src/third_party/mozjs/js/src/jsapi-tests/testHashTable.cpp - cobalt - Git at Google

 /* This Source Code Form is subject to the terms of the Mozilla Public
  * License, v. 2.0. If a copy of the MPL was not distributed with this
  * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

 #include "tests.h"

 #include "js/HashTable.h"

 //#define FUZZ

 typedef js::HashMap<uint32_t, uint32_t, js::DefaultHasher<uint32_t>, js::SystemAllocPolicy> IntMap;
 typedef js::HashSet<uint32_t, js::DefaultHasher<uint32_t>, js::SystemAllocPolicy> IntSet;

 /*
  * The rekeying test as conducted by adding only keys masked with 0x0000FFFF
  * that are unique. We rekey by shifting left 16 bits.
  */
 #ifdef FUZZ
 const size_t TestSize = 0x0000FFFF / 2;
 const size_t TestIterations = SIZE_MAX;
 #else
 const size_t TestSize = 10000;
 const size_t TestIterations = 10;
 #endif

 JS_STATIC_ASSERT(TestSize <= 0x0000FFFF / 2);

 struct LowToHigh
 {
     static uint32_t rekey(uint32_t initial) {
         if (initial > uint32_t(0x0000FFFF))
             return initial;
         return initial << 16;
     }

     static bool shouldBeRemoved(uint32_t initial) {
         return false;
     }
 };

 struct LowToHighWithRemoval
 {
     static uint32_t rekey(uint32_t initial) {
         if (initial > uint32_t(0x0000FFFF))
             return initial;
         return initial << 16;
     }

     static bool shouldBeRemoved(uint32_t initial) {
         if (initial >= 0x00010000)
             return (initial >> 16) % 2 == 0;
         return initial % 2 == 0;
     }
 };

 static bool
 MapsAreEqual(IntMap &am, IntMap &bm)
 {
     bool equal = true;
     if (am.count() != bm.count()) {
         equal = false;
         fprintf(stderr, "A.count() == %u and B.count() == %u\n", am.count(), bm.count());
     }
     for (IntMap::Range r = am.all(); !r.empty(); r.popFront()) {
         if (!bm.has(r.front().key)) {
             equal = false;
             fprintf(stderr, "B does not have %x which is in A\n", r.front().key);
         }
     }
     for (IntMap::Range r = bm.all(); !r.empty(); r.popFront()) {
         if (!am.has(r.front().key)) {
             equal = false;
             fprintf(stderr, "A does not have %x which is in B\n", r.front().key);
         }
     }
     return equal;
 }

 static bool
 SetsAreEqual(IntSet &am, IntSet &bm)
 {
     bool equal = true;
     if (am.count() != bm.count()) {
         equal = false;
         fprintf(stderr, "A.count() == %u and B.count() == %u\n", am.count(), bm.count());
     }
     for (IntSet::Range r = am.all(); !r.empty(); r.popFront()) {
         if (!bm.has(r.front())) {
             equal = false;
             fprintf(stderr, "B does not have %x which is in A\n", r.front());
         }
     }
     for (IntSet::Range r = bm.all(); !r.empty(); r.popFront()) {
         if (!am.has(r.front())) {
             equal = false;
             fprintf(stderr, "A does not have %x which is in B\n", r.front());
         }
     }
     return equal;
 }

 static bool
 AddLowKeys(IntMap *am, IntMap *bm, int seed)
 {
     size_t i = 0;
     srand(seed);
     while (i < TestSize) {
         uint32_t n = rand() & 0x0000FFFF;
         if (!am->has(n)) {
             if (bm->has(n))
                 return false;
             am->putNew(n, n);
             bm->putNew(n, n);
             i++;
         }
     }
     return true;
 }

 static bool
 AddLowKeys(IntSet *as, IntSet *bs, int seed)
 {
     size_t i = 0;
     srand(seed);
     while (i < TestSize) {
         uint32_t n = rand() & 0x0000FFFF;
         if (!as->has(n)) {
             if (bs->has(n))
                 return false;
             as->putNew(n);
             bs->putNew(n);
             i++;
         }
     }
     return true;
 }

 template <class NewKeyFunction>
 static bool
 SlowRekey(IntMap *m) {
     IntMap tmp;
     tmp.init();

     for (IntMap::Range r = m->all(); !r.empty(); r.popFront()) {
         if (NewKeyFunction::shouldBeRemoved(r.front().key))
             continue;
         uint32_t hi = NewKeyFunction::rekey(r.front().key);
         if (tmp.has(hi))
             return false;
         tmp.putNew(hi, r.front().value);
     }

