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tests.java.javatests.ListTest Maven / Gradle / Ivy
Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
// Copyright (c) Corporation for National Research Initiatives
package javatests;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.List;
import java.util.ListIterator;
import java.util.NoSuchElementException;
import org.python.util.Generic;
/**
* @author updikca1
*/
public abstract class ListTest {
public static ListTest getArrayListTest(final boolean makeReadOnly) {
return new ListTest() {
public List newInstance(Collection c) {
List l = null;
if (c == null) {
l = Generic.list();
} else {
l = new ArrayList(c);
}
return (makeReadOnly) ? Collections.unmodifiableList(l) : l;
}
public boolean isReadOnly() {
return makeReadOnly;
}
};
}
public static void verifyImutability(List l) {
String message = "Expected UnsupportedOperationException.";
try {
l.add(0, 0);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.add(0);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.addAll(null);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.addAll(0, null);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.clear();
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.remove(0);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.remove(new Object());
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.removeAll(null);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.retainAll(null);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
try {
l.set(0, 0);
TestSupport.fail(message);
} catch (UnsupportedOperationException e) {}
}
private final List nullList;
protected List defaultList() {
List l = Generic.list();
for (int i = 0; i < 4; i++) {
l.add(i);
}
return newInstance(l);
}
/**
* Implementations must supply an empty list if the collection is null.
*
* @param c
* Initial collection or null for empty.
* @return the List instance
*/
public List newInstance(Collection c) {
throw new UnsupportedOperationException("This method must be overridden");
}
/**
* @return true if the list is read-only (like PyTuple)
*/
public boolean isReadOnly() {
throw new UnsupportedOperationException("This method must be overridden");
}
{
nullList = newInstance(Arrays.asList(new Object[] {null}));
}
public void testAll() {
test_get();
test_equals();
test_size();
test_contains();
test_containsAll();
try {
defaultList().hashCode();
test_hashCode();
} catch (Exception e) {
// skip unhashable types
}
test_subList();
test_indexOf();
test_lastIndexOf();
test_listIterator();
test_toArray();
test_toArray_typed();
if (!isReadOnly()) {
test_add();
test_add_index();
test_set();
test_clear();
test_addAll();
test_addAll_index();
test_remove();
test_remove_index();
test_removeAll();
test_retainAll();
} else {
verifyImutability(newInstance(null));
}
}
/** Tests get(int index) */
public void test_get() {
List l = defaultList();
TestSupport.assertThat(l.get(0).equals(0),
"get() did not return expected value of Integer(0)");
try {
l.get(-1);
TestSupport.fail("get() did not throw IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
try {
l.get(l.size());
TestSupport.fail("get() did not throw IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
}
/** Tests set(int index, Object element) */
public void test_set() {
try {
newInstance(null).set(-1, "spam");
TestSupport.fail("get() did not throw IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
try {
newInstance(null).set(0, "spam");
TestSupport.fail("set() did not throw IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
List a = defaultList();
a.set(a.size() - 1, "spam");
TestSupport.assertThat(a.get(a.size() - 1).equals("spam"),
"set() object was not retrieved via get()");
}
/** Tests add(Object o) */
public void test_add() {
List a = newInstance(null);
for (int i = 0; i < 4; i++) {
a.add(i);
}
TestSupport.assertEquals(a, defaultList(), "add(Object o) failed");
}
/** Tests isEmpty() */
public void test_isEmpty() {
List a = newInstance(null);
TestSupport.assertThat(a.isEmpty(), "isEmpty() is false on an emtpy List");
a.addAll(defaultList());
TestSupport.assertThat(!a.isEmpty(), "isEmpty() is true on a non-empty List)");
a.clear();
TestSupport.assertThat(a.isEmpty(), "isEmpty() is false on an emtpy List");
}
/** Tests size() */
public void test_size() {
List b = newInstance(null);
TestSupport.assertThat(b.size() == 0, "empty list size was not 0");
TestSupport.assertThat(defaultList().size() == 4, "default list did not have a size of 4");
}
/** Tests add(int index, Object element) */
public void test_add_index() {
List a = newInstance(null);
List b = defaultList();
for (int i = 0; i < b.size(); i++) {
a.add(i, b.get(i));
}
try {
