This is xnu-8019. See this file in:
/*
 * Copyright (c) 1998-2000 Apple Computer, Inc. All rights reserved.
 *
 * @APPLE_OSREFERENCE_LICENSE_HEADER_START@
 *
 * This file contains Original Code and/or Modifications of Original Code
 * as defined in and that are subject to the Apple Public Source License
 * Version 2.0 (the 'License'). You may not use this file except in
 * compliance with the License. The rights granted to you under the License
 * may not be used to create, or enable the creation or redistribution of,
 * unlawful or unlicensed copies of an Apple operating system, or to
 * circumvent, violate, or enable the circumvention or violation of, any
 * terms of an Apple operating system software license agreement.
 *
 * Please obtain a copy of the License at
 * http://www.opensource.apple.com/apsl/ and read it before using this file.
 *
 * The Original Code and all software distributed under the License are
 * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
 * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES,
 * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT.
 * Please see the License for the specific language governing rights and
 * limitations under the License.
 *
 * @APPLE_OSREFERENCE_LICENSE_HEADER_END@
 */
#if DEBUG
#include "Tests.h"

#include <libkern/c++/OSArray.h>
#include <libkern/c++/OSSet.h>
#include <libkern/c++/OSDictionary.h>
#include <libkern/c++/OSString.h>
#include <libkern/c++/OSSymbol.h>
#include <libkern/c++/OSCollectionIterator.h>

void
testArray()
{
	bool res = true;
	void *spaceCheck, *spaceCheck2, *spaceCheck3;
	int i, j, count, count2;
	OSObject *cache[numStrCache], *str, *sym;
	OSArray *array1, *array2;

	// Do first test without memory leak tests to initialise the metaclass
	array1 = OSArray::withCapacity(1);
	TEST_ASSERT('A', "0a", array1);
	if (array1) {
		array1->release();
	}

	// Grow the symbol pool to maximum
	for (i = 0; i < numStrCache; i++) {
		cache[i] = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
	}
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}

	// Create and destroy an array
	spaceCheck = checkPointSpace();
	array1 = OSArray::withCapacity(1);
	TEST_ASSERT('A', "1a", array1);
	if (array1) {
		TEST_ASSERT('A', "1b", !array1->getCount());
		TEST_ASSERT('A', "1c", 1 == array1->getCapacity());
		TEST_ASSERT('A', "1d", 1 == array1->getCapacityIncrement());
		TEST_ASSERT('A', "1e", 4 == array1->setCapacityIncrement(4));
		TEST_ASSERT('A', "1f", 4 == array1->getCapacityIncrement());
		TEST_ASSERT('A', "1g", 8 == array1->ensureCapacity(5));

		spaceCheck2 = checkPointSpace();
		cache[0] = IOString::withCStringNoCopy(strCache[0]);

		spaceCheck3 = checkPointSpace();
		TEST_ASSERT('A', "1h", array1->setObject(cache[0]));
		TEST_ASSERT('A', "1i", cache[0] == array1->getObject(0));
		cache[0]->release();
		res = res && checkSpace("(A)1j", spaceCheck3, 0);

		TEST_ASSERT('A', "1k", 1 == array1->getCount());
		array1->flushCollection();
		TEST_ASSERT('A', "1l", !array1->getCount());
		res = res && checkSpace("(A)1m", spaceCheck2, 0);

		array1->release();
	}
	res = res && checkSpace("(A)1", spaceCheck, 0);

	// Check the creation of a sizable OSArray from an array of IOObjects
	// Also check indexing into the array.
	spaceCheck = checkPointSpace();
	for (i = 0; i < numStrCache; i++) {
		cache[i] = OSString::withCStringNoCopy(strCache[i]);
	}
	array1 = OSArray::withObjects(cache, numStrCache, numStrCache);
	TEST_ASSERT('A', "2a", array1);
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}
	if (array1) {
		TEST_ASSERT('A', "2b", numStrCache == (int) array1->getCount());
		TEST_ASSERT('A', "2c", numStrCache == (int) array1->getCapacity());
		TEST_ASSERT('A', "2d",
		    numStrCache == (int) array1->getCapacityIncrement());

		for (i = 0; (str = array1->getObject(i)); i++) {
			if (str != cache[i]) {
				verPrintf(("testArray(A) test 2e%d failed\n", i));
				res = false;
			}
		}
		TEST_ASSERT('A', "2f", numStrCache == i);
		array1->release();
	}
	res = res && checkSpace("(A)2", spaceCheck, 0);