     m->clear();
     for (IntMap::Range r = tmp.all(); !r.empty(); r.popFront()) {
         m->putNew(r.front().key, r.front().value);
     }

     return true;
 }

 template <class NewKeyFunction>
 static bool
 SlowRekey(IntSet *s) {
     IntSet tmp;
     tmp.init();

     for (IntSet::Range r = s->all(); !r.empty(); r.popFront()) {
         if (NewKeyFunction::shouldBeRemoved(r.front()))
             continue;
         uint32_t hi = NewKeyFunction::rekey(r.front());
         if (tmp.has(hi))
             return false;
         tmp.putNew(hi);
     }

     s->clear();
     for (IntSet::Range r = tmp.all(); !r.empty(); r.popFront()) {
         s->putNew(r.front());
     }

     return true;
 }

 BEGIN_TEST(testHashRekeyManual)
 {
     IntMap am, bm;
     am.init();
     bm.init();
     for (size_t i = 0; i < TestIterations; ++i) {
 #ifdef FUZZ
         fprintf(stderr, "map1: %lu\n", i);
 #endif
         CHECK(AddLowKeys(&am, &bm, i));
         CHECK(MapsAreEqual(am, bm));

         for (IntMap::Enum e(am); !e.empty(); e.popFront()) {
             uint32_t tmp = LowToHigh::rekey(e.front().key);
             if (tmp != e.front().key)
                 e.rekeyFront(tmp);
         }
         CHECK(SlowRekey<LowToHigh>(&bm));

         CHECK(MapsAreEqual(am, bm));
         am.clear();
         bm.clear();
     }

     IntSet as, bs;
     as.init();
     bs.init();
     for (size_t i = 0; i < TestIterations; ++i) {
 #ifdef FUZZ
         fprintf(stderr, "set1: %lu\n", i);
 #endif
         CHECK(AddLowKeys(&as, &bs, i));
         CHECK(SetsAreEqual(as, bs));

         for (IntSet::Enum e(as); !e.empty(); e.popFront()) {
             uint32_t tmp = LowToHigh::rekey(e.front());
             if (tmp != e.front())
                 e.rekeyFront(tmp);
         }
         CHECK(SlowRekey<LowToHigh>(&bs));

         CHECK(SetsAreEqual(as, bs));
         as.clear();
         bs.clear();
     }

     return true;
 }
 END_TEST(testHashRekeyManual)

 BEGIN_TEST(testHashRekeyManualRemoval)
 {
     IntMap am, bm;
     am.init();
     bm.init();
     for (size_t i = 0; i < TestIterations; ++i) {
 #ifdef FUZZ
         fprintf(stderr, "map2: %lu\n", i);
 #endif
         CHECK(AddLowKeys(&am, &bm, i));
         CHECK(MapsAreEqual(am, bm));

         for (IntMap::Enum e(am); !e.empty(); e.popFront()) {
             if (LowToHighWithRemoval::shouldBeRemoved(e.front().key)) {
                 e.removeFront();
             } else {
                 uint32_t tmp = LowToHighWithRemoval::rekey(e.front().key);
                 if (tmp != e.front().key)
                     e.rekeyFront(tmp);
             }
         }
         CHECK(SlowRekey<LowToHighWithRemoval>(&bm));

         CHECK(MapsAreEqual(am, bm));
         am.clear();
         bm.clear();
     }

     IntSet as, bs;
     as.init();
     bs.init();
     for (size_t i = 0; i < TestIterations; ++i) {
 #ifdef FUZZ
         fprintf(stderr, "set1: %lu\n", i);
 #endif
         CHECK(AddLowKeys(&as, &bs, i));
         CHECK(SetsAreEqual(as, bs));

         for (IntSet::Enum e(as); !e.empty(); e.popFront()) {
             if (LowToHighWithRemoval::shouldBeRemoved(e.front())) {
                 e.removeFront();
             } else {
                 uint32_t tmp = LowToHighWithRemoval::rekey(e.front());
                 if (tmp != e.front())
                     e.rekeyFront(tmp);
             }
         }
         CHECK(SlowRekey<LowToHighWithRemoval>(&bs));

