tests/HashTest.cpp - platform/external/skia - Gitiles

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "include/core/SkRefCnt.h"
 #include "include/core/SkString.h"
 #include "include/private/SkChecksum.h"
 #include "include/private/SkTHash.h"
 #include "tests/Test.h"

 // Tests use of const foreach().  map.count() is of course the better way to do this.
 static int count(const SkTHashMap<int, double>& map) {
     int n = 0;
     map.foreach([&n](int, double) { n++; });
     return n;
 }

 DEF_TEST(HashMap, r) {
     SkTHashMap<int, double> map;

     map.set(3, 4.0);
     REPORTER_ASSERT(r, map.count() == 1);

     REPORTER_ASSERT(r, map.approxBytesUsed() > 0);

     double* found = map.find(3);
     REPORTER_ASSERT(r, found);
     REPORTER_ASSERT(r, *found == 4.0);

     map.foreach([](int key, double* d){ *d = -key; });
     REPORTER_ASSERT(r, count(map) == 1);

     found = map.find(3);
     REPORTER_ASSERT(r, found);
     REPORTER_ASSERT(r, *found == -3.0);

     REPORTER_ASSERT(r, !map.find(2));

     const int N = 20;

     for (int i = 0; i < N; i++) {
         map.set(i, 2.0*i);
     }
     for (int i = 0; i < N; i++) {
         double* found = map.find(i);
         REPORTER_ASSERT(r, found);
         REPORTER_ASSERT(r, *found == i*2.0);
     }
     for (int i = N; i < 2*N; i++) {
         REPORTER_ASSERT(r, !map.find(i));
     }

     REPORTER_ASSERT(r, map.count() == N);

     for (int i = 0; i < N/2; i++) {
         map.remove(i);
     }
     for (int i = 0; i < N; i++) {
         double* found = map.find(i);
         REPORTER_ASSERT(r, (found == nullptr) ==  (i < N/2));
     }
     REPORTER_ASSERT(r, map.count() == N/2);

     map.reset();
     REPORTER_ASSERT(r, map.count() == 0);

     {
         // Test that we don't leave dangling values in empty slots.
         SkTHashMap<int, sk_sp<SkRefCnt>> refMap;
         auto ref = sk_make_sp<SkRefCnt>();
         REPORTER_ASSERT(r, ref->unique());

         refMap.set(0, ref);
         REPORTER_ASSERT(r, refMap.count() == 1);
         REPORTER_ASSERT(r, !ref->unique());

         refMap.remove(0);
         REPORTER_ASSERT(r, refMap.count() == 0);
         REPORTER_ASSERT(r, ref->unique());
     }
 }

 DEF_TEST(HashSet, r) {
     SkTHashSet<SkString> set;

     set.add(SkString("Hello"));
     set.add(SkString("World"));

     REPORTER_ASSERT(r, set.count() == 2);

     REPORTER_ASSERT(r, set.contains(SkString("Hello")));
     REPORTER_ASSERT(r, set.contains(SkString("World")));
     REPORTER_ASSERT(r, !set.contains(SkString("Goodbye")));

     REPORTER_ASSERT(r, set.find(SkString("Hello")));
     REPORTER_ASSERT(r, *set.find(SkString("Hello")) == SkString("Hello"));

     set.remove(SkString("Hello"));
     REPORTER_ASSERT(r, !set.contains(SkString("Hello")));
     REPORTER_ASSERT(r, set.count() == 1);

     set.reset();
     REPORTER_ASSERT(r, set.count() == 0);
 }

 namespace {

 class CopyCounter {
 public:
     CopyCounter() : fID(0), fCounter(nullptr) {}

     CopyCounter(uint32_t id, uint32_t* counter) : fID(id), fCounter(counter) {}

     CopyCounter(const CopyCounter& other)
         : fID(other.fID)
         , fCounter(other.fCounter) {
         SkASSERT(fCounter);
         *fCounter += 1;
     }

     void operator=(const CopyCounter& other) {
         fID = other.fID;
         fCounter = other.fCounter;
         *fCounter += 1;
     }

