(debug && (b.floatValue() == (float)value) == false)
System.out.println("simpleByteTest.float: apparently " + b.floatValue() + " and " + (float)value + " aren't equal\n");
result &= conditionalFullReport(b.doubleValue() == (double)value,true, "simpleByteTest.double with " + value, debug);
if(debug && (b.doubleValue() == (double)value) == false)
System.out.println("simpleByteTest.double: apparently " + b.doubleValue() + " and " + (double)value + " aren't equal\n");
return result;
}
private static boolean byteTest(byte value, boolean debug)
{
Byte b = new Byte(value);
boolean result = true;
result &= conditionalFullReport(b.equals(new Byte(value)), true, "byteTest.equals with " + value, debug);
result &= conditionalFullReport(b.hashCode() == value, true, "byteTest.hash with " + value, debug);
result &= conditionalFullReport(b.intValue() == value,true, "byteTest.int with " + value, debug);
result &= conditionalFullReport(b.longValue() == (long)value,true, "byteTest.long with " + value, debug);
result &= conditionalFullReport(b.floatValue() == (float)value,true, "byteTest.float with " + value, debug);
if(debug && (b.floatValue() == (float)value) == false)
System.out.println("byteTest.float: apparently " + b.floatValue() + " and " + (float)value + " were supposed to be the same");
result &= conditionalFullReport(b.doubleValue() == (double)value,true, "byteTest.double with " + value, debug);
if(debug && (b.doubleValue() == (double)value) == false)
System.out.println("byteTest.double: apparently " + b.doubleValue() + " and " + (double)value + " were supposed to be the same");
result &= conditionalFullReport(b.shortValue() == (short)value,true, "byteTest.short with " + value, debug);
return result;
}
private static boolean byteTestHelper(int value)
{
boolean result = true;
boolean r1 = byteTest((byte)value, false);
if(!r1)
byteTest((byte)value, true);
result &= r1;
boolean r2 = simpleByteTest((byte)value, false);
if(!r2)
simpleByteTest((byte)value, true);
result &= r2;
return result;
}
public static void byteTestHarness()
{
stupidByteTestHarness();
byteTestHelper(9);
simpleByteTest((byte)9, true);
byteTestHelper(9);
simpleByteTest((byte)9, true);
byteTestHelper(12);
byteTestHelper(0);
byteTestHelper(-3);
byteTestHelper(17);
}
//==========================================================
// Stupid Test
// returns 3 if both tests pass
private static int stupidByteTest(byte value)
{
Byte b = new Byte(value);
int result = 0;
if(b.floatValue() == (float)value)
result |= 1;
if(b.doubleValue() == (double)value)
result |= 2;
return result;
}
public static void stupidByteTestHarness()
{
for(byte i = (byte)-10; i <= 10; i++)
{
int result = stupidByteTest(i);
if(result != 3)
{
if((result & 1) == 0)
System.out.println("stupidByteTest " + i + " (float) failed");
if((result & 2) == 0)
System.out.println("stupidByteTest " + i + " (double) failed");
}
}
}
//==========================================================
// Integer Object
public static int hextoint(String s)
{
int sum = 0;
int length = s.length();
for(int i = 0; i < length; i++)
{
int digit = 0;
char c = s.charAt(i);
switch(c)
{
case '0': digit = 0; break;
case '1': digit = 1; break;
case '2': digit = 2; break;
case '3': digit = 3; break;
case '4': digit = 4; break;
case '5': digit = 5; break;
case '6': digit = 6; break;
case '7': digit = 7; break;
case '8': digit = 8; break;
case '9': digit = 9; break;
case 'a': digit = 10; break;
case 'b': digit = 11; break;
case 'c': digit = 12; break;
case 'd': digit = 13; break;
case 'e': digit = 14; break;
case 'f': digit = 15; break;
default:
System.out.println("hextointtest internal error: '" + c + "'");
}
sum = sum * 16 + digit;
}
return sum;
}
public static boolean inttohextest(int input)
{
String string = Integer.toHexString(input);
int integer = hextoint(string);
boolean result = (input == integer);
if(!result)
{
System.out.print("in:" + input);
System.out.print(", string:'" + string + "'");
System.out.println(", out:" + integer);
}
return result;
}
public static void simplehextest()
{
report(Integer.toHexString(12).equals("c"), "simplehextest1");
report(Integer.toHexString(-1).equals("ffffffff"), "simplehextest2");
report(Integer.toHexString(0).equals("0"), "simplehextest3");
}
public static void betterHexTest()
{
report(inttohextest(27), "integerHexTest1");
report(inttohextest(-1), "integerHexTest1");
report(inttohextest(255), "integerHexTest1");
}
// From JDK -- Convert the integer to an unsigned number.