	// Test array creation from another array by both the setObject method
	// and the withArray factory.  And test __takeObject code first
	// with tail removal then with head removal
	spaceCheck = checkPointSpace();
	for (i = 0; i < numStrCache; i++) {
		cache[i] = OSString::withCStringNoCopy(strCache[i]);
	}
	array1 = OSArray::withObjects(cache, numStrCache, numStrCache);
	TEST_ASSERT('A', "3a", array1);
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}
	array2 = 0;
	if (array1) {
		array2 = OSArray::withCapacity(1);
		TEST_ASSERT('A', "3b", array2);
		TEST_ASSERT('A', "3c", !array2->getCount());
		TEST_ASSERT('A', "3d", array2->setObject(array1));
		TEST_ASSERT('A', "3e", array1->getCount() == array2->getCount());
	}
	if (array2) {
		count = 0;
		TEST_ASSERT('A', "3f", numStrCache == (int) array2->getCount());
		for (i = array2->getCount(); (str = array2->__takeObject(--i));) {
			if (str != cache[i]) {
				verPrintf(("testArray(A) test 3g%d failed\n", i));
				res = false;
			}
			count += ((int) array2->getCount() == i);
			str->release();
		}
		TEST_ASSERT('A', "3h", count == numStrCache);
		TEST_ASSERT('A', "3i", -1 == i);
		TEST_ASSERT('A', "3j", !array2->getCount());

		spaceCheck2 = checkPointSpace();
		array2->flushCollection();
		res = res && checkSpace("(A)3k", spaceCheck2, 0);

		array2->release();
		array2 = 0;
	}
	if (array1) {
		array2 = OSArray::withArray(array1, numStrCache - 1);
		TEST_ASSERT('A', "3l", !array2);
		array2 = OSArray::withArray(array1, array1->getCount());
		TEST_ASSERT('A', "3m", array2);
		array1->release();
	}
	if (array2) {
		count = 0;
		TEST_ASSERT('A', "3o", numStrCache == (int) array2->getCount());
		for (i = 0; (str = array2->__takeObject(0)); i++) {
			count += (str == cache[i]);
			str->release();
		}
		TEST_ASSERT('A', "3p", count == numStrCache);
		TEST_ASSERT('A', "3q", !array2->getCount());
		array2->release();
		array2 = 0;
	}
	res = res && checkSpace("(A)3", spaceCheck, 0);

	// Test object replacement from one array to another
	spaceCheck = checkPointSpace();
	array1 = OSArray::withCapacity(numStrCache);
	TEST_ASSERT('A', "4a", array1);
	if (array1) {
		count = count2 = 0;
		for (i = 0; i < numStrCache; i++) {
			str = OSString::withCStringNoCopy(strCache[i]);
			count += array1->setObject(str);
			count2 += (str == array1->lastObject());
			str->release();
		}
		TEST_ASSERT('A', "4b", numStrCache == (int) array1->getCount());
		TEST_ASSERT('A', "4c", count == numStrCache);
		TEST_ASSERT('A', "4d", count2 == numStrCache);
	}
	array2 = OSArray::withCapacity(1);
	TEST_ASSERT('A', "4e", array2);
	if (array2) {
		count = count2 = 0;
		str = (OSObject *) OSSymbol::withCStringNoCopy(strCache[0]);
		for (i = 0; i < numStrCache; i++) {
			sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
			count += array2->setObject(sym, 0);
			count2 += (str == array2->lastObject());
			sym->release();
		}
		str->release();
		TEST_ASSERT('A', "4f", numStrCache == (int) array2->getCount());
		TEST_ASSERT('A', "4g", count == numStrCache);
		TEST_ASSERT('A', "4h", count2 == numStrCache);
	}
	if (array1 && array2) {
		count = count2 = 0;
		for (i = array1->getCount() - 1; (sym = array2->__takeObject(0)); i--) {
			str = array1->replaceObject(sym, i);
			count  += (str != 0);
			count2 += (sym != str);
			if (str) {
				str->release();
			}
			if (sym) {
				sym->release();
			}
		}
		TEST_ASSERT('A', "4k", numStrCache == (int) array1->getCount());
		TEST_ASSERT('A', "4l", count == numStrCache);
		TEST_ASSERT('A', "4m", count2 == numStrCache);
		array1->release();
		array2->release();
	} else {
		if (array1) {
			array1->release();
		}
		if (array2) {
			array2->release();
		}
	}
	res = res && checkSpace("(A)4", spaceCheck, 0);

	// Test array duplicate removal
	spaceCheck = checkPointSpace();
	array1 = OSArray::withCapacity(numStrCache);
	TEST_ASSERT('A', "5a", array1);
	if (array1) {
		for (i = 0; i < numStrCache; i++) {
			sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
			count += array1->setObject(sym);
			sym->release();
		}
		TEST_ASSERT('A', "5b", numStrCache == (int) array1->getCount());