     CopyCounter(CopyCounter&& other) { *this = std::move(other); }
     void operator=(CopyCounter&& other) {
         fID = other.fID;
         fCounter = other.fCounter;
     }


     bool operator==(const CopyCounter& other) const {
         return fID == other.fID;
     }

 private:
     uint32_t  fID;
     uint32_t* fCounter;
 };

 struct HashCopyCounter {
     uint32_t operator()(const CopyCounter&) const {
         return 0; // let them collide, what do we care?
     }
 };

 }  // namespace

 DEF_TEST(HashSetCopyCounter, r) {
     SkTHashSet<CopyCounter, HashCopyCounter> set;

     uint32_t globalCounter = 0;
     CopyCounter copyCounter1(1, &globalCounter);
     CopyCounter copyCounter2(2, &globalCounter);
     REPORTER_ASSERT(r, globalCounter == 0);

     set.add(copyCounter1);
     REPORTER_ASSERT(r, globalCounter == 1);
     REPORTER_ASSERT(r, set.contains(copyCounter1));
     REPORTER_ASSERT(r, globalCounter == 1);
     set.add(copyCounter1);
     // We allow copies for same-value adds for now.
     REPORTER_ASSERT(r, globalCounter == 2);

     set.add(copyCounter2);
     REPORTER_ASSERT(r, globalCounter == 3);
     REPORTER_ASSERT(r, set.contains(copyCounter1));
     REPORTER_ASSERT(r, set.contains(copyCounter2));
     REPORTER_ASSERT(r, globalCounter == 3);
     set.add(copyCounter1);
     set.add(copyCounter2);
     // We allow copies for same-value adds for now.
     REPORTER_ASSERT(r, globalCounter == 5);
 }


 DEF_TEST(HashFindOrNull, r) {
     struct Entry {
         int key = 0;
         int val = 0;
     };

     struct HashTraits {
         static int GetKey(const Entry* e) { return e->key; }
         static uint32_t Hash(int key) { return key; }
     };

     SkTHashTable<Entry*, int, HashTraits> table;

     REPORTER_ASSERT(r, nullptr == table.findOrNull(7));

     Entry seven = { 7, 24 };
     table.set(&seven);

     REPORTER_ASSERT(r, &seven == table.findOrNull(7));
 }

 DEF_TEST(HashTableGrowsAndShrinks, r) {
     SkTHashSet<int> s;
     auto check_count_cap = [&](int count, int cap) {
         REPORTER_ASSERT(r, s.count() == count);
         REPORTER_ASSERT(r, s.approxBytesUsed() == (sizeof(int) + sizeof(uint32_t)) * cap);
     };

     // Add and remove some elements to test basic growth and shrink patterns.
                  check_count_cap(0,0);
     s.add(1);    check_count_cap(1,4);
     s.add(2);    check_count_cap(2,4);
     s.add(3);    check_count_cap(3,4);
     s.add(4);    check_count_cap(4,8);

     s.remove(4); check_count_cap(3,8);
     s.remove(3); check_count_cap(2,4);
     s.remove(2); check_count_cap(1,4);
     s.remove(1); check_count_cap(0,4);

     s.add(1);    check_count_cap(1,4);
     s.add(2);    check_count_cap(2,4);
     s.add(3);    check_count_cap(3,4);
     s.add(4);    check_count_cap(4,8);

     // Add and remove single elements repeatedly to test hysteresis
     // avoids reallocating these small tables all the time.
     for (int i = 0; i < 10; i++) {
         s.   add(5); check_count_cap(5,8);
         s.remove(5); check_count_cap(4,8);
     }

     s.remove(4);     check_count_cap(3,8);
     for (int i = 0; i < 10; i++) {
         s.   add(4); check_count_cap(4,8);
         s.remove(4); check_count_cap(3,8);
     }

     s.remove(3);     check_count_cap(2,4);
     for (int i = 0; i < 10; i++) {
         s.   add(4); check_count_cap(3,4);
         s.remove(4); check_count_cap(2,4);
     }

     s.remove(2);     check_count_cap(1,4);
     for (int i = 0; i < 10; i++) {
         s.   add(2); check_count_cap(2,4);
         s.remove(2); check_count_cap(1,4);
     }
 }
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "include/core/SkRefCnt.h"
	#include "include/core/SkString.h"
	#include "include/private/SkChecksum.h"
	#include "include/private/SkTHash.h"
	#include "tests/Test.h"