private static String toUnsignedString(int i, int shift, boolean debug)
{
StringBuffer buf = new StringBuffer(shift >= 3 ? 11 : 32);
int radix = 1 << shift;
int mask = radix - 1;
if(debug)
System.out.println("radix: " + radix + "\nmask: " + mask);
do
{
buf.append(Character.forDigit(i & mask, radix));
if(debug)
System.out.println(
"i=" + i + " i&mask=" + (i & mask) + " radix=" +
radix + " --> append: '" + Character.forDigit(i & mask, radix) + "'");
i >>>= shift;
} while (i != 0);
if(debug)
System.out.println("before reversing: '" + buf + "'\n");
return buf.reverse().toString();
}
private static boolean mytoHexTest(int input, String expected)
{
String hex = toUnsignedString(input, 4, false);
boolean result = hex.equals(expected);
report(result, "mytoHexTest" + expected);
if(!result)
{
System.out.println("in: " + input + " out:'" + hex + "' expected:'" + expected + "'");
toUnsignedString(input, 4, true);
}
return result;
}
public static boolean mytoHexTestHarness()
{
boolean r0 = mytoHexTest(0x00, "0");
boolean r1 = mytoHexTest(0x0a, "a");
boolean r2 = mytoHexTest(0xdeadbeef, "deadbeef");
boolean r3 = mytoHexTest(-1, "ffffffff");
return r0 && r1 && r2 && r3;
}
public static void integerHarness()
{
mytoHexTestHarness();
simplehextest();
betterHexTest();
}
//==========================================================
// Simple Character Tests
public static boolean charForDigitTestSimple()
{
boolean r0 =
Character.forDigit(0x00, 16) == '0' &&
Character.forDigit(0x01, 16) == '1' &&
Character.forDigit(0x02, 16) == '2' &&
Character.forDigit(0x03, 16) == '3' &&
Character.forDigit(0x04, 16) == '4' &&
Character.forDigit(0x05, 16) == '5' &&
Character.forDigit(0x06, 16) == '6' &&
Character.forDigit(0x07, 16) == '7' &&
Character.forDigit(0x08, 16) == '8' &&
Character.forDigit(0x09, 16) == '9' &&
Character.forDigit(0x0a, 16) == 'a' &&
Character.forDigit(0x0b, 16) == 'b' &&
Character.forDigit(0x0c, 16) == 'c' &&
Character.forDigit(0x0d, 16) == 'd' &&
Character.forDigit(0x0e, 16) == 'e' &&
Character.forDigit(0x0f, 16) == 'f';
report(r0, "charForDigitTestSimple");
return r0;
}
public static boolean charForDigitTest()
{
char t0 = Character.forDigit(0x0a, 16);
boolean r0 = t0 == 'a';
char t1 = Character.forDigit(0, 2);
boolean r1 = t1 == '0';
char t2 = Character.forDigit(15, 10);
boolean r2 = t2 == '\u0000';
char t3 = Character.forDigit(9, 36);
boolean r3 = t3 == '9';
report(r0, "charForDigitTest0");
if(!r0) System.out.println("char0 = '" + t0 + "'");
report(r1, "charForDigitTest1");
if(!r1) System.out.println("char1 = '" + t1 + "'");
report(r2, "charForDigitTest2");
if(!r2) System.out.println("char2 = '" + t2 + "'");
report(r3, "charForDigitTest3");
if(!r3) System.out.println("char3 = '" + t3 + "'");
return r0 && r1 && r2 && r3;
}
public static void characterTests()
{
charForDigitTestSimple();
charForDigitTest();
}
//==========================================================
// Utility
public static boolean conditionalFullReport(String result, String expected, String testName, boolean debug)
{
boolean r0 = result.equals(expected);
if (debug)
{
String text = testName;
if(!r0)
text += " returned " + result + "(expected " + expected + ")";
report(r0, text, debug);
}
return r0;
}
public static boolean conditionalFullReport(boolean result, boolean expected, String testName, boolean debug)
{
boolean r0 = result == expected;
if (debug)
{
String text = testName;
if(!r0)
text += " returned " + result;
report(r0, text, debug);
}
return r0;
}
public static boolean fullReport(int result, int expected, String testName)
{
boolean r0 = result == expected;
String text = testName;
if(!r0)
text += " returned " + result;
report(r0, text);
return r0;
}
public static void report(boolean result, String testName)
{
report(result, testName, true);
}
public static void report(boolean result, String testName, boolean debug)
{
//if(true)
{
if(result)
System.out.print(" Passed ");
else
System.out.print("*Failed* ");
System.out.println("'" + testName + "'");
}
/*
else
{
System.out.println("\n%\nNAME: " + testName);
if(result)
System.out.print("STATUS: PASSED.");
else
System.out.print("STATUS: FAILED.");
}
*/
}
//==========================================================
// Main
public static void runAllTests()
{
System.out.println("Begin Tests");
subTestHarness();
switchTestHarness();
excTestHarness();
complexCatchHarness();
cmpLongTestHarness();
cmpLongSimple();
cmpIntSimple();
convertHarness();
byteTestHarness();
longTestHarness();
testMulHarness();
cmpTestHarness();
shlLongHarness();
testArrayAccessExceptions();
orderTestHarness();
instanceTestHarness();
negTestHarness();
divModTestHarness();
sieveHarness();
testHardwareExceptions();
characterTests();
integerHarness();
JCKLongTests();
// JCKStoreTests();
nestedTryTester();
System.out.println("End Tests");
}
public static float fadd(float a, float b)
{
if (a < 3.0 && b > 12.5)
return a + b;
else
return b - a;
}
/*
public static int idiv(int a, int b)
{
return a/b;
}
*/
public static void main(String[] args)
{
runAllTests();
// fadd(12.5f, 34.5f);
// idiv(0x80000000, 0xffffffff);
}
}
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