		// remove duplicates
		for (i = 0; (sym = array1->getObject(i));) {
			if (sym->getRetainCount() == 1) {
				i++;
			} else {
				//sym = array1->__takeObject(i);
				//sym->release();
				array1->removeObject(i);
			}
		}
		TEST_ASSERT('A', "5c", numStrCache != (int) array1->getCount());

		// check to see that all symbols are really there
		for (count = 0, i = 0; i < numStrCache; i++) {
			sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
			for (count2 = false, j = 0; (str = array1->getObject(j)); j++) {
				if (str == sym) {
					count2 = true;
					break;
				}
			}
			count += count2;
			sym->release();
		}
		TEST_ASSERT('A', "5c", count == numStrCache);
		array1->release();
	}
	res = res && checkSpace("(S)5", spaceCheck, 0);

	if (res) {
		verPrintf(("testArray: All OSArray Tests passed\n"));
	} else {
		logPrintf(("testArray: Some OSArray Tests failed\n"));
	}
}

void
testSet()
{
	bool res = true;
	void *spaceCheck, *spaceCheck2, *spaceCheck3;
	int i, count, count2;
	OSObject *cache[numStrCache], *str, *sym;
	OSSet *set1, *set2;
	OSArray *array;

	// Do first test without memory leak tests to initialise the metaclass
	set1 = OSSet::withCapacity(1);
	TEST_ASSERT('S', "0a", set1);
	if (set1) {
		set1->release();
	}

	// Grow the symbol pool to maximum
	for (i = 0; i < numStrCache; i++) {
		cache[i] = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
	}
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}

	// Create and destroy an set
	spaceCheck = checkPointSpace();
	set1 = OSSet::withCapacity(1);
	TEST_ASSERT('S', "1a", set1);
	if (set1) {
		TEST_ASSERT('S', "1b", !set1->getCount());
		TEST_ASSERT('S', "1c", 1 == set1->getCapacity());
		TEST_ASSERT('S', "1d", 1 == set1->getCapacityIncrement());
		TEST_ASSERT('S', "1e", 4 == set1->setCapacityIncrement(4));
		TEST_ASSERT('S', "1f", 4 == set1->getCapacityIncrement());
		TEST_ASSERT('S', "1g", 8 == set1->ensureCapacity(5));

		spaceCheck2 = checkPointSpace();
		cache[0] = IOString::withCStringNoCopy(strCache[0]);

		spaceCheck3 = checkPointSpace();
		TEST_ASSERT('S', "1h", set1->setObject(cache[0]));
		TEST_ASSERT('S', "1i", set1->containsObject(cache[0]));
		TEST_ASSERT('S', "1j", cache[0] == set1->getAnyObject());
		cache[0]->release();
		res = res && checkSpace("(S)1k", spaceCheck3, 0);

		TEST_ASSERT('S', "1l", 1 == set1->getCount());
		set1->flushCollection();
		TEST_ASSERT('S', "1m", !set1->getCount());
		res = res && checkSpace("(S)1n", spaceCheck2, 0);

		set1->release();
	}
	res = res && checkSpace("(S)1", spaceCheck, 0);

	// Check the creation of a sizable OSSet from an set of IOObjects
	// Also check member test of set.
	spaceCheck = checkPointSpace();
	for (i = 0; i < numStrCache; i++) {
		cache[i] = OSString::withCStringNoCopy(strCache[i]);
	}
	set1 = OSSet::withObjects(cache, numStrCache, numStrCache);
	TEST_ASSERT('S', "2a", set1);
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}
	if (set1) {
		TEST_ASSERT('S', "2b", numStrCache == (int) set1->getCount());
		TEST_ASSERT('S', "2c", numStrCache == (int) set1->getCapacity());
		TEST_ASSERT('S', "2d",
		    numStrCache == (int) set1->getCapacityIncrement());

		count = 0;
		for (i = set1->getCount(); --i >= 0;) {
			count += set1->member(cache[i]);
		}

		TEST_ASSERT('S', "2e", numStrCache == count);
		set1->release();
	}
	res = res && checkSpace("(S)2", spaceCheck, 0);

