public void testStoreInteger() {
Int64Array empty = Int64Array.make(0);
Int64Array tri = Int64Array.make(3);
// Store integer values within spec
tri.storeInteger(0, IntegerValue.make(Long.MIN_VALUE));
assertTrue(tri.int64At(0) == Long.MIN_VALUE);
tri.storeInteger(1, IntegerValue.make(1));
assertEquals(tri.int64At(1), 1);
tri.storeInteger(2, IntegerValue.make(Long.MAX_VALUE));
assertTrue(tri.int64At(2) == Long.MAX_VALUE);
// Store integer values outside of spec
try {
tri.storeInteger(0, IntegerValue.make(Long.MIN_VALUE).minus(IntegerValue.one()));
fail("MIN_VALUE - 1");
} catch (IllegalArgumentException e) {
// expected
}
try {
tri.storeInteger(2, IntegerValue.make(Long.MAX_VALUE).plus(IntegerValue.one()));
fail("MAX_VALUE + 1");
} catch (IllegalArgumentException e) {
// expected
}
// Store outside array boundary
try {
tri.storeInteger(-1, IntegerValue.make(1));
fail("-1");
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
tri.storeInteger(3, IntegerValue.make(1));
fail("3");
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
empty.storeInteger(0, IntegerValue.make(1));
fail("0");
} catch (IndexOutOfBoundsException e) {
// expected
}
}
public void testIsEqual() {
long[] intsE = new long[] {};
long[] ints1 = new long[] {1};
long[] ints12 = new long[] {1, 2};
long[] ints11 = new long[] {1, 1};
// Equal matches
assertTrue(Int64Array.make(intsE).isEqual(Int64Array.make(intsE)));
assertTrue(Int64Array.make(ints1).isEqual(Int64Array.make(ints1)));
assertTrue(Int64Array.make(ints12).isEqual(Int64Array.make(ints12)));
assertTrue(Int64Array.make(ints1).isEqual(AssertArrays.makeInt64Array1()));
// Unequal compatible matches
assertFalse(Int64Array.make(ints11).isEqual(Int64Array.make(ints12)));
assertFalse(Int64Array.make(intsE).isEqual(Int64Array.make(ints12)));
assertFalse(Int64Array.make(ints12).isEqual(Int64Array.make(intsE)));
// single value
assertFalse(Int64Array.make(ints1).isEqual(IntegerValue.make(1)));
// incompatible array
try {
assertFalse(Int64Array.make(ints1).isEqual(AssertArrays.makeIEEE32Array1()));
fail("ieee32");
} catch (UnsupportedOperationException e) {
// expected
}
}
public void step() {
myPosition = myPosition.minus(IntegerValue.one());
if (myIndex >= 0 && (myPosition.isLT(myEdges.integerVarAt(myIndex)))) {
myIndex = myIndex - 2;
if (myIndex >= -1) {
myPosition = (myEdges.integerVarAt(myIndex + 1)).minus(IntegerValue.one());
}
}
/*
udanax-top.st:53451:DescendingIntegerStepper methodsFor: 'accessing'!
{void} step
myPosition _ myPosition - 1.
(myIndex >= Int32Zero and: [myPosition < (myEdges integerVarAt: myIndex)]) ifTrue:
[myIndex _ myIndex - 2.
myIndex >= -1 ifTrue:
[myPosition _ (myEdges integerVarAt: myIndex + 1) - 1]]!
*/
}
protected AscendingArrayStepper(ActualArray array, IntegerValue start, IntegerValue stop) {
super(array, start);
lastValueInternal = stop.asInt32();
/*
udanax-top.st:55474:AscendingArrayStepper methodsFor: 'protected: create'!
create: array {ActualArray} with: start {IntegerVar} with: stop {IntegerVar}
super create: array with: start.
lastValueInternal _ stop DOTasLong!
*/
}
public void printOn(PrintWriter oo) {
oo.print(getClass().getName());
oo.print(" on ");
oo.print(array().subTableBetween(index(), IntegerValue.make(lastValueInternal)));
/*
udanax-top.st:55493:AscendingArrayStepper methodsFor: 'printing'!
{void} printOn: oo {ostream reference}
oo << self getCategory name << ' on ' << (self array subTableBetween: self index with: lastValueInternal)!
*/
}
public DescendingIntegerStepper(IntegerVarArray edges, int count) {
super();
myEdges = edges;
myIndex = count - 2;
if (myIndex >= -1) {
myPosition = (myEdges.integerVarAt(myIndex + 1)).minus(IntegerValue.one());
} else {
myPosition = IntegerValue.zero();
}
/*
udanax-top.st:53424:DescendingIntegerStepper methodsFor: 'protected: create'!
create: edges {IntegerVarArray} with: count {UInt32}
super create.
myEdges _ edges.
myIndex _ count - 2.
myIndex >= -1
ifTrue: [myPosition _ (myEdges integerVarAt: myIndex + 1) - 1]
ifFalse: [myPosition _ IntegerVar0]!
*/
}
public Stepper copy() {
return AscendingArrayStepper.make(array(), index(), IntegerValue.make(lastValueInternal));
/*
udanax-top.st:55458:AscendingArrayStepper methodsFor: 'create'!