	// Tests use of const foreach(). map.count() is of course the better way to do this.
	static int count(const SkTHashMap<int, double>& map) {
	int n = 0;
	map.foreach([&n](int, double) { n++; });
	return n;
	}

	DEF_TEST(HashMap, r) {
	SkTHashMap<int, double> map;

	map.set(3, 4.0);
	REPORTER_ASSERT(r, map.count() == 1);

	REPORTER_ASSERT(r, map.approxBytesUsed() > 0);

	double* found = map.find(3);
	REPORTER_ASSERT(r, found);
	REPORTER_ASSERT(r, *found == 4.0);

	map.foreach([](int key, double* d){ *d = -key; });
	REPORTER_ASSERT(r, count(map) == 1);

	found = map.find(3);
	REPORTER_ASSERT(r, found);
	REPORTER_ASSERT(r, *found == -3.0);

	REPORTER_ASSERT(r, !map.find(2));

	const int N = 20;

	for (int i = 0; i < N; i++) {
	map.set(i, 2.0*i);
	}
	for (int i = 0; i < N; i++) {
	double* found = map.find(i);
	REPORTER_ASSERT(r, found);
	REPORTER_ASSERT(r, found == i2.0);
	}
	for (int i = N; i < 2*N; i++) {
	REPORTER_ASSERT(r, !map.find(i));
	}

	REPORTER_ASSERT(r, map.count() == N);

	for (int i = 0; i < N/2; i++) {
	map.remove(i);
	}
	for (int i = 0; i < N; i++) {
	double* found = map.find(i);
	REPORTER_ASSERT(r, (found == nullptr) == (i < N/2));
	}
	REPORTER_ASSERT(r, map.count() == N/2);

	map.reset();
	REPORTER_ASSERT(r, map.count() == 0);

	{
	// Test that we don't leave dangling values in empty slots.
	SkTHashMap<int, sk_sp<SkRefCnt>> refMap;
	auto ref = sk_make_sp<SkRefCnt>();
	REPORTER_ASSERT(r, ref->unique());

	refMap.set(0, ref);
	REPORTER_ASSERT(r, refMap.count() == 1);
	REPORTER_ASSERT(r, !ref->unique());

	refMap.remove(0);
	REPORTER_ASSERT(r, refMap.count() == 0);
	REPORTER_ASSERT(r, ref->unique());
	}
	}

	DEF_TEST(HashSet, r) {
	SkTHashSet<SkString> set;

	set.add(SkString("Hello"));
	set.add(SkString("World"));

	REPORTER_ASSERT(r, set.count() == 2);

	REPORTER_ASSERT(r, set.contains(SkString("Hello")));
	REPORTER_ASSERT(r, set.contains(SkString("World")));
	REPORTER_ASSERT(r, !set.contains(SkString("Goodbye")));

	REPORTER_ASSERT(r, set.find(SkString("Hello")));
	REPORTER_ASSERT(r, *set.find(SkString("Hello")) == SkString("Hello"));

	set.remove(SkString("Hello"));
	REPORTER_ASSERT(r, !set.contains(SkString("Hello")));
	REPORTER_ASSERT(r, set.count() == 1);

	set.reset();
	REPORTER_ASSERT(r, set.count() == 0);
	}

	namespace {

	class CopyCounter {
	public:
	CopyCounter() : fID(0), fCounter(nullptr) {}

	CopyCounter(uint32_t id, uint32_t* counter) : fID(id), fCounter(counter) {}

	CopyCounter(const CopyCounter& other)
	: fID(other.fID)
	, fCounter(other.fCounter) {
	SkASSERT(fCounter);
	*fCounter += 1;
	}

	void operator=(const CopyCounter& other) {
	fID = other.fID;
	fCounter = other.fCounter;
	*fCounter += 1;
	}