	// Test set creation from another set by both the setObject method
	// and the withArray factory.  And test __takeObject code first
	// with tail removal then with head removal
	spaceCheck = checkPointSpace();
	for (i = 0; i < numStrCache; i++) {
		cache[i] = OSString::withCStringNoCopy(strCache[i]);
	}
	set1 = OSSet::withObjects(cache, numStrCache, numStrCache);
	TEST_ASSERT('S', "3a", set1);
	for (i = 0; i < numStrCache; i++) {
		cache[i]->release();
	}
	set2 = 0;
	if (set1) {
		set2 = OSSet::withCapacity(set1->getCount());
		TEST_ASSERT('S', "3b", set2);
		TEST_ASSERT('S', "3c", !set2->getCount());
		TEST_ASSERT('S', "3d", set2->setObject(set1));
		TEST_ASSERT('S', "3e", set1->getCount() == set2->getCount());
	}
	if (set2) {
		TEST_ASSERT('S', "3f", numStrCache == (int) set2->getCount());
		count = count2 = 0;
		while ((str = set2->getAnyObject())) {
			count  += set2->__takeObject(str);
			count2 += set1->member(str);
			str->release();
		}
		TEST_ASSERT('S', "3g", !set2->getCount());
		TEST_ASSERT('S', "3h", numStrCache == count);
		TEST_ASSERT('S', "3i", numStrCache == count2);

		spaceCheck2 = checkPointSpace();
		set2->flushCollection();
		res = res && checkSpace("(S)3j", spaceCheck2, 0);

		set2->release();
		set2 = 0;
	}
	if (set1) {
		set2 = OSSet::withSet(set1, numStrCache - 1);
		TEST_ASSERT('S', "3k", !set2);
		set2 = OSSet::withSet(set1, set1->getCount());
		TEST_ASSERT('S', "3l", set2);
		set1->release();
	}
	if (set2) {
		TEST_ASSERT('S', "3m", numStrCache == (int) set2->getCount());
		i = count = count2 = 0;
		while ((str = set2->getAnyObject())) {
			count  += set2->__takeObject(str);
			count2 += (cache[i++] == str);
			str->release();
		}
		TEST_ASSERT('S', "3n", !set2->getCount());
		TEST_ASSERT('S', "3o", numStrCache == count);
		TEST_ASSERT('S', "3p", numStrCache == count2);

		set2->release();
		set2 = 0;
	}
	res = res && checkSpace("(S)3", spaceCheck, 0);

	// Test duplicate removal
	spaceCheck = checkPointSpace();
	set2 = 0;
	set1 = OSSet::withCapacity(numStrCache);
	TEST_ASSERT('S', "4a", set1);
	if (set1) {
		count = 0;
		for (i = 0; i < numStrCache; i++) {
			sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
			count += set1->setObject(sym);
			sym->release();
		}
		TEST_ASSERT('S', "4b", numStrCache != (int) set1->getCount());
		TEST_ASSERT('S', "4c", count == (int) set1->getCount());

		count = count2 = 0;
		for (i = 0; i < numStrCache; i++) {
			sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
			count += set1->member(sym);
			count2 += sym->getRetainCount();
			sym->release();
		}
		TEST_ASSERT('S', "4d", count == numStrCache);
		TEST_ASSERT('S', "4e", count2 == numStrCache * 2);

		set2 = OSSet::withSet(set1, 2 * set1->getCount());
	}
	TEST_ASSERT('S', "4f", set2);
	if (set2) {
		set2->setObject(set1);
		TEST_ASSERT('S', "4g", set1->getCount() == set2->getCount());
		set1->release();
		set2->release();
	}
	res = res && checkSpace("(S)4", spaceCheck, 0);

	// Test array duplicate removal
	spaceCheck = checkPointSpace();
	array = OSArray::withCapacity(numStrCache);
	for (i = 0; i < numStrCache; i++) {
		sym = (OSObject *) OSSymbol::withCStringNoCopy(strCache[i]);
		count += array->setObject(sym);
		sym->release();
	}
	set1 = OSSet::withArray(array, numStrCache);
	TEST_ASSERT('S', "5a", set1);
	if (set1) {
		TEST_ASSERT('S', "5b", array->getCount() != set1->getCount());
		array->release();

		count = count2 = set1->getCount();
		while ((sym = set1->getAnyObject())) {
			count  -= set1->__takeObject(sym);
			count2 -= sym->getRetainCount();
			sym->release();
		}
		TEST_ASSERT('S', "5c", !count);
		TEST_ASSERT('S', "5d", !count2);
		set1->release();
	}
	res = res && checkSpace("(S)5", spaceCheck, 0);

	if (res) {
		verPrintf(("testSet: All OSSet Tests passed\n"));
	} else {
		logPrintf(("testSet: Some OSSet Tests failed\n"));
	}
}

void
testDictionary()
{
	bool res = true;
	void *spaceCheck, *spaceCheck2, *spaceCheck3;
	OSObject *cache[numStrCache];
	OSString *str;
	const OSSymbol *symCache[numStrCache], *sym;
	OSDictionary *dict1, *dict2;
	int i, numSymbols, count1, count2;