{Stepper} copy
^AscendingArrayStepper
make: self array
with: self index
with: lastValueInternal!
*/
}
public Heaper fetch() {
if (hasValue()) {
return myPosition.integer();
} else {
return null;
}
/*
udanax-top.st:53445:DescendingIntegerStepper methodsFor: 'accessing'!
{Heaper wimpy} fetch
self hasValue ifTrue: [^myPosition integer] ifFalse: [^NULL]!
*/
}
public void testIntegerAt() {
Int64Array a = Int64Array.make(new long[] {0, 1, -2, 3});
AssertArrays.assertEquals(IntegerValue.make(0), a.integerAt(0));
AssertArrays.assertEquals(IntegerValue.make(1), a.integerAt(1));
AssertArrays.assertEquals(IntegerValue.make(-2), a.integerAt(2));
AssertArrays.assertEquals(IntegerValue.make(3), a.integerAt(3));
try {
a.integerAt(-1);
fail("-1");
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
a.integerAt(4);
fail("4");
} catch (IndexOutOfBoundsException e) {
// expected
}
}
public void testIndexOf() {
int index = AssertArrays.makeIEEE64ArrayEmpty().indexOf(IEEE64Value.make(1.1), 0, 1);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array1().indexOf(IEEE64Value.make(1.1), 0, 1);
assertEquals(0, index);
index = AssertArrays.makeIEEE64Array1().indexOf(IEEE64Value.make(1.1), 0, 0);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array12345().indexOf(IEEE64Value.make(1.1), 0, 1);
assertEquals(0, index);
index = AssertArrays.makeIEEE64Array12345().indexOf(IEEE64Value.make(1.1), 0, 2);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array12345().indexOf(IEEE64Value.make(1.1), 1, 1);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array12345().indexOf(IEEE64Value.make(5.5), 0, 1);
assertEquals(4, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), 0, 1);
assertEquals(1, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), 0, 2);
assertEquals(3, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(1.1), -1, -1);
assertEquals(4, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -1, -1);
assertEquals(3, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -1, 1);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -1, -2);
assertEquals(1, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -1, -3);
assertEquals(-1, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -3, -1);
assertEquals(1, index);
index = AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -1, 1);
assertEquals(-1, index);
try {
AssertArrays.makeIEEE64Array12321().indexOf(IEEE64Value.make(2.2), -6, 1);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
AssertArrays.makeIEEE64Array12321().indexOf(IntegerValue.make(2), -3, 1);
fail();
} catch (ClassCastException e) {
// expected
}
}
public void testStoreAll() {
IEEE64Array array = IEEE64Array.make(0);
array.storeAll(IEEE64Value.make(1.1));
AssertArrays.assertEquals(IEEE64Array.make(0), array, DIFF);
array = IEEE64Array.make(1);
array.storeAll(IEEE64Value.make(1.1));
AssertArrays.assertEquals(IEEE64Array.make(new double[] {1.1}), array, DIFF);
array = IEEE64Array.make(3);
array.storeAll(IEEE64Value.make(2.2));
AssertArrays.assertEquals(IEEE64Array.make(new double[] {2.2, 2.2, 2.2}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(IEEE64Value.make(9.9), 2, 1);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {1.1, 9.9, 9.9, 4.4, 5.5}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(null, 2, 1);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {1.1, 0.0, 0.0, 4.4, 5.5}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(IEEE64Value.make(9.9), -1, 1);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {1.1, 9.9, 9.9, 9.9, 9.9}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(IEEE64Value.make(9.9), 2);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {9.9, 9.9, 3.3, 4.4, 5.5}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(IEEE64Value.make(9.9), 0, 1);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {1.1, 2.2, 3.3, 4.4, 5.5}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
array.storeAll(IEEE64Value.make(9.9), 2, 1);
AssertArrays.assertEquals(
IEEE64Array.make(new double[] {1.1, 9.9, 9.9, 4.4, 5.5}), array, DIFF);
array = AssertArrays.makeIEEE64Array12345();
try {
array.storeAll(IEEE64Value.make(9.9), 6);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
array = AssertArrays.makeIEEE64Array12345();
try {
array.storeAll(IEEE64Value.make(9.9), 4, 2);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
// Store incompatible type
array = AssertArrays.makeIEEE64Array12345();
try {
array.storeAll(IntegerValue.make(9), 1);
fail();
} catch (ClassCastException e) {
// expected
}
}
public void testStoreMany() {
// empty
Int64Array array = AssertArrays.makeInt64ArrayEmpty();
array.storeMany(0, AssertArrays.makeInt64ArrayEmpty());
AssertArrays.assertEquals(AssertArrays.makeInt64ArrayEmpty(), array);
// simple
array = AssertArrays.makeInt64Array12345();
array.storeMany(0, AssertArrays.makeInt64Array12321());
AssertArrays.assertEquals(AssertArrays.makeInt64Array12321(), array);