         CHECK(SetsAreEqual(as, bs));
         as.clear();
         bs.clear();
     }

     return true;
 }
 END_TEST(testHashRekeyManualRemoval)
	/* This Source Code Form is subject to the terms of the Mozilla Public
	* License, v. 2.0. If a copy of the MPL was not distributed with this
	* file, You can obtain one at http://mozilla.org/MPL/2.0/. */

	#include "tests.h"

	#include "js/HashTable.h"

	//#define FUZZ

	typedef js::HashMap<uint32_t, uint32_t, js::DefaultHasher<uint32_t>, js::SystemAllocPolicy> IntMap;
	typedef js::HashSet<uint32_t, js::DefaultHasher<uint32_t>, js::SystemAllocPolicy> IntSet;

	/*
	* The rekeying test as conducted by adding only keys masked with 0x0000FFFF
	* that are unique. We rekey by shifting left 16 bits.
	*/
	#ifdef FUZZ
	const size_t TestSize = 0x0000FFFF / 2;
	const size_t TestIterations = SIZE_MAX;
	#else
	const size_t TestSize = 10000;
	const size_t TestIterations = 10;
	#endif

	JS_STATIC_ASSERT(TestSize <= 0x0000FFFF / 2);

	struct LowToHigh
	{
	static uint32_t rekey(uint32_t initial) {
	if (initial > uint32_t(0x0000FFFF))
	return initial;
	return initial << 16;
	}

	static bool shouldBeRemoved(uint32_t initial) {
	return false;
	}
	};

	struct LowToHighWithRemoval
	{
	static uint32_t rekey(uint32_t initial) {
	if (initial > uint32_t(0x0000FFFF))
	return initial;
	return initial << 16;
	}

	static bool shouldBeRemoved(uint32_t initial) {
	if (initial >= 0x00010000)
	return (initial >> 16) % 2 == 0;
	return initial % 2 == 0;
	}
	};

	static bool
	MapsAreEqual(IntMap &am, IntMap &bm)
	{
	bool equal = true;
	if (am.count() != bm.count()) {
	equal = false;
	fprintf(stderr, "A.count() == %u and B.count() == %u\n", am.count(), bm.count());
	}
	for (IntMap::Range r = am.all(); !r.empty(); r.popFront()) {
	if (!bm.has(r.front().key)) {
	equal = false;
	fprintf(stderr, "B does not have %x which is in A\n", r.front().key);
	}
	}
	for (IntMap::Range r = bm.all(); !r.empty(); r.popFront()) {
	if (!am.has(r.front().key)) {
	equal = false;
	fprintf(stderr, "A does not have %x which is in B\n", r.front().key);
	}
	}
	return equal;
	}

	static bool
	SetsAreEqual(IntSet &am, IntSet &bm)
	{
	bool equal = true;
	if (am.count() != bm.count()) {
	equal = false;
	fprintf(stderr, "A.count() == %u and B.count() == %u\n", am.count(), bm.count());
	}
	for (IntSet::Range r = am.all(); !r.empty(); r.popFront()) {
	if (!bm.has(r.front())) {
	equal = false;
	fprintf(stderr, "B does not have %x which is in A\n", r.front());
	}
	}
	for (IntSet::Range r = bm.all(); !r.empty(); r.popFront()) {
	if (!am.has(r.front())) {
	equal = false;
	fprintf(stderr, "A does not have %x which is in B\n", r.front());
	}
	}
	return equal;
	}

	static bool
	AddLowKeys(IntMap am, IntMap bm, int seed)
	{
	size_t i = 0;
	srand(seed);
	while (i < TestSize) {
	uint32_t n = rand() & 0x0000FFFF;
	if (!am->has(n)) {
	if (bm->has(n))
	return false;
	am->putNew(n, n);
	bm->putNew(n, n);
	i++;
	}
	}
	return true;
	}

	static bool
	AddLowKeys(IntSet as, IntSet bs, int seed)
	{
	size_t i = 0;
	srand(seed);
	while (i < TestSize) {
	uint32_t n = rand() & 0x0000FFFF;
	if (!as->has(n)) {
	if (bs->has(n))
	return false;
	as->putNew(n);
	bs->putNew(n);
	i++;
	}
	}
	return true;
	}

	template <class NewKeyFunction>
	static bool
	SlowRekey(IntMap *m) {
	IntMap tmp;
	tmp.init();

	for (IntMap::Range r = m->all(); !r.empty(); r.popFront()) {
	if (NewKeyFunction::shouldBeRemoved(r.front().key))
	continue;
	uint32_t hi = NewKeyFunction::rekey(r.front().key);
	if (tmp.has(hi))
	return false;
	tmp.putNew(hi, r.front().value);
	}

	m->clear();
	for (IntMap::Range r = tmp.all(); !r.empty(); r.popFront()) {
	m->putNew(r.front().key, r.front().value);
	}

	return true;
	}

	template <class NewKeyFunction>
	static bool
	SlowRekey(IntSet *s) {
	IntSet tmp;
	tmp.init();

	for (IntSet::Range r = s->all(); !r.empty(); r.popFront()) {
	if (NewKeyFunction::shouldBeRemoved(r.front()))
	continue;
	uint32_t hi = NewKeyFunction::rekey(r.front());
	if (tmp.has(hi))
	return false;
	tmp.putNew(hi);
	}

	s->clear();
	for (IntSet::Range r = tmp.all(); !r.empty(); r.popFront()) {
	s->putNew(r.front());
	}

	return true;
	}

	BEGIN_TEST(testHashRekeyManual)
	{
	IntMap am, bm;
	am.init();
	bm.init();
	for (size_t i = 0; i < TestIterations; ++i) {
	#ifdef FUZZ
	fprintf(stderr, "map1: %lu\n", i);
	#endif
	CHECK(AddLowKeys(&am, &bm, i));
	CHECK(MapsAreEqual(am, bm));

	for (IntMap::Enum e(am); !e.empty(); e.popFront()) {
	uint32_t tmp = LowToHigh::rekey(e.front().key);
	if (tmp != e.front().key)
	e.rekeyFront(tmp);
	}
	CHECK(SlowRekey<LowToHigh>(&bm));

	CHECK(MapsAreEqual(am, bm));
	am.clear();
	bm.clear();
	}

	IntSet as, bs;
	as.init();
	bs.init();
	for (size_t i = 0; i < TestIterations; ++i) {
	#ifdef FUZZ
	fprintf(stderr, "set1: %lu\n", i);
	#endif
	CHECK(AddLowKeys(&as, &bs, i));
	CHECK(SetsAreEqual(as, bs));

	for (IntSet::Enum e(as); !e.empty(); e.popFront()) {
	uint32_t tmp = LowToHigh::rekey(e.front());
	if (tmp != e.front())
	e.rekeyFront(tmp);
	}
	CHECK(SlowRekey<LowToHigh>(&bs));

	CHECK(SetsAreEqual(as, bs));
	as.clear();
	bs.clear();
	}

	return true;
	}
	END_TEST(testHashRekeyManual)

	BEGIN_TEST(testHashRekeyManualRemoval)
	{
	IntMap am, bm;
	am.init();
	bm.init();
	for (size_t i = 0; i < TestIterations; ++i) {
	#ifdef FUZZ
	fprintf(stderr, "map2: %lu\n", i);
	#endif
	CHECK(AddLowKeys(&am, &bm, i));
	CHECK(MapsAreEqual(am, bm));

	for (IntMap::Enum e(am); !e.empty(); e.popFront()) {
	if (LowToHighWithRemoval::shouldBeRemoved(e.front().key)) {
	e.removeFront();
	} else {
	uint32_t tmp = LowToHighWithRemoval::rekey(e.front().key);
	if (tmp != e.front().key)
	e.rekeyFront(tmp);
	}
	}
	CHECK(SlowRekey<LowToHighWithRemoval>(&bm));

	CHECK(MapsAreEqual(am, bm));
	am.clear();
	bm.clear();
	}

	IntSet as, bs;
	as.init();
	bs.init();
	for (size_t i = 0; i < TestIterations; ++i) {
	#ifdef FUZZ
	fprintf(stderr, "set1: %lu\n", i);
	#endif
	CHECK(AddLowKeys(&as, &bs, i));
	CHECK(SetsAreEqual(as, bs));

	for (IntSet::Enum e(as); !e.empty(); e.popFront()) {
	if (LowToHighWithRemoval::shouldBeRemoved(e.front())) {
	e.removeFront();
	} else {
	uint32_t tmp = LowToHighWithRemoval::rekey(e.front());
	if (tmp != e.front())
	e.rekeyFront(tmp);
	}
	}
	CHECK(SlowRekey<LowToHighWithRemoval>(&bs));

	CHECK(SetsAreEqual(as, bs));
	as.clear();
	bs.clear();
	}

	return true;
	}
	END_TEST(testHashRekeyManualRemoval)