	// Do first test without memory leak tests to initialise the metaclass
	dict1 = OSDictionary::withCapacity(1);
	TEST_ASSERT('D', "0a", dict1);
	if (dict1) {
		dict1->release();
	}

	// Grow the symbol pool to maximum
	for (i = 0; i < numStrCache; i++) {
		symCache[i] = OSSymbol::withCStringNoCopy(strCache[i]);
	}
	for (i = 0; i < numStrCache; i++) {
		symCache[i]->release();
	}

	// Create and destroy a dictionary
	spaceCheck = checkPointSpace();
	dict1 = OSDictionary::withCapacity(1);
	TEST_ASSERT('D', "1a", dict1);
	if (dict1) {
		TEST_ASSERT('D', "1b", !dict1->getCount());
		TEST_ASSERT('D', "1c", 1 == dict1->getCapacity());
		TEST_ASSERT('D', "1d", 1 == dict1->getCapacityIncrement());
		TEST_ASSERT('D', "1e", 4 == dict1->setCapacityIncrement(4));
		TEST_ASSERT('D', "1f", 4 == dict1->getCapacityIncrement());
		TEST_ASSERT('D', "1g", 8 == dict1->ensureCapacity(5));

		spaceCheck2 = checkPointSpace();
		sym = OSSymbol::withCStringNoCopy(strCache[0]);

		spaceCheck3 = checkPointSpace();
		TEST_ASSERT('D', "1h", dict1->setObject((OSObject *) sym, sym));
		TEST_ASSERT('D', "1i", (OSObject *) sym == dict1->getObject(sym));
		sym->release();
		TEST_ASSERT('D', "1i", 2 == sym->getRetainCount());
		res = res && checkSpace("(D)1j", spaceCheck3, 0);

		TEST_ASSERT('D', "1k", 1 == dict1->getCount());
		dict1->flushCollection();
		TEST_ASSERT('D', "1l", !dict1->getCount());
		res = res && checkSpace("(D)1m", spaceCheck2, 0);

		dict1->release();
	}
	res = res && checkSpace("(D)1", spaceCheck, 0);

	// Check the creation of a sizable OSDictionary from an array of IOObjects
	// Also check indexing into the array.
	spaceCheck = checkPointSpace();
	for (i = 0, numSymbols = 0; i < numStrCache; i++) {
		sym = OSSymbol::withCStringNoCopy(strCache[i]);
		if (1 == sym->getRetainCount()) {
			symCache[numSymbols++] = sym;
		} else {
			sym->release();
		}
	}
	dict1 = OSDictionary::withObjects(
		(OSObject **) symCache, symCache, numSymbols, numSymbols);
	TEST_ASSERT('D', "2a", dict1);
	count1 = count2 = 0;
	for (i = 0; i < numSymbols; i++) {
		count1 += (symCache[i]->getRetainCount() == 3);
	}
	TEST_ASSERT('D', "2b", count1 == numSymbols);
	if (dict1) {
		TEST_ASSERT('D', "2c", numSymbols == (int) dict1->getCount());
		TEST_ASSERT('D', "2d", numSymbols == (int) dict1->getCapacity());
		TEST_ASSERT('D', "2e",
		    numSymbols == (int) dict1->getCapacityIncrement());

		for (i = dict1->getCount(); --i >= 0;) {
			str = (OSString *) dict1->getObject(symCache[i]);
			if (str != (OSString *) symCache[i]) {
				verPrintf(("testDictionary(D) test 2f%d failed\n", i));
				res = false;
			}
		}
		dict1->release();
	}
	count1 = count2 = 0;
	for (i = 0; i < numSymbols; i++) {
		count1 += (symCache[i]->getRetainCount() == 1);
		symCache[i]->release();
	}
	TEST_ASSERT('D', "2g", count1 == numSymbols);
	res = res && checkSpace("(D)2", spaceCheck, 0);