a.add(a.size() + 1, new Integer(a.size() + 1));
TestSupport.fail("expected IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
try {
a.add(-1, new Integer(-1));
TestSupport.fail("expected IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
}
/** Tests equals(Object o) */
public void test_equals() {
TestSupport.assertEquals(defaultList(), defaultList(), "Identical lists weren't equal()");
TestSupport.assertNotEquals(newInstance(null),
defaultList(),
"Different lists were equal()");
TestSupport.assertNotEquals(newInstance(null),
new Object(),
"List was equal to a non-List type");
}
/** Tests addAll(Collection c) */
public void test_addAll() {
List a = defaultList();
List b = defaultList();
TestSupport.assertThat(a.addAll(b) == true, "Mutating addAll(Collection) returned false");
TestSupport.assertThat(a.addAll(newInstance(null)) == false,
"Idempotent addAll(Collection) returned true");
TestSupport.assertThat(b.addAll(b) == true, "Mutating addAll(Collection) returned false");
TestSupport.assertEquals(a, b, "Expected equal objects from addAll(collection)");
TestSupport.assertThat(a.size() == 8,
"Expected List to have size 8 after addAll(Collection)");
}
/** Tests indexOf(Object o) */
public void test_indexOf() {
TestSupport.assertThat(defaultList().indexOf(3) == 3, "indexOf(3) did not return 3");
TestSupport.assertThat(defaultList().indexOf(42) == -1,
"indexOf() non-existing entry did not return -1");
TestSupport.assertThat(defaultList().indexOf(null) == -1,
"indexOf() non-existing null did not return -1");
}
/** Tests contains(Object o) */
public void test_contains() {
TestSupport.assertThat(defaultList().contains(42) == false,
"contains() returned true for non-existing entry");
TestSupport.assertThat(defaultList().contains(0) == true,
"contains() returned false for existing entry");
TestSupport.assertThat(nullList.contains(null) == true,
"contains() returned false for existing null entry");
TestSupport.assertThat(defaultList().contains(null) == false,
"contains() returned true for non-existing null entry");
}
/** Tests remove(Object o) */
public void test_remove() {
List a = defaultList();
a.add(null);
TestSupport.assertThat(a.remove(null) == true,
"remove() existing null entry returned false");
TestSupport.assertThat(a.remove(null) == false,
"remove() non-existing null entry returned false");
a.add("spam");
TestSupport.assertThat(a.remove("spam") == true, "remove() existing entry returned false");
TestSupport.assertThat(a.remove("spam") == false,
"remove() non-existing entry returned true");
}
/** Tests remove(int index) */
public void test_remove_index() {
List a = defaultList();
for (int i = 0, n = a.size(); i < n; i++) {
a.remove(0);
}
TestSupport.assertThat(a.size() == 0, "remove()-d all entries but size() not 0");
try {
a.remove(0);
TestSupport.fail("removing a non-existing index did not throw exception");
} catch (IndexOutOfBoundsException e) {}
}
/** Tests lastIndexOf(Object o) */
public void test_lastIndexOf() {
// avoid calling any mutable methods
List l = new ArrayList(defaultList());
l.add(0);
// now get the immutable version
List a = newInstance(l);
TestSupport.assertThat(a.lastIndexOf(0) == 4, "lastIndexOf() did not return 4");
TestSupport.assertThat(a.lastIndexOf(42) == -1,
"lastIndexOf() non-existing value did not return -1");
}
/** Tests removeAll(Collection c) */
public void test_removeAll() {
List a = defaultList();
TestSupport.assertThat(a.removeAll(a) == true, "mutating removeAll() did not return true");
TestSupport.assertThat(a.removeAll(a) == false, "idempotent removeAll did not return false");
TestSupport.assertThat(a.removeAll(nullList) == false,
"idempotent removeAll did not return false");
List yanl = newInstance(null);
yanl.addAll(nullList);
TestSupport.assertThat(yanl.removeAll(nullList) == true,
"mutating removeAll() did not return true");
TestSupport.assertThat(yanl.size() == 0, "empty list had non-zero size");
TestSupport.assertThat(yanl.removeAll(newInstance(null)) == false,
"idempotent removeAll did not return false");
}
/** Tests addAll(int index, Collection c) */
public void test_addAll_index() {
List a = defaultList();
List b = newInstance(null);
TestSupport.assertThat(b.addAll(0, a) == true,
"mutating addAll(index, Collection) did not return true");
TestSupport.assertEquals(a, b, "addAll(index, Collection) instances failed equals test");
TestSupport.assertThat(a.addAll(0, newInstance(null)) == false,
"idempotent addAll(index, Collection) did not return false");
TestSupport.assertThat(b.addAll(0, b) == true,
"mutating addAll(index, Collection) did not return true");
// Since PyObjectList has some specific handling when it detects
// addAll on a PySequenceList, make sure the general case works.