array = AssertArrays.makeInt64Array12345();
array.storeMany(0, AssertArrays.makeInt64Array12321());
AssertArrays.assertEquals(AssertArrays.makeInt64Array12321(), array);
array = AssertArrays.makeInt64Array12321();
array.storeMany(1, Int64Array.make(new long[] {8, 7, 6, 5, 4, 3, 3}), 2, 3);
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 5, 4, 2, 1}), array);
array = AssertArrays.makeInt64Array12321();
array.storeMany(1, Int64Array.make(new long[] {8, 7}));
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 8, 7, 2, 1}), array);
// Store incompatible type
array = AssertArrays.makeInt64Array12321();
try {
array.storeMany(1, IEEE64Array.make(new double[] {8.8, 7.7}));
fail();
} catch (ClassCastException e) {
// expected
}
// attempt to copy beyond this extent
array = AssertArrays.makeInt64Array12345();
try {
array.storeMany(1, AssertArrays.makeInt64Array12321());
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
// insufficient source elements
array = AssertArrays.makeInt64Array12345();
try {
array.storeMany(0, AssertArrays.makeInt64Array12321(), 2, 4);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
// Store integer values outside of spec
array = AssertArrays.makeInt64Array12321();
try {
array.storeMany(
1,
IntegerVarArray.make(
new IntegerValue[] {IntegerValue.make(Long.MAX_VALUE).plus(IntegerValue.one())}));
fail("MAX_VALUE + 1");
} catch (IllegalArgumentException e) {
// expected
}
}
public void testStoreAll() {
Int64Array array = Int64Array.make(0);
array.storeAll(IntegerValue.make(1));
AssertArrays.assertEquals(Int64Array.make(0), array);
array = Int64Array.make(1);
array.storeAll(IntegerValue.make(1));
AssertArrays.assertEquals(Int64Array.make(new long[] {1}), array);
array = Int64Array.make(3);
array.storeAll(IntegerValue.make(2));
AssertArrays.assertEquals(Int64Array.make(new long[] {2, 2, 2}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(IntegerValue.make(9), 2, 1);
assertEquals(Int64Array.make(new long[] {1, 9, 9, 4, 5}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(null, 2, 1);
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 0, 0, 4, 5}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(IntegerValue.make(9), -1, 1);
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 9, 9, 9, 9}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(IntegerValue.make(9), 2);
AssertArrays.assertEquals(Int64Array.make(new long[] {9, 9, 3, 4, 5}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(IntegerValue.make(9), 0, 1);
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 2, 3, 4, 5}), array);
array = AssertArrays.makeInt64Array12345();
array.storeAll(IntegerValue.make(9), 2, 1);
AssertArrays.assertEquals(Int64Array.make(new long[] {1, 9, 9, 4, 5}), array);
// Store outside of array bounds
array = AssertArrays.makeInt64Array12345();
try {
array.storeAll(IntegerValue.make(9), 6);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
array = AssertArrays.makeInt64Array12345();
try {
array.storeAll(IntegerValue.make(9), 4, 2);
fail();
} catch (IndexOutOfBoundsException e) {
// expected
}
// Store incompatible type
array = AssertArrays.makeInt64Array12345();
try {
array.storeAll(IEEE32Value.make(9.9f), 1);
fail();
} catch (ClassCastException e) {
// expected
}
// Store integer values outside of spec
array = AssertArrays.makeInt64Array12345();
try {
array.storeAll(IntegerValue.make(Long.MAX_VALUE).plus(IntegerValue.one()), 1);
fail();
} catch (IllegalArgumentException e) {
// expected
}
}
public void testStoreValue() {
Int64Array empty = Int64Array.make(0);
Int64Array tri = Int64Array.make(3);
// Store integer values within spec
tri.storeValue(0, IntegerValue.make(Long.MIN_VALUE));
assertTrue(tri.int64At(0) == Long.MIN_VALUE);
tri.storeValue(1, IntegerValue.make(1));
assertEquals(tri.int64At(1), 1);
tri.storeValue(2, IntegerValue.make(Long.MAX_VALUE));
assertTrue(tri.int64At(2) == Long.MAX_VALUE);
// Store integer values outside of spec
try {
tri.storeValue(0, IntegerValue.make(Long.MIN_VALUE).minus(IntegerValue.one()));
fail("MIN_VALUE - 1");
} catch (IllegalArgumentException e) {
// expected
}
try {
tri.storeValue(2, IntegerValue.make(Long.MAX_VALUE).plus(IntegerValue.one()));
fail("MAX_VALUE + 1");
} catch (IllegalArgumentException e) {
// expected
}
// Store outside array boundary
try {
tri.storeValue(-1, IntegerValue.make(1));
fail("-1");
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
tri.storeValue(3, IntegerValue.make(1));
fail("3");
} catch (IndexOutOfBoundsException e) {
// expected
}
try {
empty.storeValue(0, IntegerValue.make(1));
fail("0");
} catch (IndexOutOfBoundsException e) {
// expected
}
// non-compatible store
try {
tri.storeValue(0, IEEE64Value.make(1.1));
fail("classCast");
} catch (ClassCastException e) {
// expected
}
// Null value
try {
tri.storeValue(0, null);
fail("null");
} catch (NullPointerException e) {
// expected
}
}