	// Check the creation of a sizable Dictionary from an array of IOStrings
	// Also check searching dictionary use OSString for a key.
	spaceCheck = checkPointSpace();
	for (i = 0, numSymbols = 0; i < numStrCache; i++) {
		sym = OSSymbol::withCStringNoCopy(strCache[i]);
		if (1 == sym->getRetainCount()) {
			cache[numSymbols] = OSString::withCStringNoCopy(strCache[i]);
			symCache[numSymbols] = sym;
			numSymbols++;
		} else {
			sym->release();
		}
	}
	dict1 = OSDictionary::withObjects((OSObject **) symCache,
	    (OSString **) cache,
	    numSymbols, numSymbols);
	TEST_ASSERT('D', "3a", dict1);
	count1 = count2 = 0;
	for (i = 0; i < numSymbols; i++) {
		count1 += (symCache[i]->getRetainCount() == 3);
		count2 += (cache[i]->getRetainCount() == 1);
	}
	TEST_ASSERT('D', "3b", count1 == numSymbols);
	TEST_ASSERT('D', "3c", count2 == numSymbols);
	if (dict1) {
		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			str = (OSString *) cache[i];
			count1 += (symCache[i] == (const OSSymbol *) dict1->getObject(str));
			count2 += (symCache[i]->getRetainCount() == 3);
		}
		TEST_ASSERT('D', "3d", count1 == numSymbols);
		TEST_ASSERT('D', "3e", count2 == numSymbols);

		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			const char *cStr = ((OSString *) cache[i])->getCStringNoCopy();

			count1 += (symCache[i] == (const OSSymbol *) dict1->getObject(cStr));
			count2 += (symCache[i]->getRetainCount() == 3);
		}
		TEST_ASSERT('D', "3f", count1 == numSymbols);
		TEST_ASSERT('D', "3g", count2 == numSymbols);

		dict1->release();
	}
	count1 = count2 = 0;
	for (i = 0; i < numSymbols; i++) {
		count1 += (symCache[i]->getRetainCount() == 1);
		count2 += (cache[i]->getRetainCount() == 1);
		symCache[i]->release();
		cache[i]->release();
	}
	TEST_ASSERT('D', "3h", count1 == numSymbols);
	res = res && checkSpace("(D)3", spaceCheck, 0);

	// Check the creation of a small dictionary then grow it one item at a time
	// Create a new dictionary from the old dictionary.
	// Finally remove each item permanently.
	spaceCheck = checkPointSpace();
	for (i = 0, numSymbols = 0; i < numStrCache; i++) {
		sym = OSSymbol::withCStringNoCopy(strCache[i]);
		if (1 == sym->getRetainCount()) {
			cache[numSymbols] = OSString::withCStringNoCopy(strCache[i]);
			symCache[numSymbols] = sym;
			numSymbols++;
		} else {
			sym->release();
		}
	}
	dict2 = 0;
	dict1 = OSDictionary::withCapacity(1);
	TEST_ASSERT('D', "4a", dict1);
	if (dict1) {
		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			sym = symCache[i];
			count1 += ((OSObject *) sym == dict1->setObject((OSObject *) sym,
			    sym->getCStringNoCopy()));
			count2 += (sym->getRetainCount() == 3);
		}
		TEST_ASSERT('D', "4b", numSymbols == (int) dict1->getCount());
		TEST_ASSERT('D', "4c", numSymbols == count1);
		TEST_ASSERT('D', "4d", numSymbols == count2);

		dict2 = OSDictionary::withDictionary(dict1, numSymbols - 1);
		TEST_ASSERT('D', "4b", !dict2);
		dict2 = OSDictionary::withDictionary(dict1, numSymbols);
	}
	TEST_ASSERT('D', "4e", dict2);
	if (dict2) {
		dict1->release(); dict1 = 0;

		TEST_ASSERT('D', "4f", numSymbols == (int) dict2->getCount());

		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			OSObject *replacedObject;

			sym = symCache[i];
			str = (OSString *) cache[i];
			replacedObject = dict2->setObject(str, str);
			count1 += ((OSString *) sym == replacedObject);
			replacedObject->release();
			count2 += (sym->getRetainCount() == 2);
			str->release();
		}
		TEST_ASSERT('D', "4g", numSymbols == count1);
		TEST_ASSERT('D', "4h", numSymbols == count2);

		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			sym = symCache[i];
			str = (OSString *) cache[i];
			count1 += (str == dict2->__takeObject(sym));
			str->release();
			count2 += (sym->getRetainCount() == 1);
			sym->release();
		}
		TEST_ASSERT('D', "4i", numSymbols == count1);
		TEST_ASSERT('D', "4j", numSymbols == count2);
		TEST_ASSERT('D', "4k", !dict2->getCount());
		dict2->release(); dict2 = 0;
	} else if (dict1) {
		dict1->release();
	}
	res = res && checkSpace("(D)4", spaceCheck, 0);

	if (res) {
		verPrintf(("testDictionary: All OSDictionary Tests passed\n"));
	} else {
		logPrintf(("testDictionary: Some OSDictionary Tests failed\n"));
	}
}

void
testIterator()
{
	bool res = true;
	void *spaceCheck;
	OSObject *cache[numStrCache];
	OSString *str = 0;
	const OSSymbol *symCache[numStrCache], *sym;
	OSDictionary *dict;
	OSSet *set;
	OSArray *array, *bigReturn;
	OSCollectionIterator *iter1, *iter2;
	int i, numSymbols, count1, count2, count3;

	// Setup symbol and string pools
	for (i = 0, numSymbols = 0; i < numStrCache; i++) {
		sym = OSSymbol::withCStringNoCopy(strCache[i]);
		if (1 == sym->getRetainCount()) {
			cache[numSymbols] = OSString::withCStringNoCopy(strCache[i]);
			symCache[numSymbols] = sym;
			numSymbols++;
		} else {
			sym->release();
		}
	}

	// Test the array iterator
	spaceCheck = checkPointSpace();
	iter1 = iter2 = 0;
	array = OSArray::withCapacity(numSymbols);
	TEST_ASSERT('I', "1a", array);
	if (array) {
		count1 = count2 = 0;
		for (i = numSymbols; --i >= 0;) {
			count1 += array->setObject(cache[i], 0);
		}
		TEST_ASSERT('I', "1b", count1 == numSymbols);

		iter1 = OSCollectionIterator::withCollection(array);
		iter2 = OSCollectionIterator::withCollection(array);
	}
	TEST_ASSERT('I', "1c", iter1);
	TEST_ASSERT('I', "1d", iter2);
	if (iter1 && iter2) {
		count1 = count2 = count3 = 0;
		for (i = 0; (str = (IOString *) iter1->getNextObject()); i++) {
			bigReturn = iter2->nextEntries();
			count1 += (bigReturn->getCount() == 1);
			count2 += (cache[i] == bigReturn->getObject(0));
			count3 += (cache[i] == str);
		}
		TEST_ASSERT('I', "1e", count1 == numSymbols);
		TEST_ASSERT('I', "1f", count2 == numSymbols);
		TEST_ASSERT('I', "1g", count3 == numSymbols);
		TEST_ASSERT('I', "1h", iter1->valid());
		TEST_ASSERT('I', "1i", iter2->valid());

		iter1->reset();
		str = (OSString *) array->__takeObject(0);
		array->setObject(str, 0);
		str->release();
		TEST_ASSERT('I', "1j", !iter1->getNextObject());
		TEST_ASSERT('I', "1k", !iter1->valid());

		iter1->reset();
		count1 = count2 = count3 = 0;
		for (i = 0;; i++) {
			if (i & 1) {
				str = (OSString *) iter1->getNextObject();
			} else if ((bigReturn = iter1->nextEntries())) {
				str = (OSString *) bigReturn->getObject(0);
			} else {
				str = 0;
			}

			if (!str) {
				break;
			}
			count1 += (cache[i] == str);
		}
		TEST_ASSERT('I', "1l", count1 == numSymbols);
		TEST_ASSERT('I', "1m", i == numSymbols);
		TEST_ASSERT('I', "1n", iter1->valid());

		TEST_ASSERT('I', "1o", 3 == array->getRetainCount());
		array->release();
	}

	if (iter1) {
		iter1->release();
	}
	if (iter2) {
		iter2->release();
	}
	res = res && checkSpace("(I)1", spaceCheck, 0);

	// Test the set iterator
	spaceCheck = checkPointSpace();
	iter1 = 0;
	set = OSSet::withCapacity(numSymbols);
	TEST_ASSERT('I', "2a", set);
	if (set) {
		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			count1 += set->setObject(cache[i]);
		}
		TEST_ASSERT('I', "2b", count1 == numSymbols);

		iter1 = OSCollectionIterator::withCollection(set);
		iter2 = OSCollectionIterator::withCollection(set);
	}
	TEST_ASSERT('I', "2c", iter1);
	TEST_ASSERT('I', "2d", iter2);
	if (iter1 && iter2) {
		count1 = count2 = count3 = 0;
		for (i = 0; (str = (IOString *) iter1->getNextObject()); i++) {
			bigReturn = iter2->nextEntries();
			count1 += (bigReturn->getCount() == 1);
			count2 += (cache[i] == bigReturn->getObject(0));
			count3 += (cache[i] == str);
		}
		TEST_ASSERT('I', "2e", count1 == numSymbols);
		TEST_ASSERT('I', "2f", count2 == numSymbols);
		TEST_ASSERT('I', "2g", count3 == numSymbols);
		TEST_ASSERT('I', "2h", iter1->valid());
		TEST_ASSERT('I', "2i", iter2->valid());

		iter1->reset();
		count1 = count2 = count3 = 0;
		for (i = 0;; i++) {
			if (i & 1) {
				str = (OSString *) iter1->getNextObject();
			} else if ((bigReturn = iter1->nextEntries())) {
				str = (OSString *) bigReturn->getObject(0);
			} else {
				str = 0;
			}

			if (!str) {
				break;
			}
			count1 += (cache[i] == str);
		}
		TEST_ASSERT('I', "2l", count1 == numSymbols);
		TEST_ASSERT('I', "2m", i == numSymbols);
		TEST_ASSERT('I', "2n", iter1->valid());

		iter1->reset();
		str = (OSString *) set->getAnyObject();
		(void) set->__takeObject(str);
		set->setObject(str);
		str->release();
		TEST_ASSERT('I', "2j", !iter1->getNextObject());
		TEST_ASSERT('I', "2k", !iter1->valid());

		TEST_ASSERT('I', "2o", 3 == set->getRetainCount());
		set->release();
	}

	if (iter1) {
		iter1->release();
	}
	if (iter2) {
		iter2->release();
	}
	res = res && checkSpace("(I)2", spaceCheck, 0);

	// Test the dictionary iterator
	spaceCheck = checkPointSpace();
	iter1 = 0;
	dict = OSDictionary::withCapacity(numSymbols);
	TEST_ASSERT('I', "3a", dict);
	if (dict) {
		count1 = count2 = 0;
		for (i = 0; i < numSymbols; i++) {
			count1 += (0 != dict->setObject(cache[i], symCache[i]));
		}
		TEST_ASSERT('I', "3b", count1 == numSymbols);

		iter1 = OSCollectionIterator::withCollection(dict);
		iter2 = OSCollectionIterator::withCollection(dict);
	}
	TEST_ASSERT('I', "3c", iter1);
	TEST_ASSERT('I', "3d", iter2);
	if (iter1 && iter2) {
		count1 = count2 = count3 = 0;
		for (i = 0; (sym = (const IOSymbol *) iter1->getNextObject()); i++) {
			bigReturn = iter2->nextEntries();
			count1 += (bigReturn->getCount() == 2);
			count2 += (cache[i] == bigReturn->getObject(1));
			count3 += (symCache[i] == sym);
		}
		TEST_ASSERT('I', "3e", count1 == numSymbols);
		TEST_ASSERT('I', "3f", count2 == numSymbols);
		TEST_ASSERT('I', "3g", count3 == numSymbols);
		TEST_ASSERT('I', "3h", iter1->valid());
		TEST_ASSERT('I', "3i", iter2->valid());

		iter1->reset();
		count1 = count2 = count3 = 0;
		i = 0;
		for (i = 0;; i++) {
			if (i & 1) {
				sym = (const OSSymbol *) iter1->getNextObject();
				str = 0;
			} else if ((bigReturn = iter1->nextEntries())) {
				sym = (const OSSymbol *) bigReturn->getObject(0);
				str = (OSString *) bigReturn->getObject(1);
			} else {
				sym = 0;
			}

			if (!sym) {
				break;
			}

			count1 += (symCache[i] == sym);
			count2 += (!str || cache[i] == str);
		}
		TEST_ASSERT('I', "3l", count1 == numSymbols);
		TEST_ASSERT('I', "3m", count2 == numSymbols);
		TEST_ASSERT('I', "3n", i == numSymbols);
		TEST_ASSERT('I', "3o", iter1->valid());

		iter1->reset();
		str = (OSString *) dict->__takeObject(symCache[numSymbols - 1]);
		dict->setObject(str, symCache[numSymbols - 1]);
		str->release();
		TEST_ASSERT('I', "3j", !iter1->getNextObject());
		TEST_ASSERT('I', "3k", !iter1->valid());

		TEST_ASSERT('I', "3p", 3 == dict->getRetainCount());
		dict->release();
	}

	if (iter1) {
		iter1->release();
	}
	if (iter2) {
		iter2->release();
	}
	res = res && checkSpace("(I)3", spaceCheck, 0);

	count1 = count2 = count3 = 0;
	for (i = 0; i < numSymbols; i++) {
		count1 += (1 == cache[i]->getRetainCount());
		count2 += (1 == symCache[i]->getRetainCount());
		cache[i]->release();
		symCache[i]->release();
	}
	TEST_ASSERT('I', "4a", count1 == numSymbols);
	TEST_ASSERT('I', "4b", count2 == numSymbols);

	if (res) {
		verPrintf(("testIterator: All OSCollectionIterator Tests passed\n"));
	} else {
		logPrintf(("testIterator: Some OSCollectionIterator Tests failed\n"));
	}
}

#endif /* DEBUG */