b = newInstance(null);
b.addAll(new ArrayList(defaultList()));
TestSupport.assertEquals(defaultList(), b, "addAll(index, ) failed equals test");
}
/** Tests hashCode() */
public void test_hashCode() {
List a = defaultList();
TestSupport.assertThat(a.hashCode() == defaultList().hashCode(),
"Instances with same internal state have different hashcode");
TestSupport.assertThat(a.hashCode() != newInstance(null).hashCode(),
"Instances with different internal state have the same hashcode");
if (isReadOnly() == false) {
List b = newInstance(null);
b.addAll(a);
b.remove(0);
TestSupport.assertThat(a.hashCode() != b.hashCode(),
"Instances with different internal state have the same hashcode");
}
}
/** Tests clear() */
public void test_clear() {
List a = defaultList();
a.clear();
TestSupport.assertThat(a.size() == 0, "clear()-ed list did not have size of 0");
}
/** Tests subList(int fromIndex, int toIndex) */
public void test_subList() {
List a = defaultList();
TestSupport.assertThat((a.subList(0, a.size()) != a),
"subList() returned the same instance");
TestSupport.assertEquals(a.subList(0, a.size()),
a,
"Complete subList() did not equal original List");
TestSupport.assertThat(a.subList(0, 0).size() == 0, "empty subList had non-zero size");
try {
a.subList(-1, 1);
TestSupport.fail("Expected IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
try {
a.subList(1, 0);
TestSupport.fail("Expected IllegalArgumentException");
} catch (IllegalArgumentException e) {}
try {
a.subList(0, a.size() + 1);
TestSupport.fail("Expected IndexOutOfBoundsException");
} catch (IndexOutOfBoundsException e) {}
if (!isReadOnly()) {
a.subList(0, a.size()).clear();
TestSupport.assertThat(a.size() == 0, "clear()-ed sublist did not have zero size");
List c = newInstance(null);
c.addAll(defaultList());
List d = c.subList(1, 3);
TestSupport.assertThat(d.size() == 2, "Expected subList to have size of 2");
TestSupport.assertThat(c.set(1, "canned").equals(1),
"subList.set() did not return Integer(1) from index 1"
+ " of defaultList");
TestSupport.assertThat(d.get(0).equals("canned"),
"subList does not update with changes to parent");
d.set(0, "spam");
TestSupport.assertThat(c.get(1).equals("spam"),
"parent does not update with changes to subList child");
} else {
List b = a.subList(0, a.size());
verifyImutability(b);
}
}
/** Tests retainAll(Collection c) */
public void test_retainAll() {
List a = defaultList();
a.retainAll(defaultList());
TestSupport.assertEquals(a,
defaultList(),
"retainAll() does not equal original list");
a = defaultList();
a.retainAll(newInstance(null));
TestSupport.assertThat(a.size() == 0, "retainAll())does not have size of zero");
a = defaultList();
a.remove(0);
a.remove(0);
a.add(4);
a.add(5);
List b = newInstance(null);
b.add(2);
b.add(3);
a.retainAll(b);
TestSupport.assertEquals(a,
b,
"retainAll() on overlap of indices [2,3] did not return that List");
}
/** Tests containsAll(Collection c) */
public void test_containsAll() {
TestSupport.assertThat(defaultList().containsAll(defaultList()),
"containsAll( was false");
TestSupport.assertThat(defaultList().containsAll(newInstance(null)),
"containsAll() was false");
TestSupport.assertThat(newInstance(null).containsAll(defaultList()) == false,
"containsAll() returned true");
TestSupport.assertThat(defaultList().containsAll(defaultList().subList(1, 3)),
"containsAll() was false");
}
/** Tests iterator() */
public void test_iterator() {
TestSupport.assertThat(newInstance(null).iterator().hasNext() == false,
"Iterator for empty list thinks it hasNext()");
try {
newInstance(null).iterator().next();
TestSupport.fail("expected NoSuchElementException");
} catch (NoSuchElementException e) {}
List a = defaultList();
int i = 0;
for (Object element : a) {
TestSupport.assertThat(element == a.get(i++), "Iterator next() failed identity test");
}
TestSupport.assertThat(i == a.size(), "Iterator did not iterator over entire list");
}
public void test_listIterator() {
ListIterator li = newInstance(null).listIterator();
TestSupport.assertThat(!li.hasNext(), "ListIterator.hasNext() is true for empty List");
TestSupport.assertThat(!li.hasPrevious(),
"ListIterator.hasPrevious() is true for empty List");
try {
li.next();
TestSupport.fail("expected NoSuchElementException");
} catch (NoSuchElementException e) {}
try {
li.previous();
TestSupport.fail("expected NoSuchElementException");
} catch (NoSuchElementException e) {}
int nextIndex = li.nextIndex();
TestSupport.assertThat(nextIndex == 0,
"ListIterator.nextIndex() on empty List did not return 0");
int prevIndex = li.previousIndex();
TestSupport.assertThat(prevIndex == -1,
"ListIterator.previousIndex() on empty List did not return -1");
List l = Generic.list();
l.add(1);
li = newInstance(l).listIterator();
TestSupport.assertThat(!li.hasPrevious(),
"ListIterator.hasPrevious() is true with nothing previous");
TestSupport.assertThat(li.hasNext(), "ListIterator.hasNext() is false with next present");
TestSupport.assertThat(li.next().equals(1),
"ListIterator.next() did not return expected Integer(1)");
if (!isReadOnly()) {
li.remove();
TestSupport.assertThat(!li.hasNext(), "ListIterator.hasNext() is true for empty List");
TestSupport.assertThat(!li.hasPrevious(),
"ListIterator.hasPrevious() is true for empty List");
try {
li.set(42);
TestSupport.fail("expected IllegalStateException");
} catch (IllegalStateException e) {}
try {
li.remove();
TestSupport.fail("expected IllegalStateException");
} catch (IllegalStateException e) {}
}
l = Generic.list(new Object[]{0, 1, 2});
li = newInstance(l).listIterator();
for (int i = 0, n = l.size(); i < n; i++) {
TestSupport.assertThat(li.next().equals(i),
"ListIterator.previous did not return expected value");
}
while (!isReadOnly() && li.hasNext()) {
li.next();
li.set(42);
TestSupport.assertThat(li.previous().equals(42),
"ListIterator.previous() did not return the value that was set()");
li.remove();
}
if (isReadOnly()) {
li = newInstance(null).listIterator();
}
li = defaultList().listIterator(2);
TestSupport.assertThat(li.next().equals(2),
"List.listIteraor(index) did not return expected value");
TestSupport.assertThat(li.next().equals(3),
"List.listIteraor(index) did not return expected value");
TestSupport.assertThat(!li.hasNext(), "listIterator.hasNext() at end of list returned true");
}
/** Tests toArray() */
public void test_toArray() {
Object[] intObjArray = {0, 1, 2, 3};
TestSupport.assertThat(Arrays.equals(defaultList().toArray(), intObjArray),
"toArray() did not return the expected Integer[] array");
}
/** Tests toArray(Object[] a) */
public void test_toArray_typed() {
Object[] intObjArray = {0, 1, 2, 3};
TestSupport.assertThat(Arrays.equals(defaultList().toArray(new Integer[0]), intObjArray),
"toArray(Integer[]) did not return the expected Integer[] array");
}
// Can't test clone since it's not visible, but it is from jython.
// /** Tests clone() */
// public void test_clone() {
// List a = defaultList();
// TestSupport.assertEquals(((Object)a).clone(), a,
// "clone() was not equal to original");
// TestSupport.assertThat(a.clone() != a,
// "clone() returned same instance");
// }
}