	CopyCounter(CopyCounter&& other) { *this = std::move(other); }
	void operator=(CopyCounter&& other) {
	fID = other.fID;
	fCounter = other.fCounter;
	}


	bool operator==(const CopyCounter& other) const {
	return fID == other.fID;
	}

	private:
	uint32_t fID;
	uint32_t* fCounter;
	};

	struct HashCopyCounter {
	uint32_t operator()(const CopyCounter&) const {
	return 0; // let them collide, what do we care?
	}
	};

	} // namespace

	DEF_TEST(HashSetCopyCounter, r) {
	SkTHashSet<CopyCounter, HashCopyCounter> set;

	uint32_t globalCounter = 0;
	CopyCounter copyCounter1(1, &globalCounter);
	CopyCounter copyCounter2(2, &globalCounter);
	REPORTER_ASSERT(r, globalCounter == 0);

	set.add(copyCounter1);
	REPORTER_ASSERT(r, globalCounter == 1);
	REPORTER_ASSERT(r, set.contains(copyCounter1));
	REPORTER_ASSERT(r, globalCounter == 1);
	set.add(copyCounter1);
	// We allow copies for same-value adds for now.
	REPORTER_ASSERT(r, globalCounter == 2);

	set.add(copyCounter2);
	REPORTER_ASSERT(r, globalCounter == 3);
	REPORTER_ASSERT(r, set.contains(copyCounter1));
	REPORTER_ASSERT(r, set.contains(copyCounter2));
	REPORTER_ASSERT(r, globalCounter == 3);
	set.add(copyCounter1);
	set.add(copyCounter2);
	// We allow copies for same-value adds for now.
	REPORTER_ASSERT(r, globalCounter == 5);
	}


	DEF_TEST(HashFindOrNull, r) {
	struct Entry {
	int key = 0;
	int val = 0;
	};

	struct HashTraits {
	static int GetKey(const Entry* e) { return e->key; }
	static uint32_t Hash(int key) { return key; }
	};

	SkTHashTable<Entry*, int, HashTraits> table;

	REPORTER_ASSERT(r, nullptr == table.findOrNull(7));

	Entry seven = { 7, 24 };
	table.set(&seven);

	REPORTER_ASSERT(r, &seven == table.findOrNull(7));
	}

	DEF_TEST(HashTableGrowsAndShrinks, r) {
	SkTHashSet<int> s;
	auto check_count_cap = [&](int count, int cap) {
	REPORTER_ASSERT(r, s.count() == count);
	REPORTER_ASSERT(r, s.approxBytesUsed() == (sizeof(int) + sizeof(uint32_t)) * cap);
	};

	// Add and remove some elements to test basic growth and shrink patterns.
	check_count_cap(0,0);
	s.add(1); check_count_cap(1,4);
	s.add(2); check_count_cap(2,4);
	s.add(3); check_count_cap(3,4);
	s.add(4); check_count_cap(4,8);

	s.remove(4); check_count_cap(3,8);
	s.remove(3); check_count_cap(2,4);
	s.remove(2); check_count_cap(1,4);
	s.remove(1); check_count_cap(0,4);

	s.add(1); check_count_cap(1,4);
	s.add(2); check_count_cap(2,4);
	s.add(3); check_count_cap(3,4);
	s.add(4); check_count_cap(4,8);

	// Add and remove single elements repeatedly to test hysteresis
	// avoids reallocating these small tables all the time.
	for (int i = 0; i < 10; i++) {
	s. add(5); check_count_cap(5,8);
	s.remove(5); check_count_cap(4,8);
	}

	s.remove(4); check_count_cap(3,8);
	for (int i = 0; i < 10; i++) {
	s. add(4); check_count_cap(4,8);
	s.remove(4); check_count_cap(3,8);
	}

	s.remove(3); check_count_cap(2,4);
	for (int i = 0; i < 10; i++) {
	s. add(4); check_count_cap(3,4);
	s.remove(4); check_count_cap(2,4);
	}

	s.remove(2); check_count_cap(1,4);
	for (int i = 0; i < 10; i++) {
	s. add(2); check_count_cap(2,4);
	s.remove(2); check_count_cap(1,4);
	}